Effect of TCDD on maternal toxicity and chorionic gonadotropin--bioactivity in the immediate post-implantation period of macaque

The purpose of this experiment was to observe the alterations in bioactivity of chorionic gonadotropin (CG) associated with early fetal loss (EFL), induced by the environmental toxin TCDD (2,3,7,8-tetrachlorodibenzo-p-dioxin) in the cynomolgus macaque. Ten of twelve females administered single doses of 1, 2 or 4 microg/kg TCDD on gestational day (GD) 12 had EFL from ten to twenty days later. Seven control animals treated only with the vehicle had normal pregnancies. Blood samples were repeatedly collected for hormone evaluation, from two days before treatment to thirty-one days following treatment. Immunoreactive monkey chorionic gonadotropin (mCG) was measured in serum using ELISA, and bioactive mCG was measured using a luminescence LH/CG bioassay. No change in immunoreactive mCG levels was detected as a result of TCDD, treatment, but bioactive mCG levels were significantly lower in TCDD-treated animals compared to controls. This change in bioactivity of mCG was also reflected in the ratio of mCG bioactivity to mCG immunoreactivity (B/I ratio) which began to rise in normal pregnancies by GD 20, but did not rise in TCDD treated animals. These results demonstrate that normal pregnancy in the monkey, as in humans, is characterized by a post-implantation change in the B/I ratio of CG. These findings therefore suggest that changes in the production of bioactive CG may be used as a biomarker of environmental toxicant exposures which lead to EFL.

Changes in tissue metals after cadmium intoxication and intervention with chlorpromazine in male rats

Cadmium (Cd), one of the most dangerous heavy metals, has a very similar ionic radius to calcium (Ca). The interference of cadmium in calcium homeostasis may play an important role in cadmium toxicity. Recent reports indicate that calmodulin (CaM) inhibitors such as trifluoperazine and chlorpromazine (CPZ) could protect rodents against cadmium toxicity. It was also reported that pretreatment of mice with zinc (Zn) could reduce the adverse effects induced by cadmium. The aim of this study is to determine whether Cd changes the balance of other essential metals such as Zn and copper (Cu) in rat tissues, and whether CPZ can reverse these changes which are induced by cadmium intoxication. Adult male Sprague-Dawley (SD) rats were injected intraperitoneally (i.p.) with cadmium chloride (CdCl2) (0.2, 0.4, 0.8 mg Cd/kg body weight) alone and 0.4 mg Cd/kg in association with CPZ (5 mg/kg) daily for a week. The control animals were injected with normal saline only. The results showed that the cadmium content in the liver, kidney and testis increased significantly with a dose-response relationship. Cadmium treatment markedly increased the Zn and Ca content in some of the tissues. Hepatic and renal metallothionein (MT) increased significantly after cadmium intoxication. CPZ treatment, however, reduced cadmium content in liver, but not blood and kidney. CPZ seemed to decrease the content of MT in liver and significantly increase the amounts of MT in kidney. These data suggest that the intervention of cadmium with tissue essential metals may play a role in cadmium toxicity in rats, and calmodulin inhibitors to some extent can reduce the adverse effect of cadmium by decreasing the cadmium load in tissues and reversing the unbalance of essential metals.

A point mutation in domain 4-segment 6 of the skeletal muscle sodium channel produces an atypical inactivation state

We compared wild-type rat skeletal muscle NaChs (micro1) and a mutant NaCh (Y1586K) that has a single amino acid substitution, lysine (K) for tyrosine (Y), at position 1586 in the S6 transmembrane segment of domain 4. In Y1586K, macroscopic current decay is faster, the V(1/2) of the activation curve is shifted in the depolarized direction, and the fast-inactivation curve is less steep compared with mu1. After an 8-ms depolarization pulse, Y1586K recovers from inactivation much more slowly than mu1. The recovery is double exponential, suggesting recovery from two inactivation states. Varying the depolarization protocols isolates entry into an additional, "atypical" inactivation state in Y1586K that is distinct from typical fast or slow inactivation. Substitution of positively charged arginine (R) at Y1586 produces an inactivation phenotype similar to that of Y1586K. Substitution by negatively charged aspartic acid (D) or uncharged alanine (A) at Y1586 produces an inactivation phenotype similar to mu1. Our results suggest that the positive charge of lysine (K) produces the atypical inactivation state in Y1586K. We propose that a conformational change during depolarization alters the relative position of the 1586K residue in the D4-S6 segment and that atypical inactivation in Y1586K occurs via an electrostatic interaction in or near the inner pore region.

Antioxidant activity in fruits and leaves of blackberry, raspberry, and strawberry varies with cultivar and developmental stage

Fruits and leaves from different cultivars of thornless blackberry (Rubus sp.), red raspberry (Rubus idaeus L.), black raspberry (Rubus occidentalis L.), and strawberry (Fragaria x ananassa D.) plants were analyzed for total antioxidant capacity (oxygen radical absorbance capacity, ORAC) and total phenolic content. In addition, fruits were analyzed for total anthocyanin content. Blackberries and strawberries had the highest ORAC values during the green stages, whereas red raspberries had the highest ORAC activity at the ripe stage. Total anthocyanin content increased with maturity for all three species of fruits. Compared with fruits, leaves were found to have higher ORAC values. In fruits, ORAC values ranged from 7.8 to 33.7 micromol of Trolox equivalents (TE)/g of fresh berries (35. 0-162.1 micromol of TE/g of dry matter), whereas in leaves, ORAC values ranged from 69.7 to 182.2 micromol of TE/g of fresh leaves (205.0-728.8 micromol of TE/g of dry matter). As the leaves become older, the ORAC values and total phenolic contents decreased. The results showed a linear correlation between total phenolic content and ORAC activity for fruits and leaves. For ripe berries, a linear relationship existed between ORAC values and anthocyanin content. Of the ripe fruits tested, on the basis of wet weight of fruit, cv. Jewel black raspberry and blackberries may be the richest source for antioxidants. On the basis of the dry weight of fruit, strawberries had the highest ORAC activity followed by black raspberries (cv. Jewel), blackberries, and red raspberries.

Different responses of polyploidized V79 cells after removal of two drugs, demecolcine and K-252a

To examine whether or not cells polyploidized by different mechanisms behave in a different manner after drug removal, V79 Chinese hamster cells were assessed by flow cytometry (FCM) after their polyploidization by demecolcine and K-252a, inhibitors of spindle-fiber formation and protein kinase, respectively. Cell cycle analysis of DNA histograms of V79 cells before and after the drug release was performed. With both drugs, the ploidy of V79 cells increased just after the drug removal and was maintained for a week. A difference was evident 10 days after the release. Tetraploid cells were the main population from 10 to 18 days after the release of K-252a, but not demecolcine. Cell cycle parameters were almost the same in pseudo diploid and tetraploid V79 cells, except for the tetraploid S phase which was 2h longer.

[Construction of human pLXSN-CD80 retrovirus vector and expression in CHO and PA317 cells]

CD80, a molecule on the antigen presenting cells, provide costimulation signals for T cell activation and play a key role in tumor immune. Based on our previous work of human CD80 full length cDNA cloning, a retrovirus expression vector pLXSN-CD80 was constructed. CD80 expression cells were selected by G418 from pLXSN-CD80 transfected PA317 and CHO cells by calcium phosphate. Expression, distribution and molecular weight (MW) of CD80 were measured by RIA, FACs and western blot. pLXSN-CD80 transfected CHO cells expressed relatively high level of CD80 protein (approximately the same as Raji cells) with an apparent MW of 40 kD. In the presence of G418 or not, pLXSN-CD80 transfected PA317 and CHO cells maintained CD80 expression for five months of passage. The results indicate that our construct is potent for experimental use in gene therapy.

A high-resolution physical map of human chromosome 21p using yeast artificial chromosomes

The short arm of human chromosome 21 (21p) contains many different types of repetitive sequences and is highly homologous to the short arms of other acrocentric chromosomes. Owing to its repetitive nature and the lack of chromosome 21p-specific molecular markers, most physical maps of chromosome 21 exclude this region. We constructed a physical map of chromosome 21p using sequence tagged site (STS) content mapping of yeast artificial chromosomes (YACs). To this end, 39 STSs located on the short arm or near the centromere of chromosome 21 were constructed, including four polymorphic simple tandem repeats (STRs) and two expressed sequence tags (ESTs). Thirty YACs were selected from the St. Louis YAC library, the chromosome 21-enriched ICRF YAC library, and the CEPH YAC and megaYAC libraries. These were assembled in a YAC contig map ranging from the centromere to the rDNA gene cluster at 21p12. The total size of the region covered by YACs is estimated between 2.9 and 5 Mb. The integrity of the YAC contig was confirmed by restriction enzyme fingerprinting and fluorescence in situ hybridization (FISH). One gap with an estimated size of 400 kb remained near the telomeric end of the contig. This YAC contig map of the short arm of human chromosome 21 constitutes a basic framework for further structural and functional studies of chromosome 21p.

Photoreceptor localization of the KIF3A and KIF3B subunits of the heterotrimeric microtubule motor kinesin II in vertebrate retina

The heterotrimeric microtubule motor kinesin II has been shown to be required for morphogenesis and maintenance of both motile flagella and immotile sensory cilia. Recently, we showed that the KIF3A subunit of kinesin II is concentrated in the inner segment and connecting cilium of fish photoreceptors. Here we report the gene structure of human KIF3A (HsKIF3A) and describe its localization in human and monkey retina. We also describe the localization of both KIF3A and KIF3B kinesin II subunits in Xenopus retina. Using a portion of HsKIF3A we had amplified from adult human retinal cDNA, we found by a GenBank database search that an identical sequence had already been obtained by the Human Genome Center at Lawrence Berkeley National Laboratories in a direct sequencing analysis of 680 kb of human chromosome 5q31. By comparing the genomic sequence of HsKIF3A to the open reading frame (ORF) of the highly homologous mouse Kif3A, we determined that the HsKIF3A gene has 17 exons and an ORF of approximately 2.1 kb, predicting a protein of 80.3 kDa. Antibodies against sea urchin KRP85, a KIF3A homologue, bound to a single band of approximately 85 kDa in immunoblots of total retina protein from human, monkey and Xenopus. In these same samples, a single band of approximately 95 kDa is recognized by antibodies against Xklp3, a Xenopus KIF3B homologue. In sections of Xenopus retina, both antibodies strongly labelled photoreceptor inner segments and the outer limiting membrane. Both antibodies also labelled photoreceptor axonemes. The axonemal localization of kinesin II subunits suggests that kinesin II may play a role in transport of materials from the photoreceptor cell body to the outer segment.

Methyl Jasmonate Reduces Water Stress in Strawberry

The effect of methyl jasmonate (MJ) on changes of oxygen-scavenging enzyme activities and membrane lipid composition was studied in strawberry leaves under water stress. Under water stress, MJ treatment reduced the increase of peroxidase (EC 1.11.1.7; POD) activity, maintained higher catalase (EC 1.11.1.6; CAT) and superoxide dismutase (EC 1.15.1.1; SOD) activities, and ascorbic acid content. In addition, MJ treatment reduced transpiration and membrane-lipid peroxidation as expressed by malondialdehyde (MDA) content, lessened the reduction of membrane lipids, glycolipids [monogalactosyl diglyceride (MGDG), digalactosyl diglyceride (DGDG)], and phospholipids [phosphatidylcholine (PC), phosphatidylethanolamine (PE), phosphatidylglycerol (PG), and phosphatidylinositol (PI)]. In water-deficit conditions, MJ treatment also alleviated the decline in the degree of fatty acid unsaturation and the ratio of linolenic (18:3) to linoleic acid (18:2). These results indicate that MJ treatment appears to alter the metabolism of strawberry plants rendering the tissue better able to withstand water stress.

Recombination of hepatitis D virus RNA sequences and its implications

Recombination between RNA sequences plays a role in the fast evolution of a few viruses. There has been no report on hepatitis D virus (HDV) recombination. In this study, we analyzed genetic recombination of HDV and its possible impact on evolution and clinical course. The aligned HDV sequences allowed us to construct a phylogenetic tree which supported the notion of distinct lineages of HDV. The tree was also used in the analysis of recombination using partial likelihoods assessed through optimization. Nine segments of the HDV genome with significant levels of genetic recombination were detected. Five segments were in the hypervariable region, and four were in the delta-antigen- coding region. None could be found in the well-conserved autocleavage region that is essential for replication. Recombination occurred both between and within types. The results of this study indicated that the remarkable variation in HDV genomic sequences, particularly in the hypervariable region, among different genotypes may at least partly result from multiple episodes of genetic recombination during evolution. Genetic recombination may play a significant role in increasing genetic diversity. Importantly, a genetic recombination (nt 1082-1093) occurred in one of the immunogenic domains of hepatitis delta virus antigen recognized by human and woodchuck antibodies (amino acids 174-195). Genetic recombination also occurred at another segment between nt 1517 and 1535, which was close to one of the predicted T-cell epitopes (amino acids 26-41). In longitudinal analysis of HDV genomes at different time points during chronic infection, novel dominant HDV strains with amino acid changes at these epitopes usually emerged after severe hepatitis attacks. In the comparison of HDV clones during or shortly after flare-up of liver disease, Ka/Ks ratios of > 1 were frequently found, suggesting Darwinian positive selection. Therefore, recombination in these two segments may play an important role for HDV in the evasion of immunity.

Effect of aerobic training on orthostatic tolerance, circulatory response, and heart rate dynamics

BACKGROUND

This study was performed to investigate the effects of aerobic training on orthostatic tolerance and to quantify the post-training changes in cardiovascular response and heart rate variability (HRV).

METHODS

Tolerance and circulatory responses to two types of lower body negative pressure (LBNP) were examined and compared in a group of healthy male students before and after 6 mo of aerobic training, and the results were further compared with a group of athletes (runners). Changes in HRV associated with training were analyzed by conventional and time-varying autoregressive spectral analysis, as well as by approximate entropy measurement (ApEn)--a statistic quantifying heart rate "complexity" derived from non-linear dynamics.

RESULTS

After aerobic training, there was an initial transient hypotension during the supine -50 mmHg LBNP testing and a significant decrease in tolerance to upright graded LBNP in most of the student-subjects. Moreover, after training, there was a significant decrease in ApEn value of the HRV time series during both supine control and LBNP testing, and the rate of cardiac vagal withdrawal and sympathetic activation during the onset of LBNP was faster than that before training.

CONCLUSIONS

The present study has provided further evidence that certain types of aerobic training may affect orthostatic tolerance and may be associated with a loss of complexity of HRV during supine resting and orthostatic stress.

Circulating levels of thrombopoietic and inflammatory cytokines in patients with clonal and reactive thrombocytosis

The regulation of megakaryocytopoiesis and thrombopoiesis appears to be under the control of an array of hematopoietic growth factors. To determine the relationship between endogenous cytokine levels and circulating platelet counts, we measured the serum levels of both thrombopoietic and inflammatory cytokines in the peripheral blood and bone marrow samples from 70 patients with clonal thrombocytosis (CT) caused by myeloproliferative disorders, 28 patients with reactive thrombocytosis (RT), and 35 normal control subjects. The levels of thrombopoietin (TPO), interleukin-6 (IL-6), soluble IL-6 (sIL-6) receptor, IL-11, stem cell factor (SCF), IL-3, and IL-8 were determined by enzyme-linked immunosorbent assay (ELISA). Platelet counts were significantly higher in both CT and patients with RT (699+/-399x10(9)/L, P<.001; 642+/-200 x 10(9)/L, P<.001; respectively) as compared with the normal control subjects (240+/-47x10(9)/L). The concentrations of cytokines in the bone marrow correlated well with those in the peripheral blood. The endogenous levels of TPO, IL-6, and sIL-6 receptor were significantly higher in both CT and patients with RT than those in normal control subjects. The median level of IL-6 was significantly higher in patients with RT than in patients with CT (40 pg/mL vs. 5 pg/mL; P<.001); however, there was no detectable difference in TPO and sIL-6 receptor levels between the two groups. Significantly higher levels of SCF and IL-8 were also found in patients with CT as compared with those found in normal control subjects (median 2460 pg/mL vs 1995 pg/mL, P<.05; 20 ng/mL vs. 5 ng/mL, P = .001; respectively). Finally, IL-11 and IL-3 levels were undetectable in most patients with thrombocytosis. Our results reveal that the endogenous levels of TPO, IL-6, sIL-6 receptor, IL-8, and SCF are elevated in patients with CT or RT. These cytokines appear to be active mediators involved in the regulation of thrombopoiesis during clonal and reactive thrombocytosis.

Inhibition of Crystallite Growth in the Sol-Gel Synthesis of Nanocrystalline Metal Oxides

Crystal growth upon firing of hydrous transition metal oxide gels can be effectively inhibited by replacing the surface hydroxyl group before firing with another functional group that does not condense and that can produce small, secondary-phase particles that restrict advancing of grain boundaries at elevated temperatures. Accordingly, fully crystallized SnO(2), TiO(2), and ZrO(2) materials with mean crystallite sizes of approximately 20, 50, and 15 angstroms, respectively, were synthesized by replacing the hydroxyl group with methyl siloxyl before firing at 500 degrees C. An ultrasensitive SnO(2)-based chemical sensor resulting from the microstructural miniaturization was demonstrated.

Point mutations at N434 in D1-S6 of mu1 Na(+) channels modulate binding affinity and stereoselectivity of local anesthetic enantiomers

Voltage-gated Na(+) channels are the primary targets of local anesthetics (LAs). Amino acid residues in domain 4, transmembrane segment 6 (D4-S6) form part of the LA binding site. LAs inhibit binding of the neurotoxin batrachotoxin (BTX). Parts of the BTX binding site are located in D1-S6 and D4-S6. The affinity of BTX-resistant Na(+) channels mutated in D1-S6 (mu1-N434K, mu1-N437K) toward several LAs is significantly decreased. We have studied how residue mu1-N434 influences LA binding. By using site-directed mutagenesis, we created mutations at mu1-N434 that vary the hydrophobicity, aromaticity, polarity, and charge and investigated their influence on state-dependent binding and stereoselectivity of bupivacaine. Wild-type and mutant channels were transiently expressed in human embryonic kidney 293t cells and investigated under whole-cell voltage-clamp. For resting channels, bupivacaine enantiomers showed a higher potency in all mutant channels compared with wild-type channels. These changes were not well correlated with the physical properties of the substituted residues. Stereoselectivity was small and almost unchanged. In inactivated channels, the potency of bupivacaine was increased in mutations containing a quadrupole of an aromatic group (mu1-N434F, mu1-N434W, mu1-N434Y), a polar group (mu1-N434C), or a negative charge (mu1-N434D) and was decreased in a mutation containing a positive charge (mu1-N434K). In mutation mu1-N434R, containing the positively charged arginine, the potency of S(-)-bupivacaine was selectively decreased, resulting in a stereoselectivity (stereopotency ratio) of 3. Similar results were observed with cocaine but not with RAC 109 enantiomers. We propose that in inactivated channels, residue mu1-N434 interacts directly with the positively charged moiety of LAs and that D1-S6 and D4-S6 form a domain-interface site for binding of BTX and LAs in close proximity.

In vitro effect of granulocyte-colony stimulating factor and all-trans retinoic acid on the expression of inflammatory cytokines and adhesion molecules in acute promyelocytic leukemic cells

Differentiation therapy with all-trans retinoic acid (ATRA) represents a landmark approach in the treatment of acute promyelocytic leukemia (APL). However, a potentially fatal complication of retinoic acid (RA) syndrome occurs in about a quarter of patients and its pathophysiology is still unclear. In order to investigate whether or not the treatment with ATRA leads to increased elaboration of inflammatory cytokines and adhesion molecules by the APL cells, the expression of interleukin (IL)-1beta, tumor necrosis factor (TNF)-alpha, IL-8, L-selectin and intercellular adhesion molecule-1 (ICAM-1) was examined in the APL cells after induction of differentiation with ATRA in the presence or absence of granulocyte-colony stimulating factor (G-CSF) or IL-3 in the present study. Cytokine elaboration by the treated cells was detected using both Northern blotting and enzyme-linked immunosorbent assay. Our results have shown that ATRA induces an increased expression of IL-8, IL-1beta, TNF-alpha and ICAM-1 in APL cells, which can be amplified by the addition of G-CSF. These data imply that the induction of inflammatory cytokines in APL cells may play an important role in the pathogenesis of RA syndrome. Furthermore, G-CSF, through its potent differentiating activity, may increase the risk of such complications during ATRA treatment.

Urinary follicle stimulating hormone can be used as a biomarker to assess male reproductive function

AIM

To develop an algorithm for use in population-based studies to assess testicular function by measurements of total urinary follicle stimulating hormone (FSH).

METHODS

Total concentrations of urinary FSH were measured in a group of 44 men at the University of California, Davis (UCD) and were compared to FSH measurements in serum. On the basis of these and other published data, a urinary FSH value of >2 ng/mg creatinine (Cr) was selected as the cutoff point to identify men with elevated serum FSH ( > 12 IU/L) or low sperm counts ( < 20 million/mL).

RESULTS

The sensitivity and specificity of this algorithm for detecting elevated serum FSH in a group of 58 agricultural workers in the People' s Republic of China were 100% and 50%, respectively. The sensitivity and specificity of this algorithm for detecting low sperm counts in a population of 105 infertility patients at UCD were 58 % and 76 %, respectively.

CONCLUSION

This test may have particular value in identifying populations with no evidence of testicular toxicity, and in which labor-intensive semen studies may not be feasible.

Batrachotoxin-resistant Na+ channels derived from point mutations in transmembrane segment D4-S6

Local anesthetics (LAs) block voltage-gated Na+ channels in excitable cells, whereas batrachotoxin (BTX) keeps these channels open persistently. Previous work delimited the LA receptor within the D4-S6 segment of the Na+ channel alpha-subunit, whereas the putative BTX receptor was found within the D1-S6. We mutated residues at D4-S6 critical for LA binding to determine whether such mutations modulate the BTX phenotype in rat skeletal muscle Na+ channels (mu1/rSkm1). We show that mu1-F1579K and mu1-N1584K channels become completely resistant to 5 microM BTX. In contrast, mu1-Y1586K channels remain BTX-sensitive; their fast and slow inactivation is eliminated by BTX after repetitive depolarization. Furthermore, we demonstrate that cocaine elicits a profound time-dependent block after channel activation, consistent with preferential LA binding to BTX-modified open channels. We propose that channel opening promotes better exposure of receptor sites for binding with BTX and LAs, possibly by widening the bordering area around D1-S6, D4-S6, and the pore region. The BTX receptor is probably located at the interface of D1-S6 and D4-S6 segments adjacent to the LA receptor. These two S6 segments may appose too closely to bind BTX and LAs simultaneously when the channel is in its resting closed state.

Subcellular Ca2+ distribution with varying Ca2+ load in neonatal cardiac cell culture

Recent work in our laboratory has investigated and modeled subcellular calcium compartmentation and Ca2+ movement under steady-state control conditions. This experimental study is directed to the further description and quantitation of cellular calcium compartmentation patterns and movements as correlated with contraction in neonatal rat cardiac myocytes in culture under a variety of calcium loading conditions. Compartmental contents were assessed after incubations in various [Ca2+]o, 0 Na+/1 mM Ca2+, and 10 microM ouabain/1.0 mM Ca2+ test solutions. The cellular components investigated include sarcolemmal bound, sarcoplasmic reticulum (SR), and mitochondrial calcium. The results indicate that 1) sarcolemmal calcium binding is insensitive to changes in [Ca2+]o in the range tested (0.25-6.0 mM) while highly sensitive to changes in [Na+]i; 2) SR is sensitive to both changes in [Ca2+]o and [Na+]i and exhibits a maximum loading capacity of approximately 750 micromol Ca2+/kg dw; 3) in the [Ca2+]o range between 0.25 and 2.0 mM, contractile amplitude is proportional to SR content; 4) the mitochondria comprise a high-capacity calcium-containing compartment that is sensitive to changes in [Ca2+]o but does not reach saturation under the conditions tested (0.25-8.0 mM [Ca2+]o); 5) SR calcium is divided into at least two functionally discrete pools, one of which is available for release to the myofilaments during a normal ICa-triggered contraction and other of which is caffeine releasable but unavailable for release to the myofilaments during a normal triggered release; and 6) mitochondrial calcium serves as a reservoir of calcium capable of replenishing and/or augmenting SR stores with anywhere from 10% to 50% of mitochondrial calcium cycling through SR calcium compartments.

Bacterial lipopolysaccharide inhibits dengue virus infection of primary human monocytes/macrophages by blockade of virus entry via a CD14-dependent mechanism

Monocytes/macrophages (MO/Mphi) are the major target cells for both dengue virus (DV) and bacterial lipopolysaccharide (LPS), and the aim of this study was to define their interactions. We had found that LPS markedly suppressed DV infection of primary human MO/Mphi when it was added to cultures prior to or together with, but not after, viral adsorption. The inhibitory effect of LPS was direct and specific and was not mediated by LPS-induced secretion of cytokines and chemokines such as tumor necrosis factor alpha, interleukin-1beta (IL-1beta), IL-6, IL-8, IL-12, alpha interferon, MIP-1alpha, and RANTES. In fact, productive DV infection was not blocked but was just postponed by LPS, with a time lag equal to one viral replication cycle. Time course studies demonstrated that LPS was only effective in suppressing DV infection of MO/Mphi that had not been previously exposed to the virus. At various time points after viral adsorption, the level of unbound viruses that remained free in the culture supernatants of LPS-pretreated cultures was much higher than that of untreated controls. These observations suggest that the LPS-induced suppression of DV replication was at the level of virus attachment and/or entry. Blockade of the major LPS receptor, CD14, with monoclonal antibodies MY4 or MoS39 failed to inhibit DV infection but could totally abrogate the inhibitory effect of LPS. Moreover, human serum could significantly enhance the LPS-induced DV suppression in a CD14-dependent manner, indicating that the "binding" of LPS to CD14 was critical for the induction of virus inhibition. Taken together, our results suggest that LPS blocked DV entry into human MO/Mphi via its receptor CD14 and that a CD14-associated cell surface structure may be essential for the initiation of a DV infection.

Insulin lispro: in-vivo potency determination by intravenous administration in conscious rabbits

Insulin lispro is a monomeric analogue of human insulin, produced by genetic engineering, and has been reported to have a more rapid absorption following subcutaneous injection than insulin. Since it has been shown to have a similar hypoglycaemic action to insulin in clinical studies and comparable properties in radioimmunoassay, the feasibility of using a bioassay which was designed originally for insulin, to measure insulin lispro potency was evaluated in this investigation. A random-dose bioassay protocol, in which insulin lispro and two insulin standards were administered intravenously in a random sequence, was used and validated in nine conscious healthy rabbits. The decline in blood-glucose levels, following the intravenous injection of a dose of insulin or its lispro analogue, was monitored by a continuous glucose monitoring system. A glucose response curve was generated, from which various pharmacodynamic parameters were determined. Compared with the insulin standards, the potencies of insulin lispro determined from nadir, basal glucose normalized nadir, glycaemic reduction and ABGC (area of the blood-glucose response curve under baseline) were observed to have mean (95% confidence limits) values of 97.0 (69.5-124.6)%, 106.3 (72.4-140.2)%, 949 (51.8-138.0)% and 102.4 (76.3-128.5)%, respectively. In addition, the coefficients of variation for correspondent parameters were 36.9, 41.5, 59.1 and 33.2%, respectively. The results indicated that the hypoglycaemic potency calculated from the ABGC values was the most accurate (102.4%) with the least coefficient of variation (33.2%). In conclusion, the potency of insulin lispro can be determined accurately from the ABGC values measured by the random-dose bioassay used.

Comparison of slow inactivation in human heart and rat skeletal muscle Na+ channel chimaeras

1. Voltage-gated Na+ channels undergo two types of inactivation in response to depolarization. One type, fast inactivation, occurs with a time scale of milliseconds. The other, slow inactivation, occurs over seconds to minutes. In addition, these two processes appear to be distinct at the molecular level. However, the molecular mechanism of Na+ channel slow inactivation is unknown. 2. We used patch clamp techniques to study slow inactivation, activation and fast inactivation in alpha-subunit cDNA clones for wild-type human heart Na+ channels (hH1) and rat skeletal muscle Na+ channels (mu1) transiently expressed in human embryonic kidney (HEK) cells. Our experiments showed that the Na+ channel slow inactivation phenotype (development, steady state and recovery) differed dramatically between hH1 and mu1. Slow inactivation in mu1 had a faster onset, a steeper voltage dependence, and was more complete compared with hH1. In addition, recovery from slow inactivation was much slower for mu1 than for hH1. Activation and fast inactivation kinetics were also different in hH1 and mu1. In hH1, fast inactivation was slower and V values of activation and steady-state fast inactivation (hthorn ) were more negative than in mu1. 3. To better understand the molecular basis of Na+ channel slow inactivation, Na+ channel chimaeras were constructed with domains from hH1 and mu1. The slow inactivation phenotype in the chimaeras (domains denoted by subscripts) mu1(1)hH1(2,3,4), mu1(1,2)hH1(3,4) and mu1(1,2,3)hH1(4) was intermediate compared with that of wild-type. However, the chimaera mu1(1)hH1(2,3,4) was more like wild-type hH1, while the chimaeras mu1(1,2)hH1(3,4) and mu1(1,2,3)hH1(4) were more similar to wild-type mu1. In the chimaeras, activation resembled that of mu1, fast inactivation resembled that of hH1, and steady-state fast inactivation fell between that of hH1 and mu1. 4. The data demonstrate that all four domains can modulate the Na+ channel slow inactivation phenotype. However, domains D1 and D2 may play a more prominent role in determining Na+ channel slow inactivation phenotype than D3 and D4. The results also support previous conclusions that D3 and D4 (and the D3-D4 linker) play an important role in Na+ channel fast inactivation, and that activation may require non-equivalent contributions from all four domains.

Arterial versus venous changes in vascular capacitance during nitroprusside infusion: a vascular modelling study

The distributions of nitroprusside (NP) induced changes in vascular capacitance, arterial versus venous, are unknown. We measured canine ileal arterial and venous pressures and total (isolated loop) vascular volumes (scintigraphy), before and during NP infusion. NP sufficient to decrease perfusion pressure by 30% increased total vascular volume to 111 +/- 3% (+/- SEM) of control (p < 0.01). Increasing flow to restore perfusion pressure increased volume 4% more (p < 0.01). Assuming a two-compartment model and on the basis of the literature data, changes in venous capacitance were estimated and compared with arterial capacitance. During constant-flow perfusion, NP increased venous volume by 10.0% (vs. 18.1%, arterial). When flow was increased to restore pressure, venous volume increased by another 3.7% (vs. 2.6%, arterial). Assuming an original arterial to venous volume ratio of 133/1033, the final, constant-pressure increase in venous volume was almost 4 times the arterial increase. In conclusion, the increase in vascular volume during NP infusion was due primarily to similar-magnitude, active increases in venous and arterial capacitances (i.e., rightward shifts in pressure-volume relations). However, as venous volume is so much larger than arterial, the NP-induced increase in venous volume was greater.