Faculty Bibliography

OBJECTIVE: To explore the effect of human endostatin expressed by host cells on the growth of human liver carcinoma in vivo. METHODS: Human endostain gene was transferred into SMMC7721 cells by retroviral pLncx to build endostatin-transfected cell line. PCR, immunohistochemistry and Western blot analysis were applied to examine the transfection, expression and secretion of endostatin. Endothelial cell proliferation assay was used to determine the biological activity of expressed endostatin. The in vivo and in vitro growth rates of the endostatin-transfected and control SMMC7721 cells were also observed. RESULTS: PCR proved that the genome of endostatin-transfected SMMC7721 cells contained a 550 bp specific fragment of endostatin. The expression and secretion of human endostatin from endostatin-transfected SMMC7721 cells were confirmed by immunohistochemistry and Western blot analysis. Endostatin expressed by host cells could inhibit the proliferation of human umbilical vein endothelial cells by 48% (P < 0.01). In vitro proliferation assay showed that endostatin-transfected SMMC7721 cells had no change in proliferation rate compared to control SMMC7721 cells. In comparison with control group, however, tumor growth rate in vivo from endostatin-transfected SMMC7721 cells was inhibited greatly by 94.5%, 22 days after inoculation into nude mice (P < 0.01). CONCLUSION: Human endostatin mediated by retroviral gene transfer can inhibit greatly the growth of human liver carcinoma SMMC7721 in vivo

Molecular dynamics (MD) simulations have been carried out on bundles of the channel-forming transmembrane (TM) domain of the viral protein U (VPU(1-27) and VPU(6-27)) from the human immunodeficiency virus (HIV-1). Simulations of hexameric and pentameric bundles of VPU(6-27) in an octane/water membrane mimetic system suggested that the pentamer is the preferred oligomer. Accordingly, an unconstrained pentameric helix bundle of VPU(1-27) was then placed in a hydrated palmitoyl-oleyl-3-n-glycero-phosphatidylethanolamine (POPE) lipid bilayer and its structural properties calculated from a 3-ns MD run. Some water molecules, initially inside the channel lumen, were expelled halfway through the simulation and the bundle adopted a conical structure reminiscent of previous MD results obtained for VPU(6-27) in an octane/water system. The pore constriction generated may correspond to a closed state of the channel and underlies the relocation of the W residue toward the pore lumen. The relative positions of the helices with respect to the bilayer and their interactions with the lipids are discussed. The observed structure is stabilized via specific interactions between the VPU helices and the carbonyl oxygen atoms of the lipid molecules, particularly at the Q and S residues.

Membrane targeting of G-protein alphabetagamma heterotrimers was investigated in live cells by use of Galpha and Ggamma subunits tagged with spectral mutants of green fluorescent protein. Unlike Ras proteins, Gbetagamma contains a single targeting signal, the CAAX motif, which directed the dimer to the endoplasmic reticulum. Endomembrane localization of farnesylated Ggamma(1), but not geranylgeranylated Ggamma(2), required carboxyl methylation. Targeting of the heterotrimer to the plasma membrane (PM) required coexpression of all three subunits, combining the CAAX motif of Ggamma with the fatty acyl modifications of Galpha. Galpha associated with Gbetagamma on the Golgi and palmitoylation of Galpha was required for translocation of the heterotrimer to the PM. Thus, two separate signals, analogous to the dual-signal targeting mechanism of Ras proteins, cooperate to target heterotrimeric G proteins to the PM via the endomembrane

This study was performed to evaluate trends in species distribution in patients' with hematogenous candidiasis at a comprehensive cancer center. The results of a retrospective analysis from January 1, 1993 to December 31, 1998 were compared with prior reports from Memorial Sloan-Kettering Cancer Center in the last forty years. In 570 total episodes since 1974, 43.9% were due to Candida albicans. During 1990's, C. parapsilosis emerged as the most frequent yeast species in the non-C. albicans group (36.1% during 1993-1998 from 20.9% 1974-1982; p < 0.01). An increase in C. krusei from 5.9% (1974-1982) to 10.5% during the recent six years (1993-1998) was also noticed. The proportion of C. tropicalis among non-albicans fungemia during 1974-1982 was 42.8%, whereas in 1993 to 1998 a marked decline in C. tropicalis hematogenous infection was observed (27.8%; p < 0.01). During 1998, the incidence of candidemia declined from 7.1% (1972-1973) and 6.5% (1982) to 3.4% (p < 0.01), and improved survival among fungemic patients (33% mortality in 1998; 77.3% during 1974-1982; p < 0.001) was encouraging. The increase in C. parapsilosis bloodstream invasion during 1990's was associated with a significant reduction in the endogenous non-albicans Candida tropicalis infection that probably resulted in part due to the common prophylaxis, and/or preemptive fluconazole given routinely in high-risk patients undergoing treatment for cancer. The widespread use of extraneous implantable and/or semi-implantable indwelling intra-vascular devices may also have played an important role in promoting (exogenous) C. parapsilosis infection. This study emphasizes the importance of periodic evaluation of candidemia, especially at centers caring for patients at risk

Modulation of Tie2 receptor activity by its angiopoietin ligands is crucial for angiogenesis, blood vessel maturation, and vascular endothelium integrity. It has been proposed that angiopoietins 1 (Ang1) and 2 (Ang2) are pro- and anti-angiogenic owing to their respective agonist and antagonist signaling action through the Tie2 receptor. The function of Ang2 has remained controversial, however, with recent reports suggesting that in some circumstances, it may be pro-angiogenic. We have examined this issue using the transient ocular microvessel network called the pupillary membrane as a unique in vivo model for studying the effects of vascular regulators. We show that in vivo, in the presence of endogenous vascular endothelial growth factor (VEGF)-A, Ang2 promotes a rapid increase in capillary diameter, remodeling of the basal lamina, proliferation and migration of endothelial cells, and stimulates sprouting of new blood vessels. By contrast, Ang2 promotes endothelial cell death and vessel regression if the activity of endogenous VEGF is inhibited. These observations support a model for regulation of vascularity where VEGF can convert the consequence of Ang2 stimulation from anti- to pro-angiogenic

The COOH-terminal tail of mammalian neurofilament heavy subunit (NF-H), the largest neurofilament subunit, contains 44-51 lysine-serine-proline repeats that are nearly stoichiometrically phosphorylated after assembly into neurofilaments in axons. Phosphorylation of these repeats has been implicated in promotion of radial growth of axons, control of nearest neighbor distances between neurofilaments or from neurofilaments to other structural components in axons, and as a determinant of slow axonal transport. These roles have now been tested through analysis of mice in which the NF-H gene was replaced by one deleted in the NF-H tail. Loss of the NF-H tail and all of its phosphorylation sites does not affect the number of neurofilaments, alter the ratios of the three neurofilament subunits, or affect the number of microtubules in axons. Additionally, it does not reduce interfilament spacing of most neurofilaments, the speed of action potential propagation, or mature cross-sectional areas of large motor or sensory axons, although its absence slows the speed of acquisition of normal diameters. Most surprisingly, at least in optic nerve axons, loss of the NF-H tail does not affect the rate of transport of neurofilament subunits

The unfolded protein response (UPR) counteracts stress caused by unprocessed ER client proteins. A genome-wide survey showed impaired induction of many UPR target genes in xbp-1 mutant Caenorhabditis elegans that are unable to signal in the highly conserved IRE1-dependent UPR pathway. However a family of genes, abu (activated in blocked UPR), was induced to higher levels in ER-stressed xbp-1 mutant animals than in ER-stressed wild-type animals. RNA-mediated interference (RNAi) inactivation of a representative abu family member, abu-1 (AC3.3), activated the ER stress marker hsp-4::gfp in otherwise normal animals and killed 50% of ER-stressed ire-1 and xbp-1 mutant animals. Abu-1(RNAi) also enhanced the effect of inactivation of sel-1, an ER-associated protein degradation gene. The nine abu genes encode highly related type I transmembrane proteins whose lumenal domains have sequence similarity to a mammalian cell surface scavenger receptor of endothelial cells that binds chemically modified extracellular proteins and directs their lysosomal degradation. Our findings that ABU-1 is an intracellular protein located within the endomembrane system that is induced by ER stress in xbp-1 mutant animals suggest that ABU proteins may interact with abnormal ER client proteins and this function may be particularly important in animals with an impaired UPR

paired genes emerged early in evolution and code for homeobox transcription factors, having fundamental roles in various biological processes. We identified a novel human member of the paired-like class, which we named OTEX. A phylogenetic analysis revealed that OTEX belonged to the recently defined PEPP subfamily of paired-like homeobox genes. It was organized into three introns and, like the other PEPP genes, it was mapped to chromosome X. Its transcripts were detected mainly in the ovary, testis and epididymis, but also in the prostate and mammary gland. In the PC-3/ARwt prostate cell line, OTEX expression was stimulated dramatically following androgen treatment. Immunofluorescence studies revealed an exclusively nuclear localization of the OTEX protein. Mutation of the RARCRRHQRE amino acid sequence present at the C-terminus of the OTEX homeodomain resulted in a mainly cytoplasmic localization, indicating that this motif harboured the nuclear localization signal. No inherent transactivation function was seen for OTEX using the one-hybrid assay, and no homodimer formation was observed in the two-hybrid assay, suggesting that additional partners were needed for this activity. Taken together, the data show that OTEX represents a novel, androgen-regulated, paired-like homeobox protein, with possibly an important role in human reproduction.