Establishment of tendon-derived cell lines exhibiting pluripotent mesenchymal stem cell-like property

Development of the musculoskeletal system requires coordinated formation of distinct types of tissues, including bone, cartilage, muscle, and tendon. Compared to muscle, cartilage, and bone, cellular and molecular bases of tendon development have not been well understood due to the lack of tendon cell lines. The purpose of this study was to establish and characterize tendon cell lines. Three clonal tendon cell lines (TT-E4, TT-G11, and TT-D6) were established using transgenic mice harboring a temperature-sensitive mutant of SV40 large T antigen. Proliferation of these cells was significantly enhanced by treatment with bFGF and TGF-beta but not BMP2. Tendon phenotype-related genes such as those encoding scleraxis, Six1, EphA4, COMP, and type I collagen were expressed in these tendon cell clones. In addition to tendon phenotype-related genes, expression of osteopontin and Cbfal was observed. These clonal cell lines formed hard fibrous connective tissue when implanted onto chorioallantoic membrane in ovo. Furthermore, these cells also formed tendon-like tissues when they were implanted into defects made in patella tendon in mice. As these tendon cell lines also produced fibrocartilaginous tissues in tendon defect implantation experiments, mesenchymal stem cell properties were examined. Interestingly, these cells expressed genes related to osteogenic, chondrogenic, and adipogenic lineages at low levels when examined by RT-PCR. TT-G11 and TT-E4 cells differentiated into either osteoblasts or adipocytes, respectively, when they were cultured in cognate differentiation medium. These observations indicated that the established tendon cell line possesses mesenchymal stem cell-like properties, suggesting the existence of mesenchymal stem cell in tendon tissue.

Possible involvement of Rap1 and Ras in glutamatergic synaptic transmission

Rap1A, first identified as a suppressor of transformed phenotype induced by an activated ras oncogene, is abundantly expressed in the brain. Its neurophysiological function, however, is poorly understood. When an activated Rap1A mutant (Rap1-12V) or a dominant negative H-Ras mutant (Ras-17N) was expressed in CA1 neurons in cultured hippocampal slices using the sindbis virus-mediated gene transfer technique, NMDA receptor current in response to Schaffer collateral stimulation was suppressed. Expression of activated H-Ras mutant (Ras-12V) resulted in the elevation of both NMDA receptor current and AMPA receptor current. These results implicate counteracting functions of Ras and Rap1 in the regulation of NMDA receptor-mediated synaptic transmission and a positive regulatory role of Ras in AMPA receptor-mediated synaptic transmission.

Hedgehog signaling enhances core-binding factor a1 and receptor activator of nuclear factor-kappaB ligand (RANKL) gene expression in chondrocytes

Hedgehog signaling is considered to play a crucial role in chondrogenesis by regulation through a network of cytokine actions, which is not fully understood. We examined the effect of hedgehog signaling on the expression of core-binding factor a1 (Cbfa1), a critical transcription factor for the development of bone and cartilage. Primary chondrocytes prepared from the costal cartilage of newborn mice were treated with N-terminal fragment of recombinant murine sonic hedgehog (rmShh-N). Northern blot analysis indicated that Cbfa1 mRNA expression levels in the chondrocyte cultures were elevated by the treatment with rmShh-N. rmShh-N treatment enhanced 1.8 kb Cbfa1 promoter activity in chondrocytes, suggesting the presence of transcriptional control. As Cbfa1-binding site(s) have been located in the promoter of the receptor activator of nuclear factor-kappaB (RANK) ligand (RANKL) gene, we also examined RANKL expression. rmShh-N treatment upregulated RANKL and RANK mRNA expression levels in chondrocytes. Interestingly, RANKL suppressed the hedgehog enhancement of alkaline phosphatase activity in chondrocytes, suggesting the presence of a link between these signaling molecules. We conclude that hedgehog signaling activates Cbfa1 gene expression through its promoter in chondrocytes, and also activates and interacts with RANKL to maintain cartilage development.

Isolation of a set of genes expressed in the choroid plexus of the mouse using suppression subtractive hybridization

The choroid plexus produces cerebrospinal fluid, providing a specialized environment for the CNS. We previously demonstrated that choroid plexus ependymal cells can enhance nerve regeneration in vivo and promote neurite outgrowth in vitro. To understand the molecular mechanisms of choroid plexus functions, we isolated genes predominantly expressed in the mouse choroid plexus using suppression subtractive hybridization. Out of the 49 complementary DNA (cDNA) fragments isolated in two types of screening, 43 matched known sequences in the database and six were novel. In one type of screening where choroid plexus cDNAs were subtracted with cerebral cortex cDNAs, transthyretin and phosphodiesterase I alpha were predominant. This is consistent with previous reports and supports the authenticity of our approach. In the other type of screening, cDNAs derived from the choroid plexus of neonatal (postnatal day 5) mice were subtracted with cDNAs from the choroid plexus of adult mice. RNA blot and/or in situ hybridization confirmed abundant expression, in the mouse choroid plexus, of the mRNA encoding gelsolin, phospholipid transfer protein, ATP-binding cassette transporter A8 (ABCA8), androgen-inducible aldehyde reductase, and Na(+)/sulfate cotransporter SUT-1. Also, one novel gene (FS88) was found to be expressed in the choroid plexus from neonatal mice. Our data suggest that the choroid plexus cells produce molecules involved in processes such as prevention of fibrillization of amyloid beta-protein (transthyretin and gelsolin), lipid metabolism (phospholipid transfer protein and ABCA8), and detoxification (androgen-inducible aldehyde reductase).

Mixed-ligand modification of polyamidoamine dendrimers to develop an effective scaffold for maintenance of hepatocyte spheroids

Compared with a monolayer culture, hepatocyte spheroids are known to maintain liver function for long periods. We found that hepatocytes formed spheroids when cultured on polyamidoamine dendrimers modified with fructose. Because galactose is a ligand for the asialoglycoprotein receptor on the hepatocyte cytoplasmic membrane, it was chosen as another ligand for modification in order to maintain adhesion of spheroids for long periods. Simultaneous modification of dendrimers with fructose and galactose had a marked effect on the time length of spheroid adhesion. Suppression of apoptosis and necrosis was observed in hepatocyte spheroids cultured on a dendrimer modified with fructose and galactose (F/G dendrimer). Moreover, the hepatocyte spheroids cultured on the F/G dendrimer had higher activities of liver-specific functions, such as urea synthesis and albumin gene expression, than did those cultured on single-ligand-modified dendrimers. The expression of heat shock protein (HSP) genes was examined to evaluate the stress response of cells to scaffolds. The hepatocytes cultured on the F/G dendrimer had very low expression levels of both HSP60 and HSP70 mRNAs. Thus immobilization of mixed-ligand-modified dendrimers could generate a suitable surface for hepatocyte spheroid formation. These dendrimers could be a powerful tool for generating custom-made scaffolds for cells other than hepatocytes by selecting the ligands suitable for each cell type.

Coordinated development of embryonic long bone on chorioallantoic membrane in ovo prevents perichondrium-derived suppressive signals against cartilage growth

Perichondrium has been shown to elicit signals to suppress differentiation and proliferation of chondrocytes during endochondral bone formation based on in vitro organ culture. However, these in vitro organ cultures did not allow the growth of bone collar, and thus the effect of perichondrium in a normal environment where development of adjacent embryonic tissues, including bone collar, is taking place has not yet been fully understood. Therefore, we examined the effect of perichondrium on cartilage development using chicken long bone organ cultures on chorioallantoic membrane in ovo, which supported bone collar development. In contrast to previous observations in in vitro organ cultures, in ovo organ cultures prevented overgrowth of epiphyseal cartilage due to the removal of perichondrium. This prevention was associated with the suppression of aggrecan gene expression in the absence of perichondrium in ovo. These results indicated that the perichondrium-derived activity that was observed in vitro to suppress cartilage development could be counterbalanced in ovo, where culture conditions are closer to those in in vivo. TUNEL assay indicated enhanced apoptosis in the presence of perichondrium in vitro, and removal of the perichondrium suppressed apoptosis. No major apoptosis was observed in ovo regardless of the presence or the absence of perichondrium. Thus, chondrogenesis in long bone could be coordinately regulated through modulation of apoptosis by perichondrium and adjacent embryonic tissues, including bone collar, as revealed in in ovo assay.

Low-dose, long-term exposures of dental material components alter human monocyte metabolism

The short-term degradation of dental polymers and alloys in biological environments has been well documented, but recent evidence indicates that oral tissues may be chronically exposed to low levels of these released components. The effect of these chronic exposures on the ability of cells to respond to a subsequent challenge is not known. To investigate this idea, we exposed human THP-1 monocytes to sublethal concentrations of HEMA, TEGDMA, Hg(2+), and Ni(2+) for 2 weeks and then assessed the monocytic response to subsequent 24-h challenge with the same components at higher concentrations. Chronic (2 week) exposures of monocytes to HEMA and both metal ions significantly altered monocyte response to short-term (24 h) secondary exposures, even when overt effects of the chronic exposures were not apparent. However, cellular responses were highly variable depending on the material and its concentrations. For TEGDMA, no effects were seen. These results demonstrate that the chronic effects of materials must be considered even when the chronic exposure has no initial overt effect. The effect on cells may only be apparent if the cell is challenged by a secondary exposure.

[Pleomorphic adenoma of the lung; report of a case]

A 67-year-old woman was admitted because of an abnormal shadow on the chest X-ray film. Chest computed tomography (CT) film revealed a peripheral mass in the middle lower lobe of the lung. We performed open lung biopsy and diagnosed as a benign epithelial adenoma but not ruled out adenocarcinoma completely by intraoperative examination of frozen sections. We operated right middle lobectomy and mediastinal lymph nodes dissections. Histological examination confirmed pleomorphic adenoma. We examined salivary glands, but didn't find the focus of that. The patient had been well for three years postoperatively.

Adiponectin stimulates glucose utilization and fatty-acid oxidation by activating AMP-activated protein kinase

Adiponectin (Ad) is a hormone secreted by adipocytes that regulates energy homeostasis and glucose and lipid metabolism. However, the signaling pathways that mediate the metabolic effects of Ad remain poorly identified. Here we show that phosphorylation and activation of the 5'-AMP-activated protein kinase (AMPK) are stimulated with globular and full-length Ad in skeletal muscle and only with full-length Ad in the liver. In parallel with its activation of AMPK, Ad stimulates phosphorylation of acetyl coenzyme A carboxylase (ACC), fatty-acid oxidation, glucose uptake and lactate production in myocytes, phosphorylation of ACC and reduction of molecules involved in gluconeogenesis in the liver, and reduction of glucose levels in vivo. Blocking AMPK activation by dominant-negative mutant inhibits each of these effects, indicating that stimulation of glucose utilization and fatty-acid oxidation by Ad occurs through activation of AMPK. Our data may provide a novel paradigm that an adipocyte-derived antidiabetic hormone, Ad, activates AMPK, thereby directly regulating glucose metabolism and insulin sensitivity in vitro and in vivo.

Defects in growth and bone metabolism in klotho mutant mice are resistant to GH treatment

Klotho mutant (kl/kl) mice exhibit growth retardation after weaning, and previous electron microscopic examination of GH-producing cells in pituitary glands revealed a reduction in GH granules. However, it has not been known whether growth retardation in klotho mutant mice is related to the loss of GH function. We therefore examined whether treatment with GH could rescue the retardation of growth. At the end of 3 weeks of treatment with human GH, the body weight of wild-type (WT) mice was increased. In contrast, body weight was not increased in klotho mutant mice even after the treatment with human GH. Another feature of klotho mutant mice is the presence of osteopetrosis in the epiphyses of long bones and vertebrae. Treatment with human GH increased trabecular bone volume in the epiphyseal region of WT tibiae. Interestingly, increase in trabecular bone volume by GH treatment was also observed in klotho mutant mice and, therefore, the phenotype of high bone volume in the klotho mice was further enhanced. These findings indicate that a GH receptor system in cancellous bones could operate in mutant mice. Thus, growth retardation in the klotho mutant mice is resistant against GH treatment even when these mice respond to GH treatment in terms of cancellous bone volume.

[Catamenial pneumothorax long-term monitored by serum levels of CA 125; report of a case]

A 46-year-old woman was admitted to our hospital because of the repeating right chest pain. Chest X-ray showed a right pneumothorax. This symptom corresponded with her mensturations and elevated serum levels of CA 125. We diagnosed catamenial pneumothorax. Hormones therapy was not performed because severe side effects. For that reason we performed thoracoscopic surgery. We found many little sized fistulas on diaphragm and blue berry spots on right upper lobe during the operation. She didn't recurrence for 2 years after that operation.

Clinical and pathologic characteristics of nontyphoidal salmonella encephalopathy

OBJECTIVE

To investigate the clinical and pathologic characteristics of primary encephalopathy caused by nontyphoidal salmonellosis (NTS).

METHODS

Case records of six Japanese hospitals from 1994 to 1999 were reviewed. Eight cases of primary NTS encephalopathy were identified based on strictly defined criteria: 1) encephalopathic feature defined as altered state of consciousness, altered cognition or personality, or seizures; 2) detection of nontyphoidal Salmonella species in stool; 3) absence of other viral or bacterial infection associated with CNS abnormalities; and 4) absence of alternative explanation by underlying neurologic or systemic disease. Three patients died, three had severe sequelae, and two recovered completely. The authors analyzed their clinical course, neurologic symptoms, and histopathologic findings.

RESULTS

NTS encephalopathy was clinically characterized by diffuse and rapidly progressive brain dysfunction and circulatory failure that developed following enteritis. There was no evidence of severe dehydration or sepsis, and encephalopathy was rarely accompanied by abnormal laboratory data, except elevated CSF opening pressure, brain edema on CT, and slow waves on EEG. Pathologic findings included minimal ischemic damage and mild edema in the brain, microvesicular fatty change of the liver, severe enterocolitis but no evidence of dehydration, and no fatal organ damage including microvasculature and endothelial cells.

CONCLUSION

Noninfectious encephalopathy associated with nontyphoidal salmonella infection is a distinctive clinical entity that can be differentiated from Reye's syndrome and Ekiri.

Components of dentinal adhesives modulate heat shock protein 72 expression in heat-stressed THP-1 human monocytes at sublethal concentrations

Few studies have investigated the ability of dental resins to induce cellular stress at sublethal concentrations. Cellular stress, especially in immune cells such as monocytes, may modulate the biological response to materials or the host's ability to respond to bacterially mediated inflammation. The current study examined the ability of sublethal concentrations of 2-hydroxylethylmethacrylate (HEMA) and triethyleneglycol dimethacrylate (TEGDMA) to induce heat shock protein 72 (HSP72) in human monocytes. HEMA and TEGDMA significantly suppressed heat-induced HSP72 expression, even at sublethal levels, but did not induce HSP72 by themselves. The results of the current study suggest that components released from dental resin could modulate the HSP stress response without altering cellular metabolic activity.

Genetic effects on fatty acid composition of carcass fat of Japanese Black Wagyu steers

Two hundred ninety-three Japanese Black Wagyu steers derived from 34 sires were used to investigate genetic effects on the fatty acid composition of carcass fat. All steers were fed identical diets for 365 d and slaughtered at similar ages. If the percentage of genetic contribution of sire A, B, or C was not lower than 25%, steers were classified into groups A, B, and C, respectively. Fatty acid compositions differed depending on deposit sites. Mean percentage of monounsaturated fatty acids (MUFA) tended to be higher in the outer parts than in the inner parts of the body. Percentage of MUFA in carcass fat was negatively correlated with withers height and BW and positively correlated with meat quality score and marbling score. Fatty acid compositions of the 34 sire groups varied, and mean percentages of MUFA in i.m. fat ranged from 47.71 to 54.77%. Steers in the C group grew larger than those in the A or B group. Mean percentages of MUFA for i.m. fat in the A, B, and C groups (52.83, 51.88, and 50.33%, respectively) differed (P < 0.05) from each other. Steers in the C group had higher (P < 0.05) percentages of saturated fatty acids than those in the A or B groups. Percentages of genetic contribution of sires B (P < 0.05) and C (P < 0.001) were negatively correlated with percentage of MUFA in i.m. fat. These results suggested that genetic factors affected fatty acid composition of carcass fat in Japanese Black Wagyu cattle and that some sires had potent genetic factors affecting this composition.

Ag, Cu, Hg and Ni ions alter the metabolism of human monocytes during extended low-dose exposures

The monocyte and macrophage play an important role in the biological response to dental biomaterials. However, the effects of low-level, extended exposures of monocytes to metal ions which are known to be released from dental alloys is not known. Thus, in the current study we characterized the metabolic activity of monocytes in the presence of low doses of Ag, Cu, Hg and Ni ions for up to 4 weeks. THP-1 human monocytes were exposed in vitro to concentrations of metal ions at 1-10% of those known to be lethal during 24 h exposures. Mitochondrial function [succinic dehydrogenase (SDH) activity] and total cellular protein [bicinchoninic acid (BCA) assay] were assessed at weekly intervals during metal exposure. Each metal ion caused a unique pattern of effects from the monocytes. These effects were sometimes delayed until several weeks into the exposure (Cu, Ni). Large increases in total protein or SDH activity per cell were observed (Cu 150%, Hg 40-60%, Ni 50%), but these increases were always transient. The differences between concentrations with minimal effects and those which were lethal (8 versus 12 micromol L(-1) for Ag, 1.0 versus 1.5 micromol L(-1) for Hg) were small. Finally, concentrations which caused total suppression of cellular activity were sometimes preceded by an increased activity (Hg, Ni). We concluded that metal ions alter monocyte metabolic activity during extended exposures in vitro, but that the concentrations required are often near long-term lethal levels. Clinically, these results imply that the levels of metals released from dental alloys may be significant to monocytic function.

The membrane-anchored MMP inhibitor RECK is a key regulator of extracellular matrix integrity and angiogenesis

Matrix metalloproteinases (MMPs) are essential for proper extracellular matrix remodeling. We previously found that a membrane-anchored glycoprotein, RECK, negatively regulates MMP-9 and inhibits tumor invasion and metastasis. Here we show that RECK regulates two other MMPs, MMP-2 and MT1-MMP, known to be involved in cancer progression, that mice lacking a functional RECK gene die around E10.5 with defects in collagen fibrils, the basal lamina, and vascular development, and that this phenotype is partially suppressed by MMP-2 null mutation. Also, vascular sprouting is dramatically suppressed in tumors derived from RECK-expressing fibrosarcoma cells grown in nude mice. These results support a role for RECK in the regulation of MMP-2 in vivo and implicate RECK downregulation in tumor angiogenesis.

Activated Ras modifies the proliferative response of rheumatoid synovial cells to TNF-alpha and TGF-alpha

OBJECTIVE

To study the role of the Ras/mitogen-activated protein kinase (MAPK) pathway in the proliferative response of rheumatoid synovial fibroblast (RSF) to tumor necrosis factor (TNF)-alpha and transforming growth factor (TGF)-alpha.

METHODS

V-Ki-ras gene was introduced into RSF using a retrovirus and the proliferative response of these cells to TNF-alpha or TGF-alpha was estimated by measuring the uptake of 3H-thymidine. The effect of a mitogen-activated protein kinase kinase (MEK) inhibitor, PD98059, was also investigated.

RESULTS

Consistent with previous reports, TNF-alpha and TGF-alpha stimulated the proliferation of RSF. When the v-Ki-ras gene was expressed, the basal growth rate of these cells was increased, but their growth was suppressed by TNF-alpha or TGF-alpha. The latter effect was abolished when the cells were exposed to a relatively low concentration of PD98059.

CONCLUSION

Ras modulates the proliferative response of RSF to TNF-alpha and TGF-alpha.

Roles of septins in the mammalian cytokinesis machinery

Septins comprise a eukaryotic guanine nucleotide binding protein subfamily which form filamentous heteropolymer complexes. Although mechanism of cytokinesis is diverged by species and tissues, loss of septin function results in the multinuclear phenotype in many organisms. Hence septin filaments beneath the cleavage furrow are hypothesized as a structural basis to ensure completion of cytokinesis. However, molecular mechanisms of septin assembly, disassembly and function have been elusive despite the potential importance of this ubiquitous cytoskeletal system. Meanwhile, growing evidence suggests that mammalian septins functionally or physically interact with diverse molecules such as actin, actin-binding proteins, proteins of membrane fusion machinery, Cdc42 adapter proteins, a ubiquitin-protein ligase, and phosphoinositides. Careful integration of these data may provide insights into the mechanism of mammalian septin organization and functions in cytokinesis.

Organ-specific autoimmunity in mice whose T cell repertoire is shaped by a single antigenic peptide

Organ-specific autoimmune diseases have been postulated to be the result of T cell response against organ-specific self-peptides bound to MHC molecules. Contrary to this paradigm, we report here that transgenic mice lacking MHC class I expression and expressing an MHC class II I-A(b) molecule that presents only a single peptide (E alpha 52-68) spontaneously develops peripheral nervous system-specific autoimmune disease with many of the histopathological features found in experimental allergic neuritis. Reciprocal bone marrow chimeras produced using susceptible and resistant lines revealed that bone marrow-derived cells determined disease susceptibility. While the expression of the I-A(b)-E alpha 52-68 complex in the periphery was readily detectable in both lines, its expression on thymic dendritic cells responsible for tolerance induction was markedly lower in the susceptible line than in the resistant line. Consistent with this, CD4(+) T cells that can be activated by the I-A(b)-E alpha 52-68 complex were found in the susceptible line, but not in the resistant line. Such CD4(+) T cells conferred the disease to the resistant line by adoptive transfer, and administration of Ab specific for the I-A(b)-E alpha 52-68 complex inhibited disease manifestation in the susceptible line. These results indicate that disease development involves systemic T cell reactivity to I-A(b)-E alpha 52-68 complex, probably caused by incomplete negative thymocyte selection.

An inhibitory factor for cell-free protein synthesis from Salmonella enteritidis exhibits cytopathic activity against Chinese hamster ovary cells

A factor inhibiting cell-free protein synthesis was purified from Salmonella enteritidis cell lysate by sequential ammonium sulfate precipitation, chromatography on anion exchange and hydrophobic interaction columns, and polyacrylamide disc gel electrophoresis. The purified factor, which was named SIPS (Salmonella inhibitor of protein synthesis), inhibited in vitro protein synthesis in rabbit reticulocyte lysate and had a molecular mass of 38 kDa, estimated by PAGE under denaturing conditions. SIPS was also cytopathic for Chinese hamster ovary cells. The N-terminal amino acid sequence (20 residues) of SIPS was found to be identical to that of mature L-asparaginase II of Escherichia coli. Indeed, the purified SIPS exhibited asparaginase activity, E. coli L-asparaginase II had cytopathic activity and inhibited in vitro protein synthesis. The results suggest that at least a part of cytotoxicity and inhibition of cell-free protein synthesis caused by S. enteritidis is a property of the bacterial L-asparaginase.

Intra-articular nodular fasciitis

The authors describe a case of intra-articular nodular fasciitis of the knee in a 49-year-old man. The lesion arose from the posterior joint capsule of the knee and protruded into the femoral intercondylar notch. Histologic findings of the excised lesion were consistent with those of nodular fasciitis. Immunohistochemical and electron microscopic studies revealed a myofibroblastic proliferation. Surgical excision of the lesion was curative. A careful search of the literature revealed no case in which nodular fasciitis occurred in a joint in the extremities.

[Successful non-invasive positive pressure ventilation therapy to acute respiratory failure after volume reduction surgery for patient with severe emphysema: report of a case]

A 55-year-old man consulted our hospital because of short of breath. Chest CT showed low attenuation areas and we diagnosed his illness as a chronic respiratory failure by chronic lung empysema. He was perfomed bilateral lung volume reduction surgery (VRS), after a few days who was in serious acute respiratory failure. He was treated by non-invasive positive pressure ventilation (NIPPV) for those. After that general condition and arterial blood gas data was improved. NIPPV may be one of the effective tools for acute respiratory failure after VRS.

Editorial: grieving over complications associated with neuro-endovascular treatment

SUMMARY

Neuro-endovascular therapy is regarded as one of the greatest achievements of modern medicine because of its effectiveness and low-invasiveness in the treatment of difficult neurovascular diseases. On the other side of the coin however, occasionally complications may occur which not only have a profound neurological effect, but also have a severe effect on the vital prognosis. The nightmare of a neuro-endovascular therapist is a catastrophe resulting from a preventive treatment for an asymptomatic or minimally symptomatic patient with a potentially dangerous disease. Therefore, grave psychic distress tends to occur on both sides of the patient-doctor relationship. Once severe complications occur, we have simultaneously to take care of not only the psychic trauma of a patient and/or family but also our own psychic trauma. If treatment is not appropriate, we might invite malpractice suits or end up in occupational burnout. In order to study the adaptive mechanisms that allow our continued survival in this new specialty of medicine, we administered a questionnaire survey to members of the Japanese Society of Neuro-endovascular Treatment. 51 % of 300 respondents stated that they haa been the targets of severe recriminations by patients and/or families as a result of complications. 284 respondents had multiple (2.5 on average) signs and symptoms of psychic trauma. Also 23% of respondents were unable to continue the clinical practice of neuro-endovascular therapy or resorted to conservative treatment. Only 7% of respondents had medical curriculum or residency program training on the psychological problems of complications. There is no systematic approach to education regarding physician grief in clinical practice. Many respondents tend to focus their attention solely on the details of failed interventional procedures and repeatedly "undo" actions and relive past events. However, the study showed that intellectualization of the tragic experiences without accepting and working through grief only adds to the physician's grief The correlation was evaluated between the respondents' initial response to grieving and their change of attitude regarding their ability or willingness to performing the procedure after they had experienced devastating complications. It may be said that by facing the emotional truths of responsibility and grief, physicians can develop the ability to empathize with patients and their families. Mention is also made of the patient-doctor relationship, medical education, and the relationship with fellow physicians and medical lawsuits.

Borg proteins control septin organization and are negatively regulated by Cdc42

The Cdc42 GTPase binds to numerous effector proteins that control cell polarity, cytoskeletal remodelling and vesicle transport. In many cases the signalling pathways downstream of these effectors are not known. Here we show that the Cdc42 effectors Borg1 to Borg3 bind to septin GTPases. Endogenous septin Cdc10 and Borg3 proteins can be immunoprecipitated together by an anti-Borg3 antibody. The ectopic expression of Borgs disrupts normal septin organization. Cdc42 negatively regulates this effect and inhibits the binding of Borg3 to septins. Borgs are therefore the first known regulators of mammalian septin organization and provide an unexpected link between the septin and Cdc42 GTPases.

[The meaning of phosphate in bone formation]

Bone formation requires phosphate to calcify the osteoid produced by osteoblasts, Pit-1, a natrium-phosphate cotransporter, is expressed in osteoblasts and its expression levels are regulated developmentally and also by hormones and cytokines. Another type of phosphate transporter is expressed in osteoclasts and its function is required for bone resumption. These observations suggest that phosphate transport into the bone cells may play a role in regulation of bone formation and resorption in vivo and in the pathological situation in patients with bone diseases.

Bone morphogenetic protein regulation of forkhead/winged helix transcription factor Foxc2 (Mfh1) in a murine mesodermal cell line C1 and in skeletal precursor cells

Mfh1/Foxc2 is a member of forkhead/winged helix transcription factor family in which its members serve as key regulators in embryogenesis and cell differentiation in various species. Mutant mice null for Mfh1 show defects in axial and cranial skeletogenesis, suggesting requirement of Mfh1 for skeletal tissue development. However, the roles of Mfh1 and its regulation during early skeletogenesis have not been understood fully yet. In this study, we investigated developmental regulation of Mfh1 expression during embryonic skeletogenesis in vivo and in vitro chondrogenic cell differentiation using a mesodermal progenitor-like cell line C1. We first examined expression patterns of Mfh1 in relation to the cartilage phenotype-related molecules including bone morphogenetic proteins (BMPs) during mouse embryogenesis by in situ hybridization. In 10.5 days postcoitum (dpc) mouse limb, Mfh1 messenger RNA (mRNA) was expressed in the mesenchymal cells in the tissues that later give rise to skeleton. In 11.5 dpc embryos, Mfh1 transcripts were expressed in the cell condensation of skeletal blastemas. BMP2 transcripts were expressed in the cell condensation proximal to the Mfh1-expressing cells in the limbs and those of BMP-7 were expressed in the mesenchymal tissue surrounding the Mfh1-positive cell condensation. In 12.5 dpc and 13.5 dpc embryos, the expression of Mfh1 was localized to the perichondrium, which surrounds cells that express noggin and SOX9 mRNA. BMP-2 expression was overlapped with that of Mfh1 in the peripheral layer of 12.5 dpc and 13.5 dpc limb skeletal blastemas. Mfh1 expression persisted in the perichondrium of 15.5 dpc embryos though its level was reduced. We then examined the expression of Mfh1 in the mouse mesodermal cell line C1 that differentiates into chondrocytes in vitro. Mfh1 mRNA was expressed constitutively at low levels in C1 cells before the induction of its differentiation. On the differentiation of C1 cells into chondrocytes by the treatment with dexamethasone (Dex), Mfh1 expression was increased and peaked on day 4 of Dex treatment. Treatment with BMP-4/7 and BMP-7 protein also enhanced Mfh1 expression in C1 cells. To further examine the causative relationship between BMP and Mfh1 in mesenchymal tissue, we performed a mouse limb bud organ culture to implant BMP proteins with carriers into the mesenchymal tissue of the limb bud. Implantation of BMP-7 protein in the limb bud of 11.5 dpc embryos induced Mfh1 expression, suggesting that BMP regulates Mfh1 expression in limb mesenchyme. These results indicate that Mfh1 expression is associated with the early stage of chondrogenic differentiation both in vivo and in vitro and that BMPs regulate Mfh1 expression in skeletal precursor cells.

Optimal starting time for flutamide to prevent disease flare in prostate cancer patients treated with a gonadotropin-releasing hormone agonist

OBJECTIVE

Flare-up phenomena, such as an increase in prostate-specific antigen (PSA) and/or deterioration of symptoms, are observed in some patients undergoing gonadotropin-releasing hormone (GnRH) agonist therapy. This study was carried out to determine the optimal time for starting the administration of flutamide to prevent flare-up phenomena.

PATIENTS AND METHODS

Twenty-six patients with prostate cancer and elevated serum levels of PSA were randomly assigned to 5 groups. Group A patients (n = 6) were treated with a subcutaneous injection of 3.75 mg leuprorelin acetate depot alone. Group B, C, D and E patients (5 patients in each group) were treated with 375 mg/day of orally administered flutamide combined with leuprorelin. Flutamide was initiated on the day of leuprorelin injection in group B, and at 1, 2 and 4 weeks before leuprorelin injection in groups C, D and E, respectively. Serum PSA and testosterone levels were measured in each patient.

RESULTS

Pretreatment with flutamide increased the serum testosterone level, but the testosterone surge after leuprorelin administration was almost the same in all 5 treatment groups. In patients who had been treated with flutamide in combination with leuprorelin, the mean PSA level did not exceed the pretreatment levels after leuprorelin administration. The rate of decrease in PSA in the group receiving simultaneous administration of flutamide with leuprorelin showed a decline comparable to that during the period before leuprorelin administration in the flutamide pretreatment groups.

CONCLUSION

Simultaneous administration of flutamide with a GnRH agonist is sufficient to prevent flare-up phenomena.

Transcriptional suppression of Sox9 expression in chondrocytes by retinoic acid

SOX9 is a transcription factor that is expressed in chondrocytes and regulates expression of chondrocyte phenotype related genes. Expression of these genes is known to be suppressed by retinoic acid (RA). We, therefore, examined whether the Sox9 gene expression is regulated by RA in chondrocytes. RA treatment suppressed Sox9 mRNA expression in primary chondrocytes prepared from newborn mouse rib cartilage within 12 h and this suppression lasted at least up to 24 h. The RA suppression of Sox9 mRNA levels was dose-dependent starting at 0.5 microM with a maximum at 1 microM. Nuclear run-on assays revealed that RA reduced the rate of transcription of Sox9 gene. Finally, Western blot analysis indicated that RA suppressed SOX9 protein levels in these chondrocytes. Furthermore, overexpression of SOX9 reversed RA suppression of Col2a1 enhancer activity. These observations indicate that RA suppresses Sox9 gene expression in chondrocytes at least in part through transcriptional events. J. Cell. Biochem. Suppl. 36: 71-78, 2001.

[Pneumatosis intestinalis after allogeneic bone marrow transplantation for acute lymphocytic leukemia]

A 45-year-old man was diagnosed as having acute lymphocytic leukemia (ALL) in February 1997. Complete remission was achieved by chemotherapy, and allogeneic BMT from his HLA-identical sister was performed on November 13, 1997. He developed acute GVHD (grade II), but quickly recovered after methyl-PSL pulse therapy. On June 5, 1998--day 202 after BMT--abdominal pain developed. X-ray and CT examinations showed pneumatosis intestinalis, pneumoperitoneum, pneumomediastinum and abdominal free air. We performed oxygen administration and methyl-PSL pulse therapy, and this quickly improved the symptoms. Corticosteroid and chronic GVHD were thought to be the causative factors of pneumatosis intestinalis in this case. Although pneumatosis intestinalis is relatively rare, it is one of the important potential complications that can occur after allogeneic BMT.

Haematopoietic cell-specific CDM family protein DOCK2 is essential for lymphocyte migration

Cell migration is a fundamental biological process involving membrane polarization and cytoskeletal dynamics, both of which are regulated by Rho family GTPases. Among these molecules, Rac is crucial for generating the actin-rich lamellipodial protrusion, a principal part of the driving force for movement. The CDM family proteins, Caenorhabditis elegans CED-5, human DOCK180 and Drosophila melanogaster Myoblast City (MBC), are implicated to mediate membrane extension by functioning upstream of Rac. Although genetic analysis has shown that CED-5 and Myoblast City are crucial for migration of particular types of cells, physiological relevance of the CDM family proteins in mammals remains unknown. Here we show that DOCK2, a haematopoietic cell-specific CDM family protein, is indispensable for lymphocyte chemotaxis. DOCK2-deficient mice (DOCK2-/-) exhibited migration defects of T and B lymphocytes, but not of monocytes, in response to chemokines, resulting in several abnormalities including T lymphocytopenia, atrophy of lymphoid follicles and loss of marginal-zone B cells. In DOCK2-/- lymphocytes, chemokine-induced Rac activation and actin polymerization were almost totally abolished. Thus, in lymphocyte migration DOCK2 functions as a central regulator that mediates cytoskeletal reorganization through Rac activation.

In vivo determination of muscle viscoelasticity in the human leg

The purpose of this study was to examine the methodological validity of the free vibration technique for determining individual viscoelastic characteristics of the human triceps surae muscle-tendon complex (MTC) in vivo. Six subjects sat with first phalangeal joint of the forefoot on the edge of a force-plate. The special frame on the knee was loaded with weight (0-40 kg) for testing. Oscillations of the triceps surae MTC system were initiated with a hand-held hammer by tapping the weight. In order to keep the same posture, the output of the force plate was displayed on the oscilloscope and subjects were asked to maintain the beam on the oscilloscope at a particular location in relation to a reference line. The damped oscillations in conjunction with the equation of motion of a damped mass-spring model were used to calculate the viscosity of muscle (b) and the elasticity of muscle fibres and tendon (k) in each subject, considering moment arm of the ankle joint. With this arrangement, we have obtained high reproducibility in this method. The coefficient of variations (CVs) of b and k in five trials at each weight were quite small (range: 0.5-18.7% in b and 1.0-15.1% in k). There were no significant differences in viscoelastic coefficients between right and left legs. Therefore, it appears that free vibration technique, used here, is adequate in describing the viscoelastic characteristics of the triceps surae in vivo in humans.

Importance of standardization of hemoglobin A1c in the analysis of factors that predict hemoglobin A1c levels in non-diabetic residents of three distinct areas of Japan

We performed a statistical analysis to elucidate effects of standardized measurement of hemoglobin A1c (HbA1c) on analysis of factors that affect HbA1c values. Subjects were participants in the Japan Public Health Center-based Prospective Study on Cancer and Cardiovascular Diseases, and a total of 1789 men and 3150 women in three distinct areas who did not have overt diabetes (HbA1c> or =6.1% or prior diagnosis) were analyzed. A different method of HbA1c assay was used in each area: high-performance liquid chromatography in one area and a different immunochemical method in each of the other two areas. Then, calibration of HbA1c was performed using two HbA1c standards (5.5 and 10.5%) provided by the Japan Diabetes Society. Analysis of co-variance was performed separately in men and women. When raw HbA1c data were used as the outcome, 'area', which represents differences in assay systems, lifestyles, etc. had a significant effect on HbA1c levels. When calibrated HbA1c data were used, however, 'area' was no longer a significant factor. In the latter analysis, age and BMI were the principal contributors to HbA1c, and parental history of diabetes had a weak effect in women. Thus, standardization of HbA1c reduced the difference between assay systems, and uncovered two common factors to determine HbA1c levels.

Soluble forms of NCAM and F3 neuronal cell adhesion molecules promote Schwann cell migration: identification of protein tyrosine phosphatases zeta/beta as the putative F3 receptors on Schwann cells

Neural cell adhesion molecule (NCAM) and F3 are both axonal adhesion molecules which display homophilic (NCAM) or heterophilic (NCAM, F3) binding activities and participate in bidirectional exchange of information between neurones and glial cells. Engineered Fc chimeric molecules are fusion proteins that contain the extracellular part of NCAM or F3 and the Fc region of human IgG1. Here, we investigated the effect of NCAM-Fc and F3-Fc chimeras on Schwann cell (SC) migration. Binding sites were identified at the surface of cultured SCs by chimera coated fluorospheres. The functional effect of NCAM-Fc and F3-Fc binding was studied in two different SC migration models. In the first, migration is monitored at specific time intervals inside a 1-mm gap produced in a monolayer culture of SCs. In the second, SCs from a dorsal root ganglion explant migrate on a sciatic nerve cryosection. In both systems addition of the chimeras significantly increased the extent of SC migration and this effect could be prevented by the corresponding anti-NCAM or anti-F3 blocking antibodies. Furthermore, antiproteoglycan-type protein tyrosine phosphatase zeta/beta (RPTPzeta/beta) antibodies identified the presence of RPTPzeta/beta on SCs and prevented the enhancing effect of soluble F3 on SC motility by 95%. The F3-Fc coated Sepharose beads precipitated RPTPzeta/beta from SC lysates. Altogether these data point to RPTPzeta/beta is the putative F3 receptor on SCs. These results identify F3 and NCAM receptors on SC as potential mediators of signalling occurring between axons and glial cells during peripheral nerve development and regeneration.

Diphtheria toxin receptor-mediated conditional and targeted cell ablation in transgenic mice

Specific cell ablation is a useful method for analyzing the in vivo function of cells. We have developed a simple and sensitive method for conditional cell ablation in transgenic mice, called "toxin receptor-mediated cell knockout." We expressed the diphtheria toxin (DT) receptor in transgenic mice using a hepatocyte-specific promoter and found that injection of DT caused fulminant hepatitis. Three independently established transgenic lines demonstrated a good correlation between the sensitivity of hepatocytes to DT and the expression level of the DT receptors. Moreover, the degree of hepatocyte damage was easily controlled over a wide range of doses of injected DT without any obvious abnormalities in other cells or tissues. This system is useful for generating mouse models of disease and for studying the recovery or regeneration of tissues from cell damage or loss. As DT is a potent inhibitor of protein synthesis in both growing and non-growing cells, the method is applicable to a wide range of cells and tissues in mice or in other DT-insensitive animals.

A missense mutation of the Na+ channel alpha II subunit gene Na(v)1.2 in a patient with febrile and afebrile seizures causes channel dysfunction

Generalized epilepsy with febrile seizures plus (GEFS+), a clinical subset of febrile seizures (FS), is characterized by frequent episodes beyond 6 years of age (FS+) and various types of subsequent epilepsy. Mutations in beta1 and alpha(I)-subunit genes of voltage-gated Na(+) channels have been associated with GEFS+1 and 2, respectively. Here, we report a mutation resulting in an amino acid exchange (R188W) [corrected] in the gene encoding the alpha-subunit of neuronal voltage-gated Na(+) channel type II (Na(v)1.2) in a patient with FS associated with afebrile seizures. The mutation R188W [corrected] occurring on Arg(187), a highly conserved residue among voltage-gated Na(+) channels, was not found in 224 alleles of unaffected individuals. Whole-cell patch clamp recordings on human embryonic kidney (HEK) cells expressing a rat wild-type (rNa(v)1.2) and the corresponding mutant channels showed that the mutant channel inactivated more slowly than wild-type whereas the Na(+) channel conductance was not affected. Prolonged residence in the open state of the R188W [corrected] mutant channel may augment Na(+) influx and thereby underlie the neuronal hyperexcitability that induces seizure activity. Even though a small pedigree could not show clear cosegregation with the disease phenotype, these findings strongly suggest the involvement of Na(v)1.2 in a human disease and propose the R188W [corrected] mutation as the genetic defect responsible for febrile seizures associated with afebrile seizures.

Ventroptin: a BMP-4 antagonist expressed in a double-gradient pattern in the retina

In the visual system, the establishment of the anteroposterior and dorsoventral axes in the retina and tectum during development is important for topographic retinotectal projection. We identified chick Ventroptin, an antagonist of bone morphogenetic protein 4 (BMP-4), which is mainly expressed in the ventral retina, not only with a ventral high-dorsal low gradient but also with a nasal high-temporal low gradient at later stages. Misexpression of Ventroptin altered expression patterns of several topographic genes in the retina and projection of the retinal axons to the tectum along both axes. Thus, the topographic retinotectal projection appears to be specified by the double-gradient molecule Ventroptin along the two axes.

Spontaneous regression over a 16-year period of tachyarrhythmias to sick sinus syndrome and complete atrioventricular block in a young patient with Ebstein's anomaly

A 25-year-old man with Ebstein's anomaly showed spontaneous regression of tachyarrhythmias to sick sinus syndrome and complete atrioventricular block over a 16-year period. This is the first clinical report supporting the hypothesis that abnormal cell death might contribute to the disturbance of the heart conduction system in Ebstein's anomaly.

Chronic cerebral hypoperfusion induces MMP-2 but not MMP-9 expression in the microglia and vascular endothelium of white matter

White matter lesions are closely associated with cognitive impairment and motor dysfunction in the aged. To explore the pathophysiology of these lesions, the authors examined the expression of matrix metalloproteinase-2 (MMP-2) and MMP-9 in the white matter in a rat model of chronic cerebral hypoperfusion. After bilateral clipping of the common carotid arteries, myelin staining revealed demyelinating changes in the optic tract and the corpus callosum on day 7. Zymographic analyses indicated an increase in the level of MMP-2, but not MMP-9, after the hypoperfusion. Immunohistochemical analyses revealed the presence (most abundantly on day 3) of MMP-2-expressing activated microglia in the optic tract and corpus callosum. In contrast, the capillary endothelial cells expressed MMP-2 later. IgM-immunoreactive glial cells were absent in the sham-operated animals, but were present in the hypoperfused animals by day 3, reflecting the disrupted blood-brain barrier. These findings suggest that the main sources of the elevated MMP-2 were the microglia and the endothelium, and that these cells may contribute to the remodeling of the white matter myelin and microvascular beds in chronic cerebral hypoperfusion.

Acute encephalopathy associated with nontyphoidal salmonellosis

The importance of an acute encephalopathy associated with nontyphoidal salmonellosis has recently been recognized, but the disease entity has been poorly established. In this study, we describe two encephalopathic patients associated with nontyphoidal salmonellosis. The patients exhibited a rapid evolution of coma after the onset of lethargy or seizure. Fever and diarrhea due to salmonellosis preceded these events. Secondary factors inducing encephalopathies, such as severe dehydration, sepsis, meningitis, electrolyte or metabolic disturbances, acute renal failure, and multiple organ failure, were excluded in the differential diagnosis at the onset of encephalopathic features. These clinical findings and rapid development of encephalopathic features from localized intestinal infection without any significant abnormalities in a variety of blood tests may suggest a toxic etiology. However, endotoxin was not found in serum from both patients. From these results, we conclude that nontyphoidal salmonellosis can cause a toxic encephalopathy syndrome, like shigellosis or verocytotoxin-producing Escherichia coli infection.

The in vitro cytotoxicity of eluates from dentin bonding resins and their effect on tyrosine phosphorylation of L929 cells

OBJECTIVES

The aim of this study was to examine the relationship between the monomers eluted from dentin-bonding systems and their cytotoxicities, and to investigate the biochemical effect of the monomers on tyrosine phosphorylation, especially relating to the cell growth activity, of L929 cells in vitro.

METHODS

The primers, uncured or cured adhesives (3M and Kuraray) were tested to determine the cytotoxicity of confluent L929 cells cultured by Eagle's MEM medium supplemented with 10% FCS. The area of cells affected by the eluted monomers were evaluated with an image analyzer and the concentrations of monomers eluted into the medium were measured with high performance liquid chromatography (HPLC) after 24h incubation. The protein composition of the stimulated cells was compared by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and tyrosine phosphorylation was detected by Western blot.

RESULTS

The primer and uncured adhesives revealed variable cytotoxicities. 2-hydroxyethyl-methacrylate (HEMA) was the major component eluted from uncured primers and adhesives. Small amounts of triethylene glycol dimethacrylate (TEGDMA) were also detected from the uncured adhesives. The cytotoxicities of the adhesives decreased as photo activation time increased. The amount of monomers eluted from the cured adhesives was almost undetectable and did not reach a sufficient concentration to suppress cell viability or cell growth. The cytotoxicities of the primers and adhesives correlated well with the amounts of either HEMA or TEGDMA eluted. Moreover, a high concentration of HEMA (4 mg/ml medium) affected intracellular tyrosine phosphorylation, which is related to cellular activities.

SIGNIFICANCE

Although the monomers present in dentin bonding resins are cytotoxic to L929 cells, the amount from cured bonding resin is very small and does not provide a cytotoxic dose. This data does however suggest that clinical exposure to the uncured primers and adhesives of dentin bonding resins should be minimized.

Involvement of ADP-ribosylation factor 1 in cholera toxin-induced morphological changes of Chinese hamster ovary cells

ADP-ribosylation factor 1 (ARF1) was originally found as a cofactor in CT-catalyzed ADP-ribosylation of Galpha(s) but is now known to participate in vesicle trafficking. We asked whether ARF1 function in vesicular trafficking is necessary for CT-induced morphological changes in Chinese hamster ovary (CHO) cells, which result from increased intracellular cAMP. Brefeldin A treatment of cells suppressed CT action, confirming a requirement for Golgi integrity. Overexpression of a GFP-ARF1 fusion protein did not affect the morphological changes induced by CT, but changes were reduced in cells overexpressing guanine nucleotide exchange-defective ARF1(T31N) or GTP hydrolysis-deficient ARF1(Q71L) mutants. In cells expressing these mutants, 8-bromo-cAMP induced changes similar to those seen in cells transfected with ARF1 or vector. Inhibition of CT action was specific for mutants of ARF1 and not reproduced by analogous mutants of ARF5 or ARF6. ARF1(Q71L) was mostly colocalized with betaCOP, but ARF5(Q71L) less so. ARF6(Q67L) did not colocalize with betaCOP and was partially associated with the plasma membrane. These data are consistent with the conclusion that ARF1 influenced CT action in cells by its specific function in the vesicular transport pathway used by CT to travel from plasma membrane to Golgi to ER.

Identification of human endomucin-1 and -2 as membrane-bound O-sialoglycoproteins with anti-adhesive activity

Using a signal sequence trap method and database search, we identified a series of human cDNAs encoding two structurally related type I membrane proteins of approximately 25 kDa with multiple glycosylation motifs. These genes, termed endomucin-1/-2, are expressed in several human tissues including heart, kidney, and lung. Exogenously expressed human endomucin-1/-2 proteins were modified into 80-120 kDa glycoproteins, which were susceptible to O-sialoglycoprotein endopeptidase digestion. Transient overexpression of endomucin-1/-2 reduced the number of adhesion plaques and reduced cell attachment to the substrate. This phenotype was suppressed by laminin or the protein kinase inhibitor staurosporine. Our findings suggest that human endomucin-1/-2 negatively regulate cell adhesion to the extracellular matrix.

Identification of GIT1/Cat-1 as a substrate molecule of protein tyrosine phosphatase zeta /beta by the yeast substrate-trapping system

We used a genetic method, the yeast substrate-trapping system, to identify substrates for protein tyrosine phosphatases zeta (PTPzeta/RPTPbeta). This method is based on the yeast two-hybrid system, with two essential modifications: conditional expression of protein tyrosine kinase v-src (active src) to tyrosine-phosphorylate the prey proteins and screening by using a substrate-trap mutant of PTPzeta (PTPzeta-D1902A) as bait. By using this system, several substrate candidates for PTPzeta were isolated. Among them, GIT1/Cat-1 (G protein-coupled receptor kinase-interactor 1/Cool-associated, tyrosine-phosphorylated 1) was examined further. GIT1/Cat-1 bound to PTPzeta-D1902A dependent on the substrate tyrosine phosphorylation. Tyrosine-phosphorylated GIT1/Cat-1 was dephosphorylated by PTPzeta in vitro. Immunoprecipitation experiments indicated that PTPzeta-D1902A and GIT1/Cat-1 form a stable complex also in mammalian cells. Immunohistochemical analyses revealed that PTPzeta and GIT1/Cat-1 were colocalized in the processes of pyramidal cells in the hippocampus and neocortex in rat brain. Subcellular colocalization was further verified in the growth cones of mossy fibers from pontine explants and in the ruffling membranes and processes of B103 neuroblastoma cells. Moreover, pleiotrophin, a ligand for PTPzeta, increased tyrosine phosphorylation of GIT1/Cat-1 in B103 cells. All these results indicate that GIT1/Cat-1 is a substrate molecule of PTPzeta.

Effects of chronic alcohol consumption on hepatic poly-ADP-ribosylation in the rat

BACKGROUND

Poly-adenosine diphosphate (ADP)-ribosylation is involved in a variety of biological processes, which include DNA repair, malignant transformation, and apoptosis. It is of interest how this reaction is altered after long-term alcohol intake. Therefore, we determined long-term alcohol effects on hepatic poly-ADP-ribosylation in the rat.

METHODS

Male Sprague Dawley(R) rats (four pairs) were pair-fed a nutritionally adequate liquid diet that contained ethanol as 36% of total energy and an isocaloric control diets for 4 weeks. Liver tissue homogenates and nuclear fractions were subjected to ADP-ribosylation with [32P]nicotinamide adenine dinucleotide. The ADP-ribosylated proteins were separated by SDS-PAGE, followed by autoradiography. Expression of poly-ADP-ribose polymerase (PARP) also was evaluated by Western blotting.

RESULTS

Incubation of rat liver homogenates in ADP-ribosylation reaction mixture resulted in a radiolabeling of a 116 kDa protein, most likely auto-ribosylation of PARP. This poly-ADP-ribosylation was increased significantly (p < 0.025) after long-term alcohol intake. This alcohol effect was reproducible in nuclear fractions as well. Expression levels of PARP, however, were comparable between alcohol-fed rats and their pair-fed controls.

CONCLUSION

Poly-ADP-ribosylation, an important posttranslational modification of nuclear proteins, was increased significantly after chronic alcohol consumption in the rat.

Construction and expression of an enzymatically active form of PECAM-1 containing the phosphatase domain of the protein tyrosine phosphatase, SHP-2

Platelet endothelial cell adhesion molecule-1 (PECAM-1; CD31) is a 130-kDa transmembrane glycoprotein that is expressed on the surfaces of platelets, endothelial cells, and certain leukocyte subsets. The extracellular region of PECAM-1 contains six immunoglobulin homology domains, two of which (domains 1 and 2) mediate PECAM-1 homophilic interactions. Recent evidence suggests that a major function of the extracellular region of PECAM-1 is to determine its localization within the plane of the plasma membrane. The cytoplasmic domain of PECAM-1 contains an immunoreceptor tyrosine-based inhibitory motif that, upon tyrosine phosphorylation, supports recruitment of the Src homology 2 domain-containing protein tyrosine phosphatase, SHP-2. However, neither the targets of this PECAM-1/SHP-2 complex nor the significance of localizing SHP-2 to the borders of opposing PECAM-1-expressing cells is yet known. As a first step in addressing these issues, we designed a cDNA encoding a chimeric protein composed of the PECAM-1 extracellular domain fused to the phosphatase domain of SHP-2, which we call PECAM-1/PhD2. When immunopurified from stably transfected HEK293 cell lines expressing this recombinant protein, PECAM-1/PhD2 was found to possess constitutive enzymatic activity and appropriate border localization. This constitutively active chimeric protein will be useful in future studies designed to define the components of signal transduction pathways modulated by PECAM-1/SHP-2 signaling complexes.