A role for p75 receptor in neurotrophin-3 functioning during the development of limb proprioception

Neurotrophin-3 is indispensable for the development of limb proprioceptive neurons and their end organs, muscle spindles. To determine whether the low-affinity p75 receptor potentiates the actions of neurotrophin-3, we examined the development of the proprioceptive system in p75 null mutant mice that had either normal or decreased tissue levels of neurotrophin-3. Postnatal mice lacking both copies of the p75 gene had fewer sensory neurons in dorsal root ganglia, but normal complements of muscle spindles in fast hindlimb muscles, although the slow soleus muscle showed a 50% loss of spindles. However, compound mutants lacking both copies of the p75 gene as well as one copy of the neurotrophin-3 gene displayed a dystonic/ataxic phenotype similar to that observed previously in neurotrophin-3 null mutants devoid of proprioception. The compound mutants also exhibited a commensurate loss of parvalbumin-expressing (proprioceptive) neurons in dorsal root ganglia. The degree of deficiency of spindles (and presumably proprioceptive neurons) in the compound mutants exceeded the sum of deficits in single mutants lacking either both copies of p75 genes or one copy of neurotrophin-3 gene, suggesting a synergistic interaction between the p75 receptor and neurotrophin-3. Neuronal deficits in the compound mutants were present prior to embryonic day 14, indicating an early role for the p75 receptor in sensory neuronogenesis. Collectively, these data indicate that the p75 receptor is not essential for the survival and differentiation of most limb proprioceptive neurons when neurotrophin-3 is expressed at normal levels. However, the p75 receptor may act in synergy with neurotrophin-3 to enhance the survival of proprioceptive neurons when tissue levels of neurotrophin-3 are a limiting factor.

Differential non-redox inhibitory effects of glutathione against protein kinase C isozyme family members

Glutathione (GSH) and the GSH metabolic precursor N-acetylcysteine (NAC) are potent antioxidants that have clear potential either as cancer chemopreventive agents or as lead compounds for new cancer chemopreventive agents. The potential efficacy of GSH and NAC in clinical cancer chemoprevention is suggested by their antagonism of tumor promotion in animal models. Protein kinase C (PKC) is an isozyme family that plays a critical role in phorbol ester-mediated tumor promotion. We recently found that GSH and NAC exert direct inhibitory effects against a purified PKC isozyme mixture by a mechanism that did not involve their antioxidant properties. In this report, we characterize non-redox inhibitory effects of glutathiones on PKC isozymes that have been shown to produce partially or fully transformed phenotypes in mammalian cells. We show that GSH, NAC, and oxidized GSH analogs exert potent inhibition of the isozyme cPKC-ç and are somewhat less effective against cPKC- 1. In contrast, the oncogenic isozyme nPKC-â was unaffected by NAC, and it was inhibited by GSH and oxidized GSH analogs very modestly. Our results suggest that the potential impact of non-redox GSH/NAC-mediated PKC inhibition on cellular responses to tumor promoters and indeed, on cell growth regulation in general, may depend upon the pattern of PKC isozyme expression in the cells.

[Determination of lignan glycosides in the roots of Gaultheria yunnanensis Rehd. by HPLC]

OBJECTIVE

To determine the contents of four lignan glycosides in the root of Gaultheria yunnanensis, namely, D1: gaultheroside A, D2:(-)-8'-methoxyisolariciresinol-2a-O-beta-D-xylopyranoside, D3:(-)-isolariciresinol-2a-O-beta-D-xylopyranside, D4:(+)-lyoniresinol-2a-O-beta-D-glucoxylopyranoside.

METHOD

Rp-HPLC was used to separate and analyze the lignan glycosides in the root of the title plant.

RESULT

The method for sample preparation was set up; the gradient program for the mobile phase was established; and the retention times of four lignan glycosides were determined.

CONCLUSION

The method has been proved to be accurate, reproducible and of higher recovery rate.

[Research on the separation behavior of acidic drugs in capillary electrophoresis with reversed direction of electroosmotic flow]

The separation behavior of acidic drugs in capillary electrophoresis with reversal of electroosmotic flow was investigated systematically. Acetylsalicylic acid and its related compound salicylic acid were employed as objective drugs. The cationic surfactant cetyltrimethylammonium bromide (CTAB) was used as reversed reagent for electroosmotic flow. The experimental conditions, such as, cationic surfactant concentration, buffer pH and organic additives, which affected migration time, peak shape and column efficiency, were studied in detail. The experimental results indicated that high speed analysis could be achieved in the capillary electrophoresis with reversed electroosmotic flow induced by cationic surfactant when acidic drugs were analysed. The poor peak shape and low column efficiency caused by the interactions of CTAB with acidic anions would be improved by adding proper organic additive, such as, beta-cyclodextrin or acetonitrile.

Methylprednisolone inhibition of TNF-alpha expression and NF-kB activation after spinal cord injury in rats

Post-traumatic inflammatory reaction has been implicated in the secondary injury after SCI. TNF-alpha is a key inflammatory mediator, which plays a pathogenetic role in cell death in inflammatory disorders and traumatic brain injury. TNF-alpha exerts its effector actions, at least partially, through the activation of a pro-inflammatory transcription factor, NF-kB, which in turn upregulates such genes as iNOS, cytokines, adhesive molecules, and others. Consistent with a post-traumatic inflammatory reaction after SCI, we noted an increase in TNF-alpha expression by Western blotting (4.5-fold increase at 1 day after SCI, P<0.01) and immunohistochemistry in a rat SCI model. Post-traumatic TNF-alpha expression was accompanied by an increase in NF-kB binding activity in nuclear proteins isolated from the injured cord (3.9-fold increase, P<0.01). MP is the only drug proven effective in improving neurological function in patients with acute SCI. The mechanism of action of MP is not fully understood, but is thought to be related to its antioxidant effects. MP is also a potent anti-inflammatory agent, which has been recently shown to inhibit NF-kB binding activity. MP (30 mg/kg, i.v.) given immediately after SCI reduced TNF-alpha expression by 55% (P<0.01) and NF-kB binding activity. These findings suggest that post-traumatic inflammatory activity that is mediated by the TNF-alpha-NF-kB cascade can be suppressed by MP.

A novel role for ursodeoxycholic acid in inhibiting apoptosis by modulating mitochondrial membrane perturbation

The hydrophilic bile salt ursodeoxycholic acid (UDCA) protects against the membrane-damaging effects associated with hydrophobic bile acids. This study was undertaken to (a) determine if UDCA inhibits apoptosis from deoxycholic acid (DCA), as well as from ethanol, TGF-beta1, Fas ligand, and okadaic acid; and to (b) determine whether mitochondrial membrane perturbation is modulated by UDCA. DCA induced significant hepatocyte apoptosis in vivo and in isolated hepatocytes determined by terminal transferase-mediated dUTP-digoxigenin nick end-labeling assay and nuclear staining, respectively (P < 0.001). Apoptosis in isolated rat hepatocytes increased 12-fold after incubation with 0.5% ethanol (P < 0.001). HuH-7 cells exhibited increased apoptosis with 1 nM TGF-beta1 (P < 0. 001) or DCA at >/= 100 microM (P < 0.001), as did Hep G2 cells after incubation with anti-Fas antibody (P < 0.001). Finally, incubation with okadaic acid induced significant apoptosis in HuH-7, Saos-2, Cos-7, and HeLa cells. Coadministration of UDCA with each of the apoptosis-inducing agents was associated with a 50-100% inhibition of apoptotic changes (P < 0.001) in all the cell types. Also, UDCA reduced the mitochondrial membrane permeability transition (MPT) in isolated mitochondria associated with both DCA and phenylarsine oxide by > 40 and 50%, respectively (P < 0.001). FACS(R) analysis revealed that the apoptosis-inducing agents decreased the mitochondrial transmembrane potential and increased reactive oxygen species production (P < 0.05). Coadministration of UDCA was associated with significant prevention of mitochondrial membrane alterations in all cell types. The results suggest that UDCA plays a central role in modulating the apoptotic threshold in both hepatocytes and nonliver cells, and inhibition of MPT is at least one pathway by which UDCA protects against apoptosis.

Regulation of apoptosis-associated genes in the regenerating liver

The ability of the liver to regenerate remains a fascinating response to hepatic injury. Ever since the Greek myth of Prometheus, efforts have been made to unravel the mechanisms involved in liver regeneration. The cellular phenomenon represents an orchestrated response to external stimuli followed by sequential changes in gene expression, cytokine production, and morphologic structure. The most popular experimental model is based on the surgical removal of two-thirds of the liver. The remnant lobes respond to the loss of mass and function with expression of immediate- and delay-early genes which prime the cells for eventual progression through the cell cycle. The molecular events which trigger liver regeneration are now beginning to unfold. However, the control of liver regeneration and the events involved in regulating the three-dimensional growth of the organ remain poorly defined. It now appears that apoptosis probably plays a key role in fine tuning the regenerative response. The list of apoptosis-related gene products seems to grow regularly and includes both pro- and antiapoptotic factors. It is noteworthy that many of these genes are critical mediators of both apoptosis and cell replication. The factors involved in predicting which pathway they chose provide the basis for uncovering the secrets of organ growth--be it by life or by death.

[Identification of 12 species of hailong and haima by HPCE]

Twelve species of Hailong and Haima were analyzed by HPCE(high performance capillary electrophoresis) and significant differences among the species were found. The method is rapid, highly efficient and reproducible, thus providing experimental criteria for the qualitative identification of these two crude drugs.

Neurotrophin-3 and trkC in muscle are non-essential for the development of mouse muscle spindles

Neurotrophin-3 (NT3) or TrkC null mutant mice were examined for the presence of muscle spindles. Muscles of mastication, but not limbs, contained spindles in newborn and adolescent mutants. The intramuscular distribution and morphological properties of spindles in mutant masticatory muscles were indistinguishable from those of wild-type spindles. Intrafusal fibers of NT3- or trkC-deficient spindles-expressed the slow-tonic isoform of myosin heavy chains, characteristic of wild-type spindles. Sensory nerve endings were observed in spindles of mutants by electron microscopy. Thus, NT3 or trkC, which is expressed in wild-type spindles, may serve functions other than those related to spindle assembly. Presumably, proprioceptive neurons innervating jaw muscles are dependent on factors other than NT3 for survival and maintenance.

Ursodeoxycholic acid may inhibit deoxycholic acid-induced apoptosis by modulating mitochondrial transmembrane potential and reactive oxygen species production

BACKGROUND

The hydrophilic bile salt ursodeoxycholate (UDCA) inhibits injury by hydrophobic bile acids and is used to treat cholestatic liver diseases. Interestingly, hepatocyte cell death from bile acid-induced toxicity occurs more frequently from apoptosis than from necrosis. However, both processes appear to involve the mitochondrial membrane permeability transition (MPT). In this study, we determined the inhibitory effect of UDCA on deoxycholic acid (DCA)-induced MPT in isolated mitochondria by measuring changes in transmembrane potential (delta psi m) and production of reactive oxygen species (ROS). In addition, we examined the expression of apoptosis-associated proteins in mitochondria isolated from livers of bile acid-fed animals.

MATERIALS AND METHODS

Adult male rats were maintained on standard diet supplemented with DCA and/or UDCA for 10 days. Mitochondria were isolated from livers by sucrose/percoll gradient centrifugation and MPT was measured using spectrophotometric and fluorimetric assays. delta psi m and ROS generation were determined by FACScan analysis. Cytoplasmic and mitochondrial protein abundance were determined by Western blot analysis.

RESULTS

DCA increased mitochondrial swelling 25-fold over controls (p < 0.001); UDCA reduced the swelling by > 40% (p < 0.001). Similarly, UDCA inhibited DCA-mediated release of calcein-loaded mitochondria by 50% (p < 0.001). delta psi m was significantly decreased in mitochondria incubated with DCA but not with UDCA. delta psi m disruption was followed closely by increased superoxide anion and peroxides production (p < 0.01). Coincubation of mitochondria with UDCA significantly inhibited the changes associated with DCA (p < 0.05). In vivo, DCA feeding was associated with a 4.5-fold increase in mitochondria-associated Bax protein levels (p < 0.001); combination feeding with UDCA almost totally inhibited this increase (p < 0.001).

CONCLUSION

UDCA significantly reduces DCA-induced disruption of delta psi m, ROS production, and Bax protein abundance in mitochondria, suggesting both short- and long-term mechanisms in preventing MPT. The results suggest a possible role for UDCA as a therapeutic agent in the treatment of both hepatic and nonhepatic diseases associated with high levels of apoptosis.

Monoclonal antibodies against synthetic peptides corresponding to the extracellular domain of the human Ca2+ receptor: characterization and use in studying concanavalin A inhibition

We generated monoclonal antibodies against two synthetic peptides corresponding to residues 214-235 (ADD) and 374-391 (LRG) of the human Ca2+ receptor (hCaR) extracellular domain (ECD). Although both antibodies reacted well with their respective immunizing peptides on peptide-based enzyme linked immunosorbent assay, ADD was much more strongly reactive with the hCaR than LRG in assays such as immunoblots done under denaturing conditions. The opposite pattern was seen in flow cytometry analysis of the native receptor stably expressed in transfected 293 cells. We speculate that the ADD epitope is unexposed in the native receptor while the reverse is true for the LRG epitope. The ability to measure cell surface expression of the hCaR under native conditions using flow cytometry with the LRG monoclonal allowed us to study the basis for Concanavalin A (Con A) inhibition of CaR activation by Ca2+. Our studies show that Con A inhibition is partially accounted for by receptor internalization but, additionally, Con A may prevent Ca2+ stimulation directly by binding to carbohydrate residues in the receptor ECD.

[Value of nasopharyngofiberoscope, spectrography and computer in diagnosis and treatment of pathologic speech after cleft palate operation]

The speech of 45 cases with velopharyngeal incompetence (VPI) were evaluated by combining application of nasopharyngofiberoscope (NPF) and computer-spectrographic analysis system (CSAS) after cleft palate operation and conservative speech therapy with using cleft palate obturators. The results showed: Improving rate of velopharyngeal incompetence (IRVPI) was close to 33.33% after 2.5-3 years therapy. The spectrographic analysis showed a clearer, and darken frequency band, normal resonance peaks (F2,F3) and seldom appearance of negative value of voice origination time (VOT). The above indicated that patients had achieved adequate velopharyngeal competence (VPC) and good speech habit. It has important significances and greatly improve speech therapy level to apply NPF and CSAS to analysing pathologic speech and evaluating therapic effect.

A novel link between REC2, a DNA recombinase, the retinoblastoma protein, and apoptosis

The REC2 recombinase is essential for recombinational repair following DNA damage as well as for successful meiosis and gene targeting in the corn smut Ustilago maydis. Here we report that overexpression of REC2 induced apoptotic cell death in human HuH-7, Hep G2, and Hep 3B hepatoma cells. Apoptosis was related to recombinase activity and was significantly increased by inhibition of retinoblastoma (Rb) expression with transforming growth factor-beta1. REC2-induced apoptosis was associated with a significantly reduced percentage of cells in the G1 phase of the cell cycle and a significant reduction in G2/M only in the Rb(-/-) Hep 3B cells. Overexpression of REC2 resulted in increased abundance of the hyperphosphorylated form of Rb. However, by immunoprecipitation REC2 was associated primarily with hypophosphorylated Rb, suggesting that REC2 may be involved in modulating the phosphorylation state of Rb. The A and B pocket domains with the spacer amino acid sequence and the carboxyl-terminal region of Rb were required for maximal binding to REC2. Overexpression of Rb significantly inhibited REC2-induced apoptosis even in the presence of transforming growth factor-beta1. Taken together, these data suggest a novel interaction of Rb with the recombinase REC2 and a role for this complex in bridging DNA recombination and apoptosis.

The effect of changes in hepatocyte membrane potential on immediate-early proto-oncogene expression following partial hepatectomy in rats

The stimulus responsible for inducing hepatocytes to enter the cell cycle following partial hepatectomy (PHx) remains to be identified. One suggested candidate is the change in hepatocyte membrane potential (PD) that occurs immediately following PHx. To test this possibility, we monitored changes in hepatocyte PD and immediate-early proto-oncogene expression in rats pretreated with saline or gamma aminobutyric acid (GABA), an amino-acid neurotransmitter that hyperpolarizes isolated hepatocytes. Intraperitoneal injections of saline or GABA (500 microg/g body weight) were administered to adult, male Sprague-Dawley rats 1 hour prior to 70% PHx. Rats were sacrificed and the livers excised at various times until 180 minutes post-PHx for messenger RNA (mRNA) and protein analyses. In additional groups of saline- and GABA-treated rats, PD changes were recorded continuously from -260 to 180 minutes post-PHx. Serum GABA concentrations were determined by ion-exchange chromatography with orthopthaldehyde fluorescence detection. Hepatocyte PD's were recorded in situ by intracellular microelectrodes with an Axoprobe-1A amplifier. Steady-state levels of c-fos, c-jun, jun-B, and c-myc transcripts and proteins were documented by Northern blots of poly(A)-enriched RNA derived from resected livers and Western blots of total nuclear protein, respectively. Serum GABA concentrations remained unchanged in saline-treated controls but increased 10- to 20-fold above baseline values in GABA-treated rats. In saline-treated controls, hepatocyte depolarization occurred immediately and was maintained throughout the 180 minutes post-PHx period (PD pre-PHx, -36.8 +/- 5.1; 15 minutes post-PHx, -27.5 +/- 5.7; and 180 minutes post-PHx, -28.3 +/- 4.4 mV, mean +/- SD); whereas in GABA-treated rats, hepatocyte PD remained unchanged (-37.0 +/- 1.1; -36.4 +/- 3.1 and -39.2 +/- 2.7 mV, respectively). Despite abrogation of hepatocyte PD changes, proto-oncogene mRNA and protein levels in saline- and GABA-treated rats were either similar or, in the case of c-fos and c-jun, increased five- to sevenfold in GABA-treated rats. The results of this study indicate the following: 1) hepatocytes depolarize immediately post-PHx and remain depolarized throughout the priming phase of the cell cycle; 2) elevated serum GABA concentrations prevent PHx-induced hepatocyte depolarization; and 3) depolarization is not the stimulus responsible for priming hepatocytes into replicative competence.

N-linked glycosylation of the human Ca2+ receptor is essential for its expression at the cell surface

The human Ca2+ receptor (hCaR) is a member of the superfamily of G protein-coupled receptors. Its large (approximately 600 residue) amino-terminal extracellular domain contains 9 potential N-linked glycosylation sites. Immunoblot of cell membranes derived from HEK-293 cells, stably transfected with the hCaR, showed two major immunoreactive bands of approximately 150 and 130 kDa, respectively. Complete digestion of the membranes with PN-glycosidase F yielded a single major immunoreactive band of approximately 115 kDa, confirming the presence of N-linked glycosylation. Treatment of these cells with tunicamycin, which blocks N-linked glycosylation, inhibited signal transduction in response to Ca2+. Flow cytometric analysis showed decreased expression of the hCaR on the cell membrane in tunicamycin-treated cells. Immunoblot of tunicamycin-treated cells showed a reduction in the amount of the 150-kDa band and conversion of the 130-kDa band to the presumptively nonglycosylated 115-kDa form. Tunicamycin treatment of cells, transfected with a mutant hCaR complementary DNA containing a nonsense codon at position 599 preceding the 1st transmembrane domain, blocked the secretion of a 95-kDa protein, representing the amino-terminal extracellular domain, into the medium. These results demonstrate that N-linked glycosylation is required for normal expression of the hCaR at the cell surface.

[Effect of adrenomedullin on mesenteric microvessels and microlymphatics in rat]

The dilatant effect of adrenomedullin (ADM), a novel peptide of 52 amino acids, on the mesenteric microvessels and microlymphatics was investigated under microscopic observation. 10(-6) mol/L ADM could also ameliorate alteration of the hemorheology induced by 10(-5) mol/L norepinephrine (NE) or 10(-7) mol/L endothelin (ET). However, this ameliorative response was markedly inhibited in the presence of NG-nitro-L-arginine (L-NNA), an inhibitor for production of nitric oxide.

Dual leucine zipper-bearing kinase (DLK) activates p46SAPK and p38mapk but not ERK2

Because the catalytic domain of dual leucine zipper-bearing kinase (DLK) bears sequence similarity to members of the mitogen-activated protein (MAP) kinase kinase kinase subfamily, this protein kinase was investigated for its ability to activate MAP kinase pathways. When transiently transfected and overexpressed in either COS 7 cells or NIH3T3 cells, wild type DLK potently activated p46(SAPK) (SAPK/JNK) but had no detectable effect in activating p42/44(MAPK). DLK also activated p38(mapk) when overexpressed in NIH3T3 cells. A catalytically inactive point mutant of DLK had no effect in these experiments. Consistent with its specificity in activating SAPK, DLK activated Elk-1 but not Sap1a-mediated transcription. In NIH3T3 cells, activation of SAPK by v-Src was markedly attenuated by coexpression of K185A, a catalytically inactive mutant of DLK, suggesting that this mutant could function in a dominant negative fashion in a pathway that leads from v-Src to SAPKs. In a series of co-transfection experiments, activation of p46(SAPK) by DLK was not inhibited by dominant negative mutants of Rac1 and Cdc42Hs, PAK65-R, or PAK65-A, but was attenuated by MEKK1(K432M). DLK(K185A) did not inhibit the ability of constitutively active MEKK1 to activate SAPK. Moreover, K185A significantly inhibited the activation of SAPK by constitutively active V-12 Rac1 and V-12 Cdc42Hs. These results suggest that DLK lies distal to Rac1 and/or Cdc42Hs but proximal to MEKK1 in a pathway leading from v-Src to SAPKs activation.

Novel mouse embryonic renal marker gene products differentially expressed during kidney development

Investigators approaching the problem of renal organogenesis have been hampered by a paucity of suitable molecular markers that specify distinct developmental phenotypes. To identify such markers, differential display-polymerase chain reaction (DD-PCR) was used to survey the temporal pattern of gene expression in mouse kidney at 11.5, 13.5, 15.5, and 17.5 days after conception and in the adult kidney. Twenty-two differentially expressed amplification products were identified, isolated, and sequenced. Seventeen clones showed no significant similarity with previously reported nucleotide sequences: two were similar to two housekeeping gene products, and three were similar to human or rat expressed sequence tags. To confirm the differential expression patterns observed by DD-PCR, semiquantitative reverse transcription-PCR was performed using sequence-specific oligonucleotide primers. Nineteen of 22 clones were differentially expressed during kidney development [mouse embryonic renal marker (MERM) sequences 1-19]. The value of MERMs as developmental markers was further assessed in mouse metanephric organ culture, where the pattern of MERM transcript expression mimicked that observed in vivo. Therefore, the DD-PCR method permitted development of a panel of marker sequences that can be used to characterize renal developmental processes and that may allow the identification of novel, functionally relevant gene products.

Characterization of dual leucine zipper-bearing kinase, a mixed lineage kinase present in synaptic terminals whose phosphorylation state is regulated by membrane depolarization via calcineurin

The biochemistry and regulation of dual leucine zipper bearing kinase (DLK), a member of the mixed lineage kinase or MLK subfamily of protein kinases, was examined in the nervous system. DLK transcript expression in the nervous system was predominantly neuronal. DLK protein was present in synaptic terminals where it was associated with both plasma membrane and cytosol fractions. Within these two fractions, DLK had differing characteristics. Cytosolic DLK existed in both a phosphorylated and dephosphorylated state; DLK associated with plasma membrane existed in the dephosphorylated state only. On nonreducing SDS-polyacrylamide gel electrophoresis, cytosolic DLK migrated at 130 kDa, while membrane associated DLK migrated with an apparent Mr >/= 260,000. Similarly, DLK transiently expressed in COS 7 cells autophosphorylated in vivo and migrated at approximately 260 kDa when separated by nonreducing SDS-polyacrylamide gel electrophoresis. In cotransfection experiments, FLAG-tagged DLK or a FLAG-tagged truncated DLK mutant (F-Delta520) was coimmunoprecipitated with Myc-tagged DLK and formed complexes under nonreducing conditions consistent with the conclusion that DLK formed covalently associated homodimers in overexpressing COS 7 cells. In aggregating neuronal-glial cultures, depolarization of plasma membrane lead to dephosphorylation of DLK. Treatment of aggregates with 5 nM or 200 nM okadaic acid lead to a shift in electrophoretic mobility consistent with phosphorylation of DLK. Treatment with cyclosporin A, a specific inhibitor of the calcium/calmodulin-dependent protein phosphatase 2B (calcineurin), had no effect on DLK phosphorylation under basal conditions. However, cyclosporin A completely inhibited DLK dephosphorylation upon membrane depolarization.

The retinoblastoma gene product inhibits TGF-beta1 induced apoptosis in primary rat hepatocytes and human HuH-7 hepatoma cells

Transforming growth factor-beta1 (TGF-beta1) can induce rapid growth arrest and apoptosis in hepatic cells. Its growth suppressive effects appear to be linked to decreased phosphorylation of the protein product of the retinoblastoma gene, pRb. To characterize the role of pRb in apoptosis, we examined endogenous retinoblastoma gene (Rb) expression following treatment with TGF-beta1, okadaic acid, or antisense Rb S-oligonucleotides in cultured primary rat hepatocytes and human hepatoma HuH-7 cells. We also investigated the effects on apoptosis of Rb overexpression following transfection with vectors containing wild-type Rb in HuH-7 cells. Our results indicated that transfection with Rb antisense S-oligonucleotides blocked the expression of pRb in cultured primary hepatocytes and induced apoptosis. Treatment of HuH-7 cells with TGF-beta1 inhibited expression and phosphorylation of pRb, and also induced apoptosis. Furthermore, 93% of viable preapoptotic cells were arrested in the G1 phase of the cell cycle. Incubation with the phosphatase inhibitor okadaic acid maintained pRb in its phosphorylated state, and resulted in significant apoptosis. Overexpression of wild-type Rb inhibited TGF-beta1 induced apoptosis in HuH-7 cells. In contrast, overexpression of transcription factor E2F-1, a known target for the activity of pRb, caused significant apoptosis. However, coexpression of Rb suppressed E2F-1 induced apoptosis in HuH-7 cells. Our results suggest that inhibition of pRb expression is associated with hepatocyte apoptosis. Furthermore, E2F-1 appears to be a target in the pathway through which pRb modulates the apoptotic threshold in hepatic cells. Finally, the data suggest that these cells exit the cell cycle during the G1 phase before progressing into apoptosis and pRb may be a negative regulator of this process.

Expression of OBCAM-related cDNA clones in Cos 1 cells: evidence for a phosphatidylinositol linkage to the cell membrane

Previously, our laboratory purified and isolated the cDNA for OBCAM (opioid binding cell adhesion molecule) from bovine brain, as well as highly homologous rat brain cDNA clones, SG13 and DUZ-1. Structural similarities with members of the immunoglobulin superfamily suggest a possible role for OBCAM in cell adhesion and recognition, while studies in our own laboratory suggest that OBCAM is important in the regulation of opioid binding and signal transduction. However, OBCAM lacks a putative transmembrane domain, and its possible mode of linkage to the cellular membrane has not been studied. Upon transfection of Cos 1 cells with SG13 and DUZ-1 cDNAs, the OBCAM-homologous proteins were expressed on the surface of the Cos 1 cells. These proteins were released from the membrane of the Cos 1 cells upon digestion with phosphatidylinositol-specific phospholipase C (PI-PLC), demonstrating that they are linked to the membrane via a phosphatidylinositol (PI) linkage. These results are consistent with a role for OBCAM in cell recognition and adhesion, as well as in cellular signaling.

[A comparative study on amino acids of guang horn, buffalo horn and cattle horn]

The results show that the total amino acids of three species of horns are different to a certain degree, but the composition and content distribution of these acids are similar. The composition and content of different parts of two species of ox horns are similar too.

[A comparative study on inorganic elements of guangjiao, buffalo horn and cattle horn]

Determination and comparison were made on the contents of Ca, Mg, Fe, Zn, Cu, Mn, Co and Pb in Guangjiao, buffalo horn and cattle horn. The results show that among the three species of horns there exist differences as well as similarities.