The intrinsic Cl- conductance of mouse kidney cortex brush-border membrane vesicles is not related to CFTR

Brush-border membrane vesicles (BBMV) were prepared from whole Balb/c mice kidneys by a Mg2+ precipitation technique. The presence of an intrinsic Cl- conductance co-expressed with Na+/glucose cotransport was inferred by the anion dependence of [14C]glucose uptake and overshoot with inward Na(+)-anion gradients. In Na(+)-equilibrated conditions, an inside-negative membrane potential difference (p.d.) produced by an inward Cl- gradient alone was capable of driving intravesicular [14C]glucose accumulation. The apparent anion conductance had a selectivity of Br- = I- = Cl- > F- > > gluconate, was inhibited by 0.5 mM 5-nitro-2-(3-phenylpropylamino)-benzoic acid (NPPB) but was unaffected by 0.5 mM 4,4'-diisothiocyanatostilbene 2,2'-disulphonate (DIDS). BBMV were isolated from mice in which the CFTR gene had been disrupted by a termination mutation (-/-) and compared with normal litter mates (+/+) and heterozygotes (-/+)[18]. [14C]Glucose uptake in NaCl media was significantly greater than glucose uptake in Na gluconate media for all three genotypes measured at 20 s: for homozygous -/- animals [14C]glucose uptake was increased by 2.80 +/- 0.53 fold in Cl- media compared to gluconate media, n = 6; for wild-type +/+, by 2.16 +/- 0.53 fold, n = 8; and for heterozygous +/- animals, by 2.17 +/- 0.45 fold, n = 8. The observation of a Cl-(-)dependent component in BBMV isolated from homozygous -/- mutant animals shows that the chloride conductance in these vesicles cannot be due to CFTR expression.

Gene trapping and functional genomics

Classical genetics depends upon investigation of function by random destruction with little information on structure. Modern mapping using random polymorphisms, cloning and sequencing investigates structure without function. The genome projects with their rapid gene discovery are, however, redefining classical genetic approaches. The efficient translation of this wealth of new information into insights in biological function at molecular, cellular and organismal levels requires large-scale approaches to the generation of mutants. Gene trapping in embryonic stem (ES) cells allows an efficient approach to the functional analysis of the murine genome. The usually separate processes of gene discovery, mapping, the observation of the expression pattern and the mutant phenotype in vivo, can be integrated by the use of an indexed library of insertionally mutated ES cell clones. It should be possible to generate mutants for a large proportion of the genes of the mammalian genome.

Normalization of ion transport in murine cystic fibrosis nasal epithelium using gene transfer

The murine nasal epithelium was investigated by the short-circuit current (SCC) technique. Electrogenic sodium absorption was revealed by addition of amiloride and calcium-dependent chloride secretion by the addition of amiloride and calcium-dependent chloride secretion by the addition of 2,5-di-(tert-butyl)-1,4-benzohydroquinone (TBHQ)/ionomycin. In the presence of these agents a further increase in SCC was obtained by addition of forskolin. Epithelia from both cystic fibrosis (CF) null (Cftrtm1Cam) and CF delta F508 (Cftrtm2Cam) mice had enhanced sodium absorption compared with controls, whereas only delta F508 epithelia had increased calcium-dependent chloride secretion. Both strains gave nasal epithelia that showed significantly reduced responses to forskolin, due to the absence of CF transmembrane conductance regulator (CFTR) chloride channels. In Cftrtm2Cam nasal epithelia the forskolin responses were not significantly different from zero. Transfection of these mice with the plasmid pTRIAL10-CFTR2 complexed with cationic liposomes normalized the transporting activity in the nasal epithelium. Basal SCC and calcium-dependent chloride secretion were significantly reduced, whereas CFTR-dependent chloride secretion was increased to normal values. Amiloride-sensitive SCC was reduced by transfection but failed to reach significance. The similarity of murine CF nasal epithelium to that in human CF airways makes the model valuable for gene therapy studies.

Secondary cytokines interact in sequence with interleukin-1alpha (IL-1alpha) with or without macrophage colony-stimulating factor (M-CSF) to further accelerate granulopoietic recovery in myelosuppressed animals

Interleukin-1alpha (IL-1), by itself, accelerates both granulopoietic and thrombopoietic recovery in the 5-fluorouracil (5-FU) myelosuppressed mouse (FUM). As a primary cytokine, IL-1 also interacts in concert with macrophage colony-stimulating factor (M-CSF) to synergistically enhance hematopoietic recovery in the FUM. As part of our continuing interest in cytokine sequencing, studies were carried out to determine whether the addition of several secondary cytokines (GM-CSF, IL-3, and IL-6) to IL-1 (+/-M-CSF) would further enhance the stimulatory effects of the primary cytokine(s) on hematopoietic recovery in FUM. Throughout these studies, IL-1 (+/-M-CSF) was administered for 2 days to the FUM, and the secondary cytokines were given either in concert (days 1 and 2) or in sequence (days 3-6) or both with the primary cytokine(s). Based on the magnitude of 7-day post-5-FU granulocyte recovery, the results demonstrated that the synergistic effects of IL-1 + M-CSF treatment on granulopoietic recovery in FUM could not be duplicated by substituting either IL-3, IL-6, or GM-CSF for M-CSF. Nonetheless, the secondary cytokines were observed to enhance the stimulatory effects of IL-1 under the following administration schedules: (1) 2 days of IL-1, followed by a sequential treatment (days 3-6) with either IL-3 or IL-6, (2) 2 days of IL-1 + GM-CSF followed by an additional 4 days of GM-CSF alone, and (3) 2 days of IL-1 + GM-CSF followed by 3-4 days of a combination of GM-CSF and either IL-3 or IL-6. Although these cytokine treatment schedules led to an enhanced granulocyte recovery (vs. IL-1 alone) in FUM, the day 7 granulocyte numbers never exceeded those observed after 2 days of IL-1 + M-CSF. Similarly, granulocyte recovery in FUM receiving 2 days of IL-1 + M-CSF followed by either GM-CSF or IL-3 also was significantly greater than that observed with IL-1 + M-CSF alone. In contrast, however, the sequential administration of IL-6 with IL-1 + M-CSF, unlike IL-1, failed to further enhance granulopoietic recovery, suggesting that there may be an antagonism between IL-6 and M-CSF in the FUM. In summary, therefore, the secondary cytokines were found to interact more effectively when they were administered in sequence, rather than in concert, with both IL-1 and IL-1 + M-CSF.

Complementation of null CF mice with a human CFTR YAC transgene

We have made transgenic mice carrying a 320 kb YAC with the intact human cystic fibrosis transmembrane regulator (CFTR) gene. Mice that only express the human transgene were obtained by breeding with Cambridge null CF mice. One line has approximately two copies of the intact YAC. Mice carrying this transgene and expressing no mouse cftr appear normal and breed well, in marked contrast to the null mice, where 50% die by approximately 5 days after birth. The chloride secretory responses in these mice are as large or larger than in wild-type tissues. Expression of the transgene is highly cell type specific and matches that of the endogenous mouse gene in the crypt epithelia throughout the gut and in salivary gland tissue. However, there is no transgene expression in some tissues, such as the Brunner's glands, where it would be expected. Where there are differences between the mouse and human pattern of expression, the transgene follows the mouse pattern. We have thus defined a cloned fragment of DNA which directs physiological levels of expression in many of the specific cells where CFTR is normally expressed.

Antioxidant enzyme activity in murine hematopoietic bone marrow following treatment with interleukin 1 alpha: influence of tumor

To determine whether non-hematologic tumors influence the bone marrow's antioxidant enzyme response to the radioprotective cytokine interleukin 1 alpha (IL-1), studies were undertaken using BDF1 and Balb/c mice bearing small, medium or large Lewis lung carcinoma (LLCa) or EMT6 mammary carcinoma tumors, respectively. Results demonstrated that, similar to nontumor-bearing mice, treatment of tumor-bearing animals with IL-1 was associated with a significant increase in marrow MnSOD activity. However, the duration of this elevated activity was reduced as tumor burden increased, and this reduction may have an impact on IL-1's ability to radioprotect tumor bearing animals, especially when tumor burden is large. In addition to cytokine-mediated responses, significant tumor-related influences on the marrow's antioxidant enzyme status were seen. Notably, it was observed that the presence of tumor was correlated with a marked suppression of antioxidant enzyme activity. Surprisingly, however, the pattern of enzyme suppression was found to differ between the two tumor models studied both in temporal onset and in the number of enzymes involved. In conclusion, the data obtained from these studies on tumor-bearing animals demonstrate that there are both cytokine-related and tumor-related influences which can effect the antioxidant enzyme status of the hematopoietic marrow-influences which may have the potential to alter the marrow's ability to tolerate free radical-generating events, both endogenous (i.e inflammation, infection) and exogenous (i.e. radiation, certain chemotherapeutic drugs) in origin.

Increased contact time improves adenovirus-mediated CFTR gene transfer to nasal epithelium of CF mice

Multiple dosing with recombinant adenoviral vectors containing the cystic fibrosis transmembrane conductance regulator (CFTR) cDNA to the nasal mucosa of cystic fibrosis (CF) transgenic mice reportedly results in only partial correction of the CF defect in chloride (Cl-) secretion without normalizing sodium (Na+) hyperabsorption, perhaps indicating inefficient gene transfer into the nasal airway epithelium in vivo. In this study, we have examined whether optimizing vector administration such as contact time could improve gene transfer efficiency. Changes in basal nasal potential difference (PD), and in PD (delta PD) following addition of amiloride and subsequent removal of Cl- from the luminal perfusate were assayed. As reported previously, the basal nasal PD was significantly more negative in CF mice (-24.9 +/- 2.1 mV) than in normal mice (-6.3 +/- 1.2 mV). Normal mouse nasal mucosa exhibited a large hyperpolarization in response to low Cl- substitution (delta PD of 8.5 +/- 1.9 mV), whereas the nasal mucosa of the CF mouse depolarized in response to this treatment. No correction of either the Cl- or Na+ transport defects were observed when 5 x 10(9) IU of Ad2/CFTR-5 were administered to the nasal passage of CF mice over a period of 5-20 min. However, when CF mice were perfused over a period of 60 min with the same dose of vector, a significant response (delta PD of 5.9 +/- 1.1 mV) to low Cl- substitution was detected 2 days later. In these mice, the basal nasal PD (-10.5 +/- 1.4 mV) and the response to amiloride were also reduced, indicating a partial correction of the Na+ transport defect. Expression of functional CFTR activity was transient with no measurable delta PD signals observed by day 7 post-treatment. These results suggest that prolonging the contact between an adenoviral vector and the respiratory epithelium enhances the efficiency of gene transfer and can result in improved correction of the CF Na+ and Cl- ion transport defects. Therefore, strategies that improve internalization of viral vectors and that prolong their contact time with target cells may result in the improved clinical efficacy of such vectors.

Humanized porcine VCAM-specific monoclonal antibodies with chimeric IgG2/G4 constant regions block human leukocyte binding to porcine endothelial cells

Discordant xenografts surviving the initial hyperacute rejection phase may be subject to cellular rejection processes mediated by infiltrating leukocytes including T cells, NK cells and monocytes. The stable adhesion of these cell types to endothelial cells is due to the molecular interaction of the integrins VLA-4 and LFA-1 with their ligands vascular cell adhesion molecule (VCAM) and ICAM-1 present on the endothelial cells. Human VLA-4 binds to porcine VCAM, and blocking mAbs specific for porcine VCAM have been developed. We have localized the epitope of the anti-porcine VCAM blocking mAbs 2A2 and 3F4 to domains 1 and 2, respectively. Humanized antibodies (IgG4 isotype) were constructed from these anti-porcine VCAM antibodies and demonstrated to inhibit adhesion of Ramos, Jurkat and YT cells, as well as purified resting and activated human T cells, to porcine aortic endothelial cells (PAEC). These cell types express both LFA-1 as well as VLA-4, suggesting blockade of human VLA-4 interaction with porcine VCAM may alone be sufficient to significantly impair adhesion of human leukocytes to porcine endothelial cells. The chimeric anti-porcine VCAM (pVCAM) HuG4 antibodies promoted increased adhesion of Fc receptor (FcR) positive cells such as U937 monocytic cells to PAEC. In contrast, chimeric anti-porcine VCAM antibodies created using the CH1 and hinge region from human IgG2 and the CH2 and CH3 regions from human IgG4 (HuG2/G4 antibodies) inhibited binding of FcR positive cells to PAEC. These chimeric anti-pVCAM antibodies should allow delineation of the in vivo role of VLA-4/VCAM interaction in porcine-to-primate xenotransplants. Further, the design of the HuG2/G4 antibodies should render them efficacious in multiple settings requiring elimination of FcR binding.

Enchondroma of the scaphoid

Enchondroma is a common benign cartilaginous tumour which arises from the medullary cavity, most commonly in the phalanges of the hands and feet. Enchondroma involving the carpal bones, however, is rare; only three cases of scaphoid enchondromata and one patient with multiple carpal enchondromata have been reported in the English literature. We report the diagnosis and treatment of a case of scaphoid enchondroma presenting as chronic wrist pain after relatively trivial injury.

Co-ordinate regulation of the cystic fibrosis and multidrug resistance genes in cystic fibrosis knockout mice

The cystic fibrosis (Cftr and multidrug resistance (Mdr1) genes encode structurally similar proteins which are members of the ABC transporter superfamily. These genes exhibit complementary patterns of expression in vivo, suggesting that the regulation of their expression may be co-ordinated. We have tested this hypothesis in vivo by examining Cftr and Mdr1 expression in cystic fibrosis knockout transgenic mice (Cftr(tm1CAM)). Cftr mRNA expression in Cftr(tm1CAM)/Cftr(tm1CAM) mice was 4-fold reduced in the intestine, as compared with littermate wild-type mice. All other Cftr(tm1CAM)/Cftr(tm1CAM) mouse tissues examined showed similar reductions in Cftr expression. In contrast, we observed a 4-fold increase in Mdr1 mRNA expression in the intestines of neonatal and 3- to 4-week-old Cftr(tm1CAM)/Cftr(tm1CAM) mice, as compared with age-matched +/+ mice, and an intermediate level of Mdr1 mRNA in heterozygous Cftr(tm1CAM) mice. In 10-week-old, Cftr(tm1CAM)/Cftr(tm1CAM) mice and in contrast to the younger mice, Mdr1 mRNA expression was reduced, by 3-fold. The expression of two control genes, Pgk-1 and Mdr2, was similar in all genotypes, suggesting that the changes in Mdr1 mRNA levels observed in the Cftr(tm1CAM)/Cftr(tm1CAM) mice are specific to the loss of Cftr expression and/or function. These data provide further evidence supporting the hypothesis that the regulation Cftr and Mdr1 expression is co-ordinated in vivo, and that this co-ordinate regulation is influenced by temporal factors.

Chloride secretion in the trachea of null cystic fibrosis mice: the effects of transfection with pTrial10-CFTR2

1. An improved novel plasmid backbone, pTrial10, has been developed. We have used this vector to deliver the cDNA for the cystic fibrosis transmembrane conductance regulator (CFTR) to cells, both in vitro and in vivo, complexed with cationic liposomes. 2. Human 293 kidney epithelial cells (HEK 293) showed expression of an immunoprecipitable 165 kDa protein corresponding to CFTR when transfected in vitro with pTrial10-CFTR2, but not when the vector pTrial10 was used. 3. HEK 293 cells transfected with pTrial10-CFTR2, but not pTrial10, demonstrated a cAMP-dependent anion conductance, measured by fluorescence microscopy using a halide-sensitive probe, SPQ. 4. The CFTR-dependent, cAMP-sensitive chloride secretory response in murine tracheal epithelium could be measured if the calcium-dependent chloride secretory process was first maximally stimulated with a mixture of the Ca(2+)-ATPase inhibitor, TBHQ, and the calcium ionophore, A23187. With these conditions wild-type and CF-null (transgenic animals in which the cystic fibrosis (CF) gene has been disrupted so that no CFTR is produced) murine tracheas could be distinguished. The difference between the current elicited by forskolin in wild-type and CF tracheas was highly significantly different (P < 0.001), giving a CFTR-dependent current of 11.2 microA cm-2. 5. Transfection of the airways with pTrial10-CFTR2, but not pTrial10, significantly (P < 0.01) increased the CFTR-dependent chloride secretory current in CF tracheas. The degree of correction was greater when intra-tracheal installation rather than nasal insufflation was used to deliver the plasmids.

Following cell fate in the living mouse embryo

It has been difficult to follow many of the dramatic changes in cell fate and cell migration during mouse development. This is because there has been no enduring marker that would allow cells to be recognised in the living embryo. We believe that we have overcome this problem by developing a novel form of green fluorescent protein, named MmGFP, that proves to be easily visible and non toxic to mouse cells and does not perturb embryogenesis. We show that synthetic mRNA encoding MmGFP can be injected into blastomeres to follow the fate of their progeny during preimplantation development. We have made a stable embryonic stem cell line that expresses MmGFP and introduced these fluorescent cells into mouse embryos. For the first time, we have been able to follow the fate of embryonic stem cells in living embryos and to observe directly the contribution of these cells to distinct lineages of the postimplantation embryo. This approach should lead to a more complete description of the dynamics of cell fate in the mouse.

Estrogen decreases in vitro apoptosis of peripheral blood mononuclear cells from women with normal menstrual cycles and decreases TNF-alpha production in SLE but not in normal cultures

Estrogen has been suspected of causing changes in the lupus disease process by an as yet undetermined mechanism. In vitro apoptosis of peripheral blood mononuclear cells (PBMCs) in short-term unstimulated cultures of systemic lupus erythematosus (SLE) cells is accelerated compared to that in cells from normal individuals. To determine whether estrogen might be involved in regulating the rate of apoptosis in lupus, PBMCs or T cells from women with or without normal menstrual cycles were cultured for 16-20 hr with or without 30 ng/ml estradiol. The rate of apoptosis of the cells was measured, and supernatants of these cultures were tested for various cytokines known to affect apoptosis directly or indirectly. Compared to untreated cultures, estrogen significantly reduced in vitro apoptosis of both patient (P < 0.05, n = 12) and normal (P < 0.001, n = 14) PBMCs if the donors had normal menstrual cycles. Estrogen did not decrease apoptosis of noncycling patient (n = 8) nor of normal (n = 11) cells. Apoptosis of T cells cultured alone was not affected by estrogen. Supernatants from patients' estrogen-treated PBMCs had significantly less TNF-alpha than untreated cultures (P < 0.05, n = 12). TNF-alpha levels from normals' cell cultures were unchanged. Changes in hormone status (hysterectomy or menopause) alter estrogen-sensitive apoptosis, which may be mediated through monocytes. Estrogen-induced decreases in apoptosis combined with decreased TNF-alpha production in the presence of estrogen may allow survival of auto-immune cells in SLE patients.

A placebo-controlled study of liposome-mediated gene transfer to the nasal epithelium of patients with cystic fibrosis

Cystic fibrosis (CF) is a common, serious, inherited disease. The major cause of mortality in CF is lung disease, due to the failure of airway epithelial cells to express a functional product of the cystic fibrosis transmembrane conductance regulator (CFTR) gene. A potential treatment for CF lung disease is the expression of CFTR in the airways following gene transfer. We have undertaken a double-blinded, placebo-controlled, clinical study of the transfer of the CFTR cDNA to the nasal epithelium of 12 CF patients. Cationic liposomes complexed with plasmid containing the human CFTR cDNA were administered to eight patients, whilst four patients received placebo. Biopsies of the nasal epithelium taken 7 days after dosing were normal. No significant changes in clinical parameters were observed. Functional expression of CFTR assessed by in vivo nasal potential difference measurements showed transient correction of the CF chloride transport abnormality in two patients (15 days after dosing in one patient). Fluorescence microscopy demonstrated CFTR function ex vivo. In cells from nasal brushings. In total, evidence of functional CFTR gene transfer was obtained in six out of the eight treated patients. These results provide proof of concept for liposome-mediated CF gene transfer.

Epidemiology of group C rotavirus infection in Western New York women of childbearing age

Umbilical cord serum samples (380), an average of 10 per month for 3 years (1990 to 1992), were tested by indirect immunofluorescence assay for group C rotavirus immunoglobulin G. Thirty percent were positive, suggesting that approximately one-third of women of childbearing age in western New York have experienced group C rotavirus infection.

Cystic fibrosis transmembrane conductance regulator mediates the cyclic adenosine monophosphate-induced fluid secretion but not the inhibition of resorption in mouse gallbladder epithelium

We have studied the physiological role of the cystic fibrosis (CF) gene product (cystic fibrosis transmembrane conductance regulator [CFTR]) in gallbladder epithelium using a knockout mouse model for CF. We found that normal mouse gallbladder epithelium expresses functional CFTR as shown by reverse-transcription polymerase chain reaction (RT-PCR) analysis and Ussing chamber experiments. Gallbladders from Cftr -/- mice were structurally intact as shown by microscopic and physiological parameters but lacked the cyclic adenosine monophosphate (cAMP)-induced chloride current observed in normal gallbladders. In fluid transport measurements, normal and Cftr -/- gallbladders were equally active in basal resorption. The addition of forskolin, which activates CFTR anion channel activity through the cAMP system, resulted in net fluid secretion in normal gallbladders. In contrast, Cftr -/- gallbladders were unable to secrete fluid while a complete inhibition of resorption by forskolin was observed. We conclude that, in normal mouse gallbladder epithelium, cAMP-induced fluid secretion involves simultaneous inhibition of apical sodium chloride resorption and activation of CFTR. Our data support the hypothesis that gallbladder disease in CF is at least in part caused by a deficient secretory response to the endogenous cAMP-linked hormones VIP and secretin.

Atrial natriuretic peptide and C-type natriuretic peptide do not acutely inhibit the release of adrenocorticotropin from equine pituitary cells in vitro

It has been suggested that atrial natriuretic peptide (ANP) is the long-sought inhibitor of corticotropin (ACTH) secretion, but the evidence is conflicting. We have examined the effect of ANP and C-type natriuretic peptide (CNP) on the secretion of ACTH by perifused equine pituitary cells in an in vitro milieu intended to mimic the in vivo milieu in the horse. Corticotropin-releasing hormone (20 pM) and cortisol (0 or 100 nM) were perifused continuously and 7 pulses of arginine vasopressin (AVP; 10 nM) applied for 5 min at 30-min intervals. ANP (1 nM) or CNP (1 nM) were perifused continuously for 75 min, beginning before the 3rd AVP pulse. Neither ANP nor CNP, with or without cortisol, significantly altered the ACTH secretory response to the AVP pulses. We conclude that these natriuretic peptides are unlikely to act at the pituitary as rapid inhibitors of ACTH secretion in the horse.

Polymerase chain reaction assays for the detection of cytomegalovirus in organ and bone marrow transplant recipients

Cytomegalovirus (CMV) infection is ubiquitous and results in a wide spectrum of clinical manifestations ranging from asymptomatic infection to severe life threatening disease. Infection in normal children and adults usually causes no symptoms but in the immunocompromised host, CMV may result in severe opportunistic infections with high morbidity and mortality. Historically, virus detection was dependent on culture of the virus or on a centrifugation culture system referred to as a shell vial assay. The shell vial assay frequently lacked sensitivity and was unable to detect infection in its early phase. Also, as with culture assays, the results were affected by antiviral therapy. The CMV antigenemia assay was developed to provide more rapid results and has gained wide usage. This assay is limited to detection of the virus in white blood cells and is more sensitive than culture or the shell vial assay. Application of the polymerase chain reaction (PCR) to these problems has resulted in the development of assays for CMV which are more sensitive than previously available methods. This method employs liquid hybridization with 32P labeled probes and gel retardation analysis for detection of amplified DNA specific for each virus. A comparison of the detection of CMV by an antigenemia assay or the PCR method in the leukocytes of renal transplant patients revealed that the PCR assay detects cytomegalovirus earlier and more consistently than the antigenemia assay. Finally, the application of a fluorescent dye detection system and image analysis of the acrylamide gel with a laser scanner provides additional sensitivity to the detection of cytomegalovirus, as well as avoiding the use of radioactivity, making the assay more adaptable to the clinical laboratory.

An indelible lineage marker for Xenopus using a mutated green fluorescent protein

We describe the use of a DNA construct (named GFP.RN3) encoding green fluorescent protein as a lineage marker for Xenopus embryos. This offers the following advantages over other lineage markers so far used in Xenopus. When injected as synthetic mRNA, its protein emits intense fluorescence in living embryos. It is non-toxic, and the fluorescence does not bleach when viewed under 480 nm light. It is surprisingly stable, being strongly visible up to the feeding tadpole stage (5 days), and in some tissues for several weeks after mRNA injection. We also describe a construct that encodes a blue fluorescent protein. We exemplify the use of this GFP.RN3 construct for marking the lineage of individual blastomeres at the 32- to 64-cell stage, and as a marker for single transplanted blastula cells. Both procedures have revealed that the descendants of one embryonic cell can contribute single muscle cells to nearly all segmental myotomes rather than predominantly to any one myotome. An independent aim of our work has been to follow the fate of cells in which an early regulatory gene has been temporarily overexpressed. For this purpose, we co-injected GFP.RN3 mRNA and mRNA for the early Xenopus gene Eomes, and found that a high concentration of Eomes results in ectopic muscle gene activation in only the injected cells. This marker may therefore be of general value in providing long term identification of those cells in which an early gene with ephemeral expression has been overexpressed.

Inhibition of complement activity by humanized anti-C5 antibody and single-chain Fv

Activation of the complement system contributes significantly to the pathogenesis of numerous acute and chronic diseases. Recently, a monoclonal antibody (5G1.1) that recognizes the human complement protein C5, has been shown to effectively block C5 cleavage, thereby preventing the generation of the pro-inflammatory complement components C5a and C5b-9. Humanized 5G1.1 antibody, Fab and scFv molecules have been produced by grafting the complementarity determining regions of 5G1.1 on to human framework regions. Competitive ELISA analysis indicated that no framework changes were required in the humanized variable regions for retention of high affinity binding to C5, even at framework positions predicted by computer modeling to influence CDR canonical structure. The humanized Fab and scFv molecules blocked complement-mediated lysis of chicken erythrocytes and porcine aortic endothelial cells in a dose-dependent fashion, with complete complement inhibition occurring at a three-fold molar excess, relative to the human C5 concentration. In contrast to a previously characterized anti-C5 scFv molecule, the humanized h5G1.1 scFv also effectively blocked C5a generation. Finally, an intact humanized h5G1.1 antibody blocked human complement lytic activity at concentrations identical to the original murine monoclonal antibody. These results demonstrate that humanized h5G1.1 and its recombinant derivatives retain both the affinity and blocking functions of the murine 5G1.1 antibody, and suggest that these molecules may serve as potent inhibitors of complement-mediated pathology in human inflammatory diseases.

CFTR expression and mucin secretion in cultured mouse gallbladder epithelial cells

Dysfunction of the cystic fibrosis transmembrane conductance regulator (CFTR) in humans is frequently associated with progressive liver disease, which appears to result from obstruction of biliary ducts with mucous material. CFTR in the liver is expressed in the biliary epithelium. With the use of a mouse model for cystic fibrosis (CF) we have studied the relationship between CFTR expression and glycoprotein secretion in primary culture of mouse gallbladder epithelial cells (MGBC) MGBC in culture maintain a well-differentiated phenotype as shown by microscopy. The cells produce CFTR mRNA to levels comparable to the intact tissue. With patch-clamp analysis we could frequently observe a linear protein kinase A-regulated Cl- channel that shows all the major characteristics of human CFTR, although its conductance is lower (5 pS compared with 8 pS). MGBC in culture produce and secrete high molecular weight glycoproteins (HMG) in a time-dependent and temperature-sensitive manner. Secretion of HMG was not stimulated significantly by either adenosine 3',5'-cyclic monophosphate (cAMP), Ca2+, or protein kinase C agonists in this system. High concentrations (3 mM) of extracellular ATP stimulated secretion threefold, but low concentrations (0.3 mM) had no effect. Approximately one-third of the HMG produced and secreted consisted of mucin. Cultured MGBC from CFTR-deficient mice produced and secreted mucin to a similar extent as normal cells. We conclude that cultured mouse gallbladder cells are a convenient model to study both CFTR function and mucin secretion. In this system, we found no evidence for a direct link between mucin secretion and CFTR activity, as has been suggested for other cell types.

Mice lacking tartrate-resistant acid phosphatase (Acp 5) have disrupted endochondral ossification and mild osteopetrosis

Mature osteoclasts specifically express the purple, band 5 isozyme (Acp 5) of tartrate-resistant acid phosphatase, a binuclear metalloenzyme that can generate reactive oxygen species. The function of Acp 5 was investigated by targeted disruption of the gene in mice. Animals homozygous for the null Acp 5 allele had progressive foreshortening and deformity of the long bones and axial skeleton but apparently normal tooth eruption and skull plate development, indicating a role for Acp 5 in endochondral ossification. Histomorphometry and mineralization density analysis of backscattered electron imaging revealed widened and disorganized epiphyseal growth plates with delayed mineralization of cartilage in 6- to 8-week-old mutant mice. The membrane bones of the skull showed increased density at all ages examined, indicating defective osteoclastic bone turnover. Increased mineralization density was observed in the long bones of older animals which showed modelling deformities at their extremities: heterozygotes and homozygous Acp 5 mutant mice had tissue that was more mineralized and occupied a greater proportion of the bone in all regions. Thus the findings reflect a mild osteopetrosis due to an intrinsic defect of osteoclastic modelling activity that was confirmed in the resorption pit assay in vitro. We conclude that this bifunctional metalloprotein of the osteoclast is required for normal mineralization of cartilage in developing bones; it also maintains integrity and turnover of the adult skeleton by a critical contribution to bone matrix resorption.

Rapid, non-radioactive detection of virus infection by polymerase chain reaction

BACKGROUND

Polymerase chain reaction (PCR) diagnosis of infectious diseases, especially virus diseases, offers a very sensitive and specific technique for clinical diagnosis. However, detection systems for amplified DNA requiring radioactive probe hybridization or signal development using blot transfer or nucleotide capture require overnight incubation or specially labeled probe molecules for analysis of amplified DNA.

OBJECTIVES

To place this technology in the clinical laboratory, rapid and sensitive methods are needed for the detection of amplified DNA which are applicable to the assay of multiple specimens representing many different organisms and requiring a minimum of manipulation.

STUDY DESIGN

Electrophoretic separation of amplified DNA fragments, stained with the fluorescent dye SYBR Green I, and laser scanning of the gels for detection of virus-specific PCR products was compared with detection of amplified DNA by liquid hybridization with radioactive probes and gel retardation analysis of labeled probe molecules.

RESULTS

Fluorescent scanning methodology was applied to the detection of cytomegalovirus (CMV), herpes simplex virus (HSV) and the human immunodeficiency virus (HIV). This method was at least 10 times more sensitive than radioactive probe hybridization in the detection of CMV-specific PCR products. This method also required less time and avoided the use of radioactivity.

CONCLUSIONS

Clinical diagnosis of virus infections can be conveniently and rapidly accomplished, while avoiding the dangers of radioactive probe handling, by fluorescence staining and laser scanning of specifically amplified gene fragments. This technology is applicable to the detection of genes from many different organisms, without specially synthesized and/or labeled oligonucleotide primer or probe sequences.

Detection of group C rotavirus in infants with extrahepatic biliary atresia

The purpose of this retrospective study was to examine liver tissue from patients with cholestatic disease for the presence of group C rotavirus RNA. The reverse transcriptase-polymerase chain reaction (PCR) for genes 5 and 6 was used, and the PCR products were subjected to liquid hybridization with a 32P-labeled probe. A second amplification with nested primers was also used. Samples from 32 subjects (20 with biliary atresia or choledochal cyst and 12 controls) were tested. Ten of 20 biliary atresia patients were positive for group C rotavirus RNA; no controls were positive (P < .003). Three of the positive patients were positive for both genes 5 and 6. Six of the 10 had > 1 sample that was positive. These data suggest a possible relationship between group C rotavirus and extrahepatic biliary atresia in the 10 patients in whom virus RNA was detected.

Binding affinity and quantity of estrogen receptor in peripheral blood monocytes of patients with systemic lupus erythematosus

Binding affinity and quantity of the estrogen receptor in monocytes of patients with systemic lupus erythematosus (SLE) were studied. The tritiated-estradiol binding assay was performed using peripheral blood adherent cells (> 95% monocytes) derived from six lupus patients (SLEDAI score: 2-30) and five age-comparable normal women during the mid-follicular phase of the menstrual cycle. Dissociation constant (Kd) and number of binding sites (Ro) were estimated by Scatchard analysis. The specificity and sensitivity of the assay were verified by using estrogen receptor-positive ZR75-1 human breast cancer cells. Kd and Ro of the type I receptor for the SLE patients were 12.2 +/- 6.5 (nM) and 69.0 +/- 42.4 (x 1000/cell), respectively, while those of the normals were 14.5 +/- 3.7 and 86.8 +/- 23.4, respectively. Three patients displayed relatively low Kd or Ro values. While those low values fell within the mean -3s.d. of the normal controls, precise statistical comparison was not possible. No clear correlation between the receptor parameters and the SLEDAI scores was noted. Although further studies of a larger number of samples are needed to conclude, these results suggest that peripheral blood monocytes of SLE patients express the estrogen receptor whose Kd and Ro are similar to those of normals.

Height and surfacing as risk factors for injury in falls from playground equipment: a case-control study

OBJECTIVES

Despite the widespread promotion of safety standards no epidemiological studies have adequately evaluated their effectiveness in preventing injury in falls from playground equipment. This study evaluated the effectiveness of the height and surfacing requirements of the New Zealand standard for playgrounds and playground equipment.

SETTING

Early childhood education centres and schools in two major cities in the South Island of New Zealand.

METHODS

Data were collected on 300 children aged 14 years or less who had fallen from playground equipment. Of these, 110 (cases) had sustained injury and received medical attention, while 190 (controls) had not sustained injury requiring medical attention.

RESULTS

Logistic regression models fitted to the data indicated that the risk of injury being sustained in a fall was increased if the equipment failed to comply with the maximum fall height (odds ratio (OR) = 3.0; 95% confidence interval (CI) 0.7 to 13.1), surfacing (OR = 2.3; 95% CI 1.0 to 5.0), or safe fall height (OR = 2.1; 95% CI 1.1 to 4.0) requirements. Falls from heights in excess of 1.5 metres increased the risk of injury 4.1 times that of falls from 1.5 metres or less and it was estimated that a 45% reduction in children attending emergency departments could be achieved if the maximum fall height was lowered to 1.5 metres.

CONCLUSIONS

Although the height and surfacing requirements of the New Zealand standard are effective in preventing injury in falls from playground equipment, consideration should be given to lowering the maximum permissible fall height to 1.5 metres.

Stray RF field strength during radiofrequency endometrial ablation

A study has been carried out of the RF field strength around a total of 17 patients undergoing radio-frequency endometrial ablation in three hospital centres. The mean equivalent power density at the position of the surgeon exceeded 10 W m-2, which is the derived investigation level for exposure to electromagnetic fields. This value is derived from a basic restriction in the average specific absorption rate in the body to 0.4 W kg-1. This limit applies to general population as well as occupational exposure and is well below that which has been shown to be hazardous to health. Also, the working conditions did not place physical stress on the surgeon. The maximum value of the specific energy absorption rate in the head or trunk should not exceed 10 W kg-1. Measured values on the field strength suggest that this organ dose limit was not exceeded. It is concluded that staff exposure to stray RF radiation during radio-frequency endometrial ablation is not considered to be hazardous to health.

Enhanced platelet recovery in myelosuppressed mice treated with interleukin-1 and macrophage colony-stimulating factor: potential interactions with cytokines having megakaryocyte colony-stimulating activity

Studies were carried out to determine whether the combination of IL-1 + M-CSF, similar to the effect of these cytokines on neutropenia, was able to reduce the duration of thrombocytopenia in the 5-fluorouracil (5-FU)-myelosuppressed mouse. In addition, comparisons were made between the in vivo effects of IL-1 + M-CSF and other "thrombopoietic" cytokines (e.g., IL-3, IL-6, and GM-CSF) that demonstrate some form of megakaryocytopoietic activity in vitro. Of the five cytokines studied, only IL-1 and IL-6, by themselves, were able to effect thrombopoietic recovery in the myelosuppressed mouse. IL-1, either when acting alone or interacting synergistically with M-CSF, was able to reduce significantly the period of thrombocytopenia, but the effects of IL-6 were restricted to enhancing platelet production during the period of rebound thrombocytopenia without altering the kinetics of thrombopoietic recovery. Moreover, none of the cytokine combinations studied were found to interact to reduce further the duration of thrombocytopenia beyond that observed with IL-1 + M-CSF. Nonetheless, IL-3, IL-6, and, to a lesser extent, GM-CSF were each able to interact with IL-1 + M-CSF to extend further the period of enhanced platelet production in the animal. However, scheduling studies suggested that these thrombopoietic cytokines interacted in sequence, rather than in concert, with IL-1 + M-CSF to enhance platelet production during thrombopoietic recovery. Furthermore, the data presented are consistent with the hypothesis that IL-1 + M-CSF initially acts on a multilineage, 5-FU-resistant target cell and that IL-6 (and possibly IL-3 and GM-CSF) serves as a secondary cytokine further to enhance platelet production during rebound thrombopoiesis in the 5-FU-treated mouse.

The integrative control of adrenocorticotrophin secretion: a critical role for corticotrophin-releasing hormone

Perifused equine anterior pituitary cells were used to investigate the relationships between the secretion of ACTH and substances known to either stimulate (corticotrophin-releasing hormone (CRH), and arginine vasopressin (AVP)) or inhibit (cortisol) ACTH secretion. The experiments were designed to mimic the hormone milieu present in vivo in the horse, with cortisol (0 or 100 nmol/l) and CRH (0 or 0.02 nmol/l) perifused continuously, and pulses of AVP (10 nmol/l) applied for 5 min at 30-min intervals. In columns perifused with 0.02 nmol CRH/l there was no significant overall effect of 100 nmol cortisol/l on the ACTH responses to pulses of AVP, although there was a significant interaction between AVP pulse number and cortisol showing that ACTH total area (pmol ACTH proportional to area under response curve) in response to AVP pulses 1 and 2 was significantly (P < 0.05) decreased in columns perifused with 100 nmol cortisol/l. However ACTH incremental area (pmol ACTH proportional to the area above the CRH-induced baseline) was not affected by cortisol at any AVP pulse. This contrasts with the effect of cortisol in columns perifused with 0 nmol CRH/l, where 100 nmol cortisol/l significantly decreased ACTH total area (P = 0.0075) and incremental area (P = 0.049) at all AVP pulses compared with the responses in columns receiving 0 nmol cortisol/l. There was a fall off in ACTH responsiveness with time during the experiment which, in the presence of 0.02 nmol CRH/l, was significantly (P < 0.001) greater with 0 nmol cortisol/l than with 100 nmol cortisol/l and if 6 (rather than 3) pulses of AVP were given, whereas with 0 nmol CRH/l there was no difference in the fall off with time between columns receiving 0 and 100 nmol cortisol/l. These results show that the control of ACTH secretion is influenced not only by independent action of secretagogues such as CRH and AVP, or inhibitors such as cortisol, but by a complex interaction of these factors with one another. CRH may have a role in 'protecting' the ACTH response to pulses of AVP in the presence of cortisol. It follows that, in vivo, 'background' CRH could allow an increase in ACTH in response to AVP released by a new stress, despite the presence of elevated cortisol.

Mos is required for MAP kinase activation and is involved in microtubule organization during meiotic maturation in the mouse

Mos is normally expressed during oocyte meiotic maturation in vertebrates. However, apart from its cytostatic factor (CSF) activity, its precise role during mouse meiosis is still unknown. First, we analyzed its role as a MAP kinase kinase kinase. Mos is synthesized concomitantly with the activation of MAP kinase in mouse oocytes. Moreover, MAP kinase is not activated during meiosis in oocytes from mos −/− mice. This result implies that Mos is necessary for MAP kinase activation in mouse oocytes. Raf-1, another MAP kinase kinase kinase, is already present in immature oocytes, but does not seem to be active when MAP kinase is activated. Moreover, the absence of MAP kinase activation in mos −/− oocytes demonstrates that Raf-1 cannot compensate for the lack of Mos. These results suggest that Raf-1 is not involved in MAP kinase activation. Second, we analyzed the organization of the microtubules and chromosomes in oocytes from mos −/− mice. We observed that during the transition between two meiotic M-phases, the microtubules and chromosomes evolve towards an interphase-like state in mos −/− oocytes, while in the control mos +/− oocytes they remain in an M-phase configuration, as in the wild type. Moreover, after spontaneous activation, the majority of mos −/− oocytes are arrested for at least 10 hours in a third meiotic M-phase where they exhibit monopolar half-spindles. These observations present the first evidence, in intact oocytes, of a role for the Mos/…/MAP kinase cascade in the control of microtubule and chromatin organization during meiosis.

Plasma cortisol, PRL, ACTH, AVP and corticotrophin releasing hormone responses to direct current cardioversion and electroconvulsive therapy

OBJECTIVE

We aimed to evaluate and contrast the hypothalamo-pituitary-adrenal (HPA) response to direct current (DC) cardioversion and electroconvulsive therapy (ECT).

SUBJECTS

Six male subjects (mean age 61.2 years, range 46-74) with chronic atrial fibrillation were selected for cardioversion. Six subjects with depression (one male, five female; mean age 43.2 years, range 31-59) were selected for ECT. Those taking glucocorticoid drugs, opiates or beta-adrenoceptor antagonists were excluded.

MEASUREMENTS

Patients attended for serial blood sampling on the day of cardioversion or ECT, and for an equivalent time period on a control day at least one week before. Intravenous propofol was given to each subject for anaesthesia on the day of cardioversion or ECT. On both study and control days, blood samples were taken at -30, -15, 0 (just prior to cardioversion or ECT), +5, +10, +15, +30, +60, +90 and +120 minutes for assay of cortisol, PRL, ACTH, AVP and CRH.

RESULTS

For cardioversion: plasma cortisol increased from 252.5 +/- 39.8 to a maximum of 721.3 +/- 50 nmol/l at 30 minutes (P < 0.0001 compared with control day). ACTH increased from 12.8 +/- 2.8 to a maximum of 64 +/- 14 pmol/l at 5 minutes (P < 0.0001 compared with control day). AVP increased from 6.6 +/- 3.3 to a maximum of 42.9 +/- 16 pmol/l at 5 minutes post-cardioversion (P < 0.005 compared with control day). PRL increased from 141 +/- 28 mlU/l to a maximum of 873 +/- 219 mlU/l at 10 minutes (P < 0.001 compared with control day). There was no significant difference in CRH responses between cardioversion and control days. There was no significant correlation between total electrical energy delivered and maximum ACTH and AVP responses (R = 0.54 and -0.13, respectively). For ECT: on the day of ECT plasma cortisol increased from 419.5 +/- 25.9 to a maximum of 614.7 +/- 26.9 nmol/l (P < 0.002 compared with control day). ACTH increased from 22.7 +/- 6.2 to a maximum of 77.8 +/- 19.1 pmol/l (P < 0.0003 compared with control day). PRL increased from 771 +/- 317 to a maximum of 3152 +/- 703 mlU/l (P < 0.001 compared with control day, and significantly greater than the peak response to cardioversion, P < 0.03). AVP increased from 13.0 +/- 10.8 to a maximum of 35.1 +/- 5.6 pmol/l (P < 0.02 compared with control day). There was no significant difference in CRH responses between ECT and control days. Peak cortisol and ACTH responses did not differ significantly between ECT and cardioversion. Baseline cortisol levels, however, were significantly higher in the depressed group compared with the cardioversion group, P < 0.02, but not ACTH or AVP.

CONCLUSION

Significant hypothalamic-pituitary-adrenal activation and PRL release occur in response to both cardioversion and ECT. AVP may have an important role in mediating the acute ACTH response to electrical stimulation.

The effect of beta-endorphin on basal and insulin-hypoglycaemia stimulated levels of hypothalamic-pituitary-adrenal axis hormones in normal human subjects

OBJECTIVE

It has been demonstrated that beta-endorphin reduces CRH production and hypoglycaemia-induced ACTH secretion in the rat. We aimed to determine whether supraphysiological levels of beta-endorphin inhibit the ACTH and CRH response to insulin-induced hypoglycaemia in human subjects.

DESIGN

Plasma glucose, prolactin, cortisol, ACTH, CRH and AVP were measured at intervals over a 3-hour period. Intravenous beta-endorphin 5 mg/50 ml or an equal volume of normal saline was infused between 30 and 90 minutes, with soluble insulin 0.15 units/kg administered i.v. at 60 minutes in a cross-over design.

SUBJECTS

Six healthy male volunteers aged 20-35 years.

MEASUREMENTS

Prolactin was measured by a fluoroimmunometric assay, ACTH, CRH and AVP by radioimmunoassay, and cortisol was measured by enzyme-linked immunosorbent assay. Haemodynamic measurements were recorded prior to each blood sample. Results are expressed as mean +/- standard error of the mean.

RESULTS

beta-Endorphin resulted in a significant decrease in baseline cortisol (P < 0.05) but not ACTH. Plasma glucose (P < 0.001) and CRH (P < 0.05) and PRL (P < 0.05) increased significantly during beta-endorphin compared to normal saline. After insulin administration, glucose reached a similar nadir during beta-endorphin and normal saline (2.1 +/- 0.1 and 1.9 +/- 0.15 mmol/l, respectively) but the fall in plasma glucose was delayed during beta-endorphin (P < 0.01 by ANOVA). This resulted in a significantly altered time-course for the ACTH and cortisol responses (P < 0.05 for each), but no difference overall in the magnitude of the response. In contrast, neither the timing nor the magnitude of the CRH and AVP responses were affected. Prolactin also reached a similar peak value after the administration of insulin, while the haemodynamic responses to hypoglycaemia were not significantly altered during beta-endorphin.

CONCLUSIONS

While beta-endorphin has been shown to be inhibitory to basal ACTH and cortisol secretion in humans, we note a significant increase in plasma CRH in response to beta-endorphin, which may be arising from a peripheral source. Intravenous beta-endorphin increases plasma glucose and delays the onset of hypoglycaemia following insulin but does not result in significant inhibition of the ACTH and cortisol response. This may reflect the poor penetration of beta-endorphin into the central nervous system, although a hypothalamic effect of beta-endorphin is implied by the increased PRL. The significantly delayed time course in ACTH and cortisol secretion noted during beta-endorphin is not explained by a later response of either CRH or AVP. Although peripheral levels of these hormones may be a relatively insensitive measure of hypothalamic function, an additional factor may influence ACTH release during hypoglycaemia.

Porcine vascular cell adhesion molecule (VCAM) mediates endothelial cell adhesion to human T cells. Development of blocking antibodies specific for porcine VCAM

Vascular cell adhesion molecule (VCAM) is expressed on activated endothelial cells and binds to the alpha 4 beta 1 integrin receptor, very late antigen-4 (VLA-4), expressed on human lymphoid cells. Anti-VCAM mAbs have been shown to prolong allograft survival. To explore the role of porcine VCAM (pVCAM) in xenotransplantation, a recombinant secreted form of pVCAM (spVCAM) was expressed in 293-EBNA cells and purified by metal affinity chromatography. A human lymphoid cell line bound to spVCAM in a VLA-4-dependent manner. Using spVCAM as an immunogen, we developed three anti-pVCAM mAbs that reacted with cell surface pVCAM on porcine aortic endothelial cells (PAEC) but not to human VCAM on human umbilical vein endothelial cells. Pairwise interaction analysis indicated that these mAbs recognized distinct epitopes on pVCAM. Two anti-pVCAM mAbs, 2A2 and 3F4, inhibited the binding of Ramos cells to spVCAM, while the third, 5D11, did not. Similarly, mAbs 2A2 and 3F4 inhibited binding of Ramos cells or human peripheral blood T cells to activated PAEC. The extent of inhibition with mAbs 2A2 and 3F4 was comparable to the inhibition obtained with a blocking mAb to human VLA-4. These anti-pVCAM mAbs will provide a means to specifically block pVCAM in a xenograft setting and allow the determination of the role of pVCAM in a primary xenogeneic immune response.

Subepidermal calcified nodule in children: a clinicopathologic study of 21 cases

Twenty-one cases of subepidermal calcific nodule are presented. These lesions occur twice as commonly in males compared to females, with the head (particularly the ear), and neck as favored locations. No case was identified correctly clinically and only 1 case had a history of trauma, which appeared unrelated to the lesion. Histologically, there was a variety of appearances, with two-thirds of specimens exhibiting a warty architecture. Younger lesions were composed of large, amorphous, calcific dermal deposits and were frequently associated with epidermal ulceration. The older lesions were not ulcerated and the calcium deposits were in small spherules. There was no evidence of pilomatrixoma or pre-existing nevus. It is hypothesized that subepidermal calcified nodule represents dystrophic calcification secondary to dermal injury-several in our series showed the architectural changes of verruca vulgaris.

In vitro and in vivo inhibition of complement activity by a single-chain Fv fragment recognizing human C5

Complement activation has been implicated in the pathogenesis of several human diseases. Recently, a monoclonal antibody, (N19-8) that recognizes the human complement protein C5 has been shown to effectively block the cleavage of C5 into C5a and C5b, thereby blocking terminal complement activation. In this study, a recombinant N19-8 scFv antibody fragment was constructed from the N19-8 variable regions, and produced in both mammalian and bacterial cells. The N19-8 scFv bound human C5 and was as potent as the N19-8 monoclonal antibody at inhibiting human C5b-9-mediated hemolysis of chicken erythrocytes. In contrast, the N19-8 scFv only partially retained the ability of the N19-8 monoclonal antibody to inhibit C5a generation. To investigate the ability of the N19-8 scFv to inhibit complement-mediated tissue damage, complement-dependent myocardial injury was induced in isolated mouse hearts by perfusion with Krebs-Henseleit buffer containing 6% human plasma. The perfused hearts sustained extensive deposition of human C3 and C5b-9, resulting in increased coronary artery perfusion pressure, end-diastolic pressure, and a decrease in heart rate until the hearts ceased beating approximately 10 min after addition of plasma. Hearts treated with human plasma supplemented with either the N19-8 monoclonal antibody or the N19-8 scFv did not show any detectable changes in cardiac performance for at least 1 hr following the addition of plasma. Hearts treated with human plasma alone showed extensive deposition of C3 and C5b-9, while hearts treated with human plasma containing N19-8 scFv showed extensive deposition of C3, but no detectable deposition of C5b-9. Administration of a 100 mg bolus dose of N19-8 scFv to rhesus monkeys inhibited the serum hemolytic activity by at least 50% for up to 2 hr. Pharmacokinetic analysis of N19-8 scFv serum levels suggested a two-compartment model with a T1/2 alpha of 27 min. Together, these data suggest the recombinant N19-8 scFv is a potent inhibitor of the terminal complement cascade and may have potential in vivo applications where short duration inhibition of terminal complement activity is desirable.

A comparison of the naloxone test with ovine CRH and insulin hypoglycaemia in the evaluation of the hypothalamic-pituitary-adrenal axis in normal man

OBJECTIVE

It has been suggested that naloxone might be useful in clinical testing of the hypothalamic-pituitary-adrenal (HPA) axis. We have therefore evaluated this non-selective opioid receptor antagonist, as a test of HPA axis function, and compared the results to ovine corticotrophin-releasing hormone (oCRH) and the insulin tolerance test (ITT).

DESIGN

Following i.v. administration at time zero of naloxone 20 mg (n = 12) on day 1, and either oCRH 1 microgram/kg (n = 6) or soluble insulin 0.15U/kg (n = 6) on day 2, venous blood was sampled at times 120, 0, 15, 30, 45, 60, 90 and 120 minutes for cortisol, ACTH and AVP. Peripheral CRH was also measured following naloxone and insulin hypoglycaemia.

SUBJECTS

Twelve normal males (age 20-57 years) with no history of hypothalamic-pituitary-adrenal axis disease.

MEASUREMENTS

Peptide hormones in plasma samples were measured by radioimmunoassay and cortisol by ELISA. Results are expressed as mean +/- SEM.

RESULTS

Following naloxone, there was a highly significant overall rise in ACTH (P < 0.0005) and cortisol(P < 0.0001), but 1 out of the 12 subjects failed to respond. This subject had a normal ACTH and cortisol response to oCRH, indicating normal pituitary-adrenal function. Peripheral levels of CRH also increased significantly following naloxone (P < 0.002), while AVP did not alter significantly (P = 0.38). Maximal levels of CRH were seen following the ACTH peak however, at a time when ACTH was returning to baseline. All six subjects who received oCRH had an increase in ACTH and cortisol, and the ACTH response to oCRH was greater that that to naloxone (P < 0.05). One subject who developed nausea and hypotension following oCRH had a large rise in AVP and very high levels of ACTH and cortisol. Following insulin each subject had symptomatic hypoglycaemia and significant rises in cortisol (P < 0.0001), ACTH (P < 0.0001), AVP (P < 0.0005) and CRH (P < 0.01) were seen. Both cortisol and ACTH responses to ITT were significantly greater than those to naloxone (P < 0.05 for each).

CONCLUSION

The HPA axis response to naloxone is smaller in magnitude overall compared to oCRH or insulin hypoglycaemia and is variable in normal subjects. This variability probably reflects changes in central opioid tone rather than alterations in pituitary responsiveness to CRH. It is unlikely that the naloxone test will replace currently used clinical tests of HPA axis function, particularly in the setting of a possible ACTH deficiency, because some subjects wit ha normal HPA axis appear not to respond to naloxone. As the mechanism involved in the ACTH response to naloxone has not yet been defined with certainty, the naloxone test should not be regarded simply as a test of endogenous CRH release.

Impaired cell volume regulation in intestinal crypt epithelia of cystic fibrosis mice

Cystic fibrosis is a disease characterized by abnormalities in the epithelia of the lungs, intestine, salivary and sweat glands, liver, and reproductive systems, often as a result of inadequate hydration of their secretions. The primary defect in cystic fibrosis is the altered activity of a cAMP-activated Cl- channel, the cystic fibrosis transmembrane conductance regulator (CFTR) channel. However, it is not clear how a defect in the CFTR Cl- channel function leads to the observed pathological changes. Although much is known about the structural properties and regulation of the CFTR, little is known of its relationship to cellular functions other than the cAMP-dependent Cl- secretion. Here we report that cell volume regulation after hypotonic challenge is also defective in intestinal crypt epithelial cells isolated from CFTR -/- mutant mice. Moreover, the impairment of the regulatory volume decrease in CFTR -/- crypts appears to be related to the inability of a K+ conductance to provide a pathway for the exit of this cation during the volume adjustments. This provides evidence that the lack of CFTR protein may have additional consequences for the cellular function other than the abnormal cAMP-mediated Cl- secretion.

The effects of alcoholism on the hypothalamic-pituitary-adrenal axis: interaction with endogenous opioid peptides

BACKGROUND

Abnormal baseline hypothalamic-pituitary-adrenal axis function and dexamethasone suppressibility seen in withdrawing alcoholics returns to normal on abstinence, but some studies report blunting of the ACTH response to CRH persisting during the early abstinence phase. Reduced central levels of endogenous opioid peptides have been postulated to have an aetiological role in alcohol addiction.

AIMS

To evaluate hypothalamic-pituitary-adrenal axis function in a group of recently abstinent alcoholics using basal hormone data, naloxone (an opioid receptor antagonist), and ovine CRH.

SUBJECTS

Nine alcoholics (age 41.4 +/- 3.1 years) studied more than one week after the acute withdrawal period but within 6 weeks of cessation of drinking, and nine age and sex matched non-alcoholic controls.

PROTOCOL

Cortisol, ACTH, CRH and AVP levels were measured every 20 minutes for 2 hours between 0900 and 1100h Twenty mg naloxone i.v. was administered at 1100h (0 minutes) and further samples for the above hormones were taken at 15, 30, 45, 60, 90 and 120 minutes. On a separate occasion, again at 1100h, oCRH 1 microgram/kg (n = 7 alcoholics, n = 6 controls) was administered, with samples for cortisol, ACTH and AVP taken at the same times.

STATISTICS

Results were examined by analysis of variance for repeated measures (ANOVA), while incremental hormone response and area under the secretory curve (AUC) in alcoholics versus controls were compared by the two-tailed Student's t-test. Linear regression analysis was carried out to examine the relation between basal cortisol and hormone responses to naloxone and oCRH.

RESULTS

Basal hormone levels did not differ between the groups. The alcoholics had a blunted ACTH incremental response to naloxone (11.4 +/- 3.0 vs 21.1 +/- 2.5 pmol/l, P < 0.05) but the cortisol response was not significantly different (205 +/- 51 vs 305 +/- 42 nmol/l, P = 0.15). The alcoholics also had a blunted ACTH incremental response to oCRH (28.7 +/- 4.2 vs 41.2 +/- 3.7 pmol/l, P = 0.052) and by ANOVA a significant main effect of group (alcoholic vs control) was seen (P < 0.02) for the ACTH response to oCRH. There was no difference between the groups in the cortisol incremental response to oCRH. In the control subjects, a negative correlation was found between basal cortisol and the cortisol increment (r = -0.82, P < 0.05) and ACTH increment (r = -0.81, P = 0.052) following oCRH, while in contrast, basal cortisol correlated positively with cortisol increment (r = 0.72, P < 0.05) following naloxone. There was also a trend for basal cortisol to correlate positively with ACTH increment following naloxone in the controls (r = 0.63, P < 0.07). In the alcoholics, the normal negative effect of basal cortisol on the cortisol increment after oCRH was reversed, with a positive correlation between basal cortisol and cortisol increment (r = 0.75, P = 0.05).

CONCLUSIONS

Recently abstinent alcoholics with normal basal HPA axis hormone levels have a blunted ACTH response to naloxone and oCRH. While reduced levels of central endogenous opioid peptides may be a factor in the blunted ACTH response to naloxone in the alcoholics, it is proposed that the alcoholics have reduced pituitary responsiveness to CRH. This may be via a direct pituitary effect of the chronic ethanol exposure or by a reduction in hypothalamic-hypophyseal vasopressin levels.

The Hox11 gene is essential for cell survival during spleen development

The HOX11 homeobox gene was identified via the translocation t(10;14) in T cell leukaemia. To determine the function of this gene in mice, null mutations were made using homologous recombination in ES cells to incorporate lacZ into the hox11 transcription unit. Production of beta-galactosidase from the recombinant hox11 allele in +/− mutants allowed identification of sites of hox11 expression which included the developing spleen. Newborn hox11 −/− mice exhibit asplenia. Spleen formation commences normally at E11.5 in hox11 −/− mutant embryos but the spleen anlage undergoes rapid and complete resorption between E12.5 and E13.5. Dying spleen cells exhibit molecular features of apoptosis, suggesting that programmed cell death is initiated at this stage of organ development in the absence of hox11 protein. Thus hox11 is not required to initiate spleen development but is essential for the survival of splenic precursors during organogenesis. This function for hox11 suggests that enhanced cell survival may result from the t(10;14) which activates HOX11 in T cell leukaemias, further strengthening the association between oncogene-induced cell survival and tumorigenesis.

Temporal recovery of short-term repopulating HSC subpopulations in marrow following schedule-dependent administrations of IL-1 alpha and M-CSF

Studies were carried out to establish the temporal effects of abbreviated administrations of IL-1 and IL-1 plus M-CSF as rescue agents on multipotential and short-term repopulating hematopoietic stem cell (HSC) subpopulations in murine marrow treated with a myelosuppressive dose of 150 mg/kg 5-FU. The recovery kinetics for high-proliferative-potential colony-forming cells (HPP-CFC), CFU-S8 and -S12, and both CFU-M and CFU-G compartments were monitored over a 14-day interval in 5-FU-treated bone marrow (FUBM) following daily cytokine injections over a 4-day interval. Both IL-1 and the coadministration of IL-1 and M-CSF rapidly enhanced the recovery of the HPP-CFC in FUBM to supranormal levels and maintained these levels for extended intervals. Moreover, since M-CSF was unable to influence the recovery of the HSC subpopulations in FUBM by itself, the results of the two cytokines amounted to a synergistic effect on the recovery of the HPP-CFC in FUBM and a reduction of severe neutropenia in the myelosuppressed animal. Scheduling studies demonstrated that these synergistic effects were restricted to those schedules in which M-CSF was coadministered with IL-1 during the first 2 days of cytokine rescue. Finally, the recovery curves generated for the HSC and CFU-M subpopulations in response to IL-1 (with or without M-CSF) also suggest that these cytokines may conceivably alter the normal balance between proliferation and differentiation within CFU-S8 and -S12 during the accelerated recovery of hematopoiesis in FUBM.

Generation and characterization of a delta F508 cystic fibrosis mouse model

We have generated mice carrying the most common mutation in cystic fibrosis (CF), delta F508, within the cystic fibrosis (Cftr) gene. Mutant animals show pathological and electrophysiological changes consistent with a CF phenotype. delta F508-/- mice die from peritonitis and show deficiencies in cAMP-activated electrogenic Cl- transport. These mice produce delta F508 transcripts and show the temperature-dependent trafficking defect first described for the human delta F508 CFTR protein. A functional CFTR Cl- channel not demonstrated by null CF mice or present at 37 degrees C was detected following incubation of epithelial cells at 27 degrees C. Thus, these mice are an accurate delta F508 model and will be valuable for testing drugs aimed at overcoming the delta F508 trafficking defect.

Rapid expression of an anti-human C5 chimeric Fab utilizing a vector that replicates in COS and 293 cells

Inhibition of complement system activation requires the development of soluble nonimmunogenic inhibitors with good tissue penetrating abilities that are themselves unable to activate complement. Chimeric mouse/human Fabs capable of blocking the activity of complement proteins are likely to fulfill these criteria. Several monoclonal antibodies that inhibit the activation of the human complement system have recently been developed. To examine the properties of chimeric Fab derived from these monoclonal antibodies, we have developed an expression system which allows the rapid production of milligram quantities of chimeric Fab. Both the chimeric light chain and the chimeric Fd were co-expressed from the same vector, pAPEX-3P. This vector contains the SV40 origin of replication, which allows the rapid production of chimeric Fab in COS cells for preliminary characterization. Additionally, pAPEX-3P contains the Epstein-Barr virus origin of replication and a puromycin selectable marker for maintenance as a stable episome in human cell lines. A production system consisting of transfected 293-EBNA cells cultured in serum free medium followed by protein G-Sepharose chromatography of the conditioned medium was found to be sufficient for the rapid production of purified chimeric Fab. Here we have utilized this expression system to demonstrate that an anti-human C5 chimeric Fab was a potent inhibitor of complement activation in both in vitro activation assays and an ex vivo model of complement-mediated tissue damage.

Calcium-activated chloride conductance is not increased in pancreatic duct cells of CF mice

Calcium-activated anion secretion is elevated in the pancreatic ductal epithelium of transgenic cf/cf mice which lack the cystic fibrosis transmembrane conductance regulator (CFTR). To elucidate whether this effect is due to increased activity of calcium-activated chloride channels, we have studied the relationship between CFTR and calcium-activated chloride currents in pancreatic duct cells isolated from Cambridge cf/cf mice. CFTR chloride currents activated by cAMP were detected in 59% (29/49) of wild-type cells and in 50% (20/40) of heterozygous cells. However, we could not detect any CFTR currents in the homozygous cf/cf cells (0/25). The maximum CFTR current density measured at a membrane potential of 60 mV was 23.5 +/- 2.8 pA/pF (n = 29) in wild-type cells, and about half that value, i.e. 12.4 +/- 1.6 pA/pF (n = 20) in heterozygotes (P = 0.004). Calcium-activated chloride currents were detected in 73% (24/33) of wild-type, 75% (21/28) of heterozygous and in 58% (7/12) of homozygous cf/cf cells. There was no significant difference between the steady-state calcium-activated current densities in the three genotypic groups; the current measured at 60 mV being 527 +/- 162 pA/pF (n = 24) from wild-type, 316 +/- 35 pA/pF (n = 21) from heterozygote and 419 +/- 83 pA/pF (n = 7) from homozygous cells. Our data suggest that lack of CFTR does not enhance the calcium-activated chloride conductance in murine pancreatic duct cells.

Initial culture behaviour of rat blastocysts on selected feeder cell lines

To increase our understanding of rat embryos in culture and to attempt the isolation of blastocyst-derived cell lines, we examined the initial growth behaviour of rat blastocysts from four strains of rat on four different feeder cell layers. The feeders used were a continuous cell line of murine embryonic fibroblasts (STO), primary mouse (MEF) or primary rat (REF) embryonic fibroblasts, and a continuous cell line of rat uterine epithelial cells (RUCs). A medium that gave optimum plating efficiencies for murine ES cells was used in the rat embryo culture. Each culture system allowed hatching and attachment of the blastocysts, that is, the behaviour was similar on each feeder and each strain for the first 2 days in culture. Subsequently, there was a rapid differentiation of the Inner Cell Mass (ICM) cells on fibroblastic feeder cell layers (STO > MEF > REF), and this was generally complete after 3-6 days in primary culture. On RUCs, the ICM was found to increase in size without differentiation up to and including day 4 and in some cases longer. Embryo-derived cells were obtained by disaggregating and passaging ICMs on REF and RUC feeders. Rounded, refractile, and epithelial-like cells were isolated on REF and colonies of ES-like cells on the RUCs. The ES-like cells were positive for expression of alkaline phosphatase and stage-specific embryonic-antigen 1. This is an important first step towards the derivation and culture of pluripotent ES cells from the rat.

Generation of a pseudogene during retroviral infection

During evolution, up to 10% of the mammalian genome may have arisen by rare retroposition events. This process involves reverse transcription of RNA intermediates that originate from retroviral and retroviral-like sequences, highly and middle repetitive DNA elements, and processed pseudogenes. The mechanism, and contemporary nature, for retrotransposition of the viral family and long interspersed elements has been well studied; however, it has proven difficult to demonstrate that the process by which pseudogenes retropose is continuing. In this report a mutation in the murine hypoxanthine-guanosine phosphoribosyl transferase (hprt) gene, which was previously isolated following retroviral infection of ES cells, is shown to result from a de novo retroposition of an alpha-tubulin pseudogene. Repair of this insertion by homologous recombination restores the activity of the hprt locus, thus confirming the site of mutation. This retroposon bears all the hallmarks of a naturally processed pseudogene [intron loss, presence of a poly(A) tail, and target site duplication] while the retroposition event took place at a known time in well-defined conditions, during retroviral infection of ES cells. The study of this mutation demonstrates that under appropriate conditions pseudogenes of protein-coding genes can still retropose in the mammalian genome. The coincidence of this mutagenic event with retroviral infection suggests that in this situation the reverse transcriptase may have had a retroviral origin, which would implicate a retroviral role in facilitating pseudogene formation.

The genetic advantage hypothesis in cystic fibrosis heterozygotes: a murine study

1. The delta F508 mutation of the cystic fibrosis (CF) gene is of high frequency in man (1 in 25) and in homozygotes causes cystic fibrosis. It is suggested that cystic fibrosis heterozygotes withstand secretory diarrhoea better than normal individuals and so are genetically advantaged. This hypothesis has been examined by measuring electrogenic chloride secretion in gut epithelia of normal and heterozygous CF mice. 2. Chloride secretory responses of normal and heterozygous colonic epithelia to forskolin, vasoactive intestinal polypeptide (VIP), isoprenaline, cholera toxin, heat-stable enterotoxin (STa), guanylin, carbachol and lysylbradykinin were examined. No significant differences in responses of tissues of the two genotypes were found. 3. Responses of normal and heterozygous ileal epithelia to forskolin and glucose were investigated. Heterozygous tissues responded as well as normal tissues. 4. Frusemide (furosemide) caused virtually identical inhibition of the chloride secretory responses to forskolin in colonic epithelia of both genotypes. 5. No evidence to support the genetic advantage hypothesis in ileal or colonic epithelia of the null CF mouse has been found, at least for acute responses. If the hypothesis is true then either (a) other non-cystic fibrosis transmembrane conductance regulator (non-CFTR) transport processes are involved, (b) prolonged exposure to secretagogues is required, or (c) delta F508 CFTR is responsible for the protective effect.

Elevated basal adrenocorticotropin and evidence for increased central opioid tone in highly trained male athletes

Basal cortisol and ACTH levels have previously been shown to be elevated in highly trained athletes, whereas the ACTH response to ovine CRH has been reported to be diminished compared to that in nonathletic controls. Naloxone, a nonselective opioid receptor antagonist, is known to stimulate ACTH and cortisol secretion. The mechanism of this response is thought to be via increased hypothalamic CRH secretion. The aim of this study was to examine basal and naloxone-stimulated levels of hypothalamic-pituitary-adrenal axis hormones in male athletes. Ten highly trained male athletes and 10 nonathletic controls took part in the study. Peripheral venous blood was sampled for cortisol, ACTH, CRH, and arginine vasopressin (AVP) for 2 h before the administration of 20 mg naloxone, i.v., and 15, 30, 45, 60, 90, and 120 min after naloxone treatment. Body mass index was significantly lower in the athletes (P < 0.001). Basal (prenaloxone) ACTH levels were higher in the athletes (P < 0.05), whereas levels of cortisol, CRH, and AVP were similar in both groups. After naloxone treatment, there was a significantly greater rise in ACTH in the athletes (P < 0.02). There was also a trend for the cortisol response to be greater, which was not statistically significant (P < 0.07). Although in both groups, peripheral CRH rose after naloxone treatment (P < 0.005), a rise of similar magnitude occurred over the 2-h period before naloxone (P < 0.0001). Plasma AVP did not change significantly after naloxone treatment. Neither the plasma cortisol level at baseline nor the body mass index correlated significantly with the ACTH or cortisol response to naloxone. The presence of an enhanced ACTH response to naloxone is evidence that central opioid tone may be increased in highly trained athletes. However, there is no associated suppression of the hypothalamic-pituitary-adrenal axis, and basal ACTH levels are raised, without any detectable change in peripheral plasma CRH or AVP. An additional factor (other than CRH) that stimulates ACTH secretion may be released after naloxone administration.

The acute effects of oral ethanol on the hypothalamic-pituitary-adrenal axis in normal human subjects

OBJECTIVE

To evaluate the acute effects of oral ethanol on the hypothalamic-pituitary-adrenal axis in normal human subjects and, in particular, to examine the effect of background alcohol intake and gastrointestinal side-effects on this response.

DESIGN

Plasma ethanol, cortisol, ACTH, corticotrophin-releasing hormone (CRH) and AVP were measured half-hourly for 4 hours following 1.1 ml/kg of 95% ethanol or placebo in a cross-over study. At least one week elapsed between each procedure.

SUBJECTS

Twelve healthy non-alcoholic volunteers with a wide range of background alcohol intakes.

MEASUREMENTS

Peptide hormones were measured by radioimmunoassay, cortisol by ELISA and blood ethanol by headspace gas chromatography. Results are expressed as mean +/- SEM.

RESULTS

Blood ethanol levels peaked at one hour post ethanol ingestion. Three subjects developed significant gastrointestinal (GI) side-effects, with two vomiting and one experiencing moderate to severe nausea. There was no difference between peak blood ethanol levels in the groups with and without GI side-effects (34.5 +/- 2.4 mmol/l vs 34.3 +/- 1.7 mmol/l respectively). ACTH and cortisol rose in those subjects who experienced GI side-effects (P < 0.0001 for each). The remaining subjects had a tendency for ACTH and cortisol to be higher on the placebo day. The group with GI side-effects following ethanol administration had a significant rise in AVP (P < 0.02) that was synchronous with ACTH and cortisol. No consistent alcohol related changes were seen in peripheral CRH levels, although there was a significant increase over time on both active and placebo days (P < 0.0001). In the group with no GI side-effects, AVP did not significantly fall in the first half hour following ethanol, while a significant fall did occur following placebo (P < 0.05). Plasma renin activity was, however, increased by ethanol (P < 0.05). The background alcohol intake of the group with GI side-effects was significantly lower than the group without (18 +/- 7 vs 235 +/- 51 g/week, P < 0.05), but no hormonal response was seen in two subjects with a relatively low alcohol intake (< 100 g/week) who did not experience GI side-effects.

CONCLUSION

Intoxicating levels of ethanol per se do not result in activation of the hypothalamic-pituitary-adrenal axis in humans. However, gastrointestinal side-effects induced by the ethanol do result in such activation, which appears to be mediated by AVP as the dominant ACTH secretagogue. One of the factors which influences the blood ethanol level at which GI side-effects occur appears to be background alcohol intake.