Faculty Bibliography

Children and adolescents are increasingly exposed to psychostimulants, either illicitly or for the treatment of common neuropsychiatric conditions, such as attention deficit disorder with and without hyperactivity. Despite the widespread use of psychomotor stimulants in younger age groups, little is known regarding the chronic molecular neuroadaptive responses to these agents in the immature brain. Here we demonstrate that, after chronic administration of the psychostimulants cocaine and amphetamine, the transcription factor DeltaFosB is upregulated in the nucleus accumbens of periadolescent mice but not in post-weanling or adult mice. Induction of DeltaFosB also occurs exclusively in the caudate putamen of periadolescent mice after amphetamine administration. These results demonstrate the unique plasticity in the adolescent brain of a critical molecule that regulates psychostimulant action and suggest that these neuroadaptive changes may be involved in the mediation of enhanced addictive tendencies in the adolescent relative to the adult

Mice with fibroblast-specific expression of TAP-1 were generated by expressing the TAP-1 transgene under the control of the fibroblast-specific protein (FSP) 1 promoter/enhancer on TAP-1-deficient background. MHC class I expression in primary fibroblast cultures isolated from the resulting strain mimicked that of wild-type counterparts. MHC class I was detected in both types of fibroblasts following treatment with IFN-alphabeta. Positive selection of CD4(-)CD8(+) thymocytes was observed in neither adult nor fetal/neonatal thymus of transgenic mice. IFN-alphabeta-induced expression of MHC class I rescued positive selection of CD4(-)CD8(+) T cells in fetal thymic organ cultures, but not in adult mice. Contrary to previous suggestions, our results indicate a limited role of fibroblasts in promoting positive selection. In addition, the results suggest that positive selection may occur by a different mechanism in fetal vs adult thymus

Crry is a rodent membrane-bound inhibitor of complement activation and is a structural and functional analog of the human complement inhibitors decay-accelerating factor and membrane cofactor protein. We found previously that expression of rat Crry on a human tumor cell line enhances tumorigenicity in nude rats. In this study, we investigated the effect that rat Crry expressed on tumor cells has on rat cell-mediated cytotoxicity and antibody-dependent cell-mediated cytotoxicity (ADCC). The expression of rat Crry on the surface of different human tumor cell lines inhibited ADCC mediated by rat natural killer (NK) cells. C3 opsonization is known to enhance NK cell-mediated cytolysis, and a potential mechanism for Crry-mediated inhibition of NK cell lysis is through Crry modulation of C3 deposition on target cells. However, the transfection of tumor cell lines with Crry enhanced their resistance to NK cell-mediated lysis in the absence of exogenous complement. The resistance of Crry-expressing tumor cells to NK cell-mediated ADCC could be reversed by treatment with anti-Crry F(ab)(2). In addition, anti-Crry F(ab)(2) enhanced the susceptibility of 13762 rat mammary adenocarcinoma cells (that endogenously express Crry) to ADCC mediated by allogeneic rat NK cells in the absence of added complement. We found no evidence that rat NK cells were a source of complement for target cell deposition during the in vitro cytolysis assay. These data suggest a novel function for rat Crry in tumor immune surveillance that may be unrelated to complement inhibition

Chondrocyte proliferation is important for skeletal development and growth, but the mechanisms regulating it are not completely clear. Previously, we showed that syndecan-3, a cell surface heparan sulfate proteoglycan, is expressed by proliferating chondrocytes in vivo and that proliferation of cultured chondrocytes in vitro is sensitive to heparitinase treatment. To further establish the link between syndecan-3 and chondrocyte proliferation, additional studies were carried out in vivo and in vitro. We found that the topographical location of proliferating chondrocytes in developing chick long bones changes with increasing embryonic age and that syndecan-3 gene expression changes in a comparable manner. For in vitro analysis, mitotically quiescent chondrocytes were exposed to increasing amounts of fibroblast growth factor-2 (FGF-2). Proliferation was stimulated by as much as 8-10-fold within 24 h; strikingly, this stimulation was significantly prevented when the cells were treated with both fibroblast growth factor-2 (FGF-2) and antibodies against syndecan-3 core protein. This neutralizing effect was dose-dependent and elicited a maximum of 50-60% inhibition. To establish specificity of neutralizing effect, cultured chondrocytes were exposed to FGF-2, insulin-like growth factor-1, or parathyroid hormone, all known mitogens for chondrocytes. The syndecan-3 antibodies interfered only with FGF-2 mitogenic action, but not that of insulin-like growth factor-1 or parathyroid hormone. Protein cross-linking experiments indicated that syndecan-3 is present in monomeric, dimeric, and oligomeric forms on the chondrocyte surface. In addition, molecular modeling indicated that contiguous syndecan-3 molecules might form stable complexes by parallel pairing of beta-sheet segments within the ectodomain of the core protein. In conclusion, the results suggest that syndecan-3 is a direct and selective regulator of the mitotic behavior of chondrocytes and its role may involve formation of dimeric/oligomeric structures on their cell surface

We have used an approach using 2-dimensional gel electrophoresis with mass spectrometry analysis combined with oligonucleotide chip hybridization for a comprehensive and quantitative study of the temporal patterns of protein and mRNA expression during myeloid development in the MPRO murine cell line. This global analysis detected 123 known proteins and 29 'new' proteins out of 220 protein spots identified by tandem mass spectroscopy, including proteins in 12 functional categories such as transcription factors and cytokines. Bioinformatic analysis of these proteins revealed clusters with functional importance to myeloid differentiation. Previous analyses have found that for a substantial number of genes the absolute amount of protein in the cell is not strongly correlated to the amount of mRNA. These conclusions were based on simultaneous measurement of mRNA and protein at just a single time point. Here, however, we are able to investigate the relationship between mRNA and protein in terms of simultaneous changes in their levels over multiple time points. This is the first time such a relationship has been studied, and we find that it gives a much stronger correlation, consistent with the hypothesis that a substantial proportion of protein change is a consequence of changed mRNA levels, rather than posttranscriptional effects. Cycloheximide inhibition also showed that most of the proteins detected by gel electrophoresis were relatively stable. Specific investigation of transcription factor mRNA representation showed considerable similarity to those of mature human neutrophils and highlighted several transcription factors and other functional nuclear proteins whose mRNA levels change prominently during MPRO differentiation but which have not been investigated previously in the context of myeloid development. Data are available online at http://bioinfo.mbb.yale.edu/expression/myelopoiesis

The pleiotropic effects of Calloselasma rhodostoma venom is caused by various toxins, among them kistrin and ancrod, which block platelet activation triggered by RGD-dependent integrins and the blood clotting cascade, respectively. Here, we demonstrate that rhodocetin, another component of this venom, acts as alpha2beta1 integrin inhibiting disintegrin and antagonizes important cellular responses to type I collagen. Cell adhesion, migration, and collagen lattice contraction in vitro were specifically inhibited by rhodocetin, whereas expression of collagen-degrading matrix metalloproteases was differently modulated. Moreover, cell invasion of HT1080 fibrosarcoma cells into a type I collagen matrix, but not into a fibrin gel or a basement membrane-extracted matrigel was efficiently blocked by rhodocetin. Unlike its natural ligand collagen, rhodocetin failed to cluster alpha2beta1 integrin, despite similar binding affinities. Hence, in the absence of focal adhesions cells do not attach firmly to rhodocetin and do not respond with any of alpha2beta1-triggered cell reactions, except for MMP-1 production. Therefore, this disintegrin may be a valuable tool to specifically target stromal tumor invasion and to manipulate other alpha2beta1 integrin-mediated functions, such as excessive scar contraction and fibrosis. Rhodocetin might be therapeutically useful because of its lack of interference with RGD-dependent integrins, low molecular mass, high solubility, and biochemical stability.

We previously found that certain hair proteins were soluble by means of a partial extraction method. In this study, we demonstrate that the amount of soluble proteins internally formed in permed and bleached hair, labile proteins, is a useful index for hair damage assessment. Compared to tensile property changes, this index rose in widely dynamic ranges as the time of either permanent waving or bleaching treatments increased. The amount of labile proteins was much larger than that of proteins eluted into perming and bleaching lotions. However, the labile proteins showed electrophoretic profiles similar to those of the eluted proteins. These results suggest that a portion of the stable proteins in normal hair was transformed into labile proteins upon permanent waving and bleaching treatments. Consequently, permed and bleached hair tends to release the resultant labile proteins

The Sonic hedgehog (Shh)-Gli signaling pathway regulates development of many organs, including teeth. We cloned a novel gene encoding a transcription factor that contains a zinc finger domain with highest homology to the Gli family of proteins (61-64% amino acid sequence identity) from incisor pulp. Consistent with this sequence conservation, gel mobility shift assays demonstrated that this new Gli homologous protein, GliH1, could bind previously characterized Gli DNA binding sites. Furthermore, transfection assays in dental pulp cells showed that whereas Gli1 induces a nearly 50-fold increase in activity of a luciferase reporter containing Gli DNA binding sites, coexpression of Gli1 with Gli3 and/or GliH1 results in inhibition of the Gli1-stimulated luciferase activity. In situ hybridization analysis of mouse embryos demonstrated that GliH1 expression is initiated later than the three Gli genes and has a more restricted expression pattern. GliH1 is first detected diffusely in the limb buds at 10.0 days post coitus and later is expressed in the branchial arches, craniofacial interface, ventral part of the tail, whisker follicles and hair, intervertebral discs, teeth, eyes and kidney. LacZ was inserted into the GliH1 allele in embryonic stem cells to produce mice lacking GliH1 function. While this produced indicator mice for GliH1-expression, analysis of mutant mice revealed no discernible phenotype or required function for GliH1. A search of the Celera Genomics and associated databases identified possible gene sequences encoding a zinc finger domain with approximately 90% homology to that of GliH1, indicating there is a family of GliH genes and raising the possibility of overlapping functions during development

OBJECTIVE: To examine whether spindle morphologic features imaged with the LC-PolScope (Cambridge Research and Instrumentation, Woburn, MA) in living human oocytes matured in vitro can be used to predict chromosome configuration and select oocytes with normal chromosomes. DESIGN: Morphological study. SETTING: Academic IVF clinic. PATIENT(S): Women undergoing oocyte retrieval for ICSI treatment. INTERVENTION(S): Oocytes were examined after in vitro maturation. MAIN OUTCOME MEASURE(S): The study examined meiotic spindle morphologic features and chromosome alignments. RESULT(S): After culture for 22 to 24 hours, 77.1% of oocytes reached metaphase II stage, with 51.9% of oocytes showing birefringent spindles. Confocal microscopy revealed that 71% of oocytes with the birefringent spindles had normal chromosome alignment, and 29% of oocytes with birefringent spindles and all oocytes without birefringent spindles had abnormal microtubule organization and abnormal chromosome alignment. CONCLUSION(S): The spindle images obtained with the PolScope in living human oocytes are coordinate with those in fixed oocytes as imaged by confocal microscopy. Spindle images with the PolScope can be applied to human in vitro fertilization to help predict chromosomally normal oocytes for insemination