Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research最新文献

Recent studies showed that specific isoprenoid modification may be critical for RhoB subcellular location and function. Therefore, we determined whether the function of the highly related RhoA protein is also critically dependent on specific isoprenoid modification: (a) in contrast to observations with RhoB or Ras proteins, where farnesylated and geranylgeranylated versions showed differences in subcellular location, both prenylated versions of RhoA showed the same plasma membrane and cytosolic location; (b) a farnesylated version of activated RhoA(63L) retained the same diverse functions as the normally geranylgeranylated RhoA(63L) protein, and both proteins show indistinguishable abilities to stimulate gene expression, cause growth transformation of NIH 3T3 mouse fibroblasts, to stimulate the motility of T47D human breast epithelial cells, and to block HIV-1 viral replication and gene expression; and (c) cells expressing farnesylated RhoA retained sensitivity to the growth inhibition caused by inhibition of geranylgeranyltransferase I, indicating that other proteins are critical targets for inhibitors of geranylgeranylation.

Fas/CD95 is a type-I membrane glycoprotein, which inducesapoptotic cell death when ligated by its physiological ligand. We generated previously hyperproliferative sublines derived from the human T-cell leukemia Jurkat, Jurkat-ws and Jurkat-hp, which lost Fas/CD95 surface expression. We have now observed that the total amount of Fas protein is similar in the sublines and in the parental cells, indicating that in the sublines Fas remains in an intracellular compartment. We have found that the protein is directed toward lysosomes in the sublines, where it is degraded. This defect in the secretory pathway correlates with loss of polyunsaturated fatty acids from cellular lipids, and with the lack of expression of endophilin-I and CtBP/BARS, enzymes that regulate vesicle fission by catalyzing the acylation of arachidonate into lysophosphatidic acid. In addition, great multillamer bodies, which contained acid phosphatase activity, absent in the parental Jurkat cells, were observed by transmission electron microscopy in the sublines.

We have reported previously the existence of an M(r) 70,000 form of the alpha(6) integrin called alpha(6p) in a variety of human epithelial cell lines. Four different experimental conditions were used to examine the regulation of alpha(6) and alpha(6p) integrin. The production of the alpha(6) integrin was decreased by 45% using a protein translation inhibitor (2.25 microM puromycin), whereas production of the alpha(6p) variant was unaffected. The alpha(6p) variant was decreased 60% by actin depolymerization (10 microM cytochalasin D) corresponding to a decrease in its surface expression, whereas alpha(6) integrin production was unaffected. The alpha(6p) variant was resistant to endoglycosidase H treatment, whereas the alpha(6) integrin was both sensitive and resistant to endoglycosidase H treatment, indicating retention in the endoplasmic reticulum and processing through the Golgi apparatus. Additionally, digestion by endoglycosidase F demonstrated both alpha(6p) and alpha(6) integrin contained NH(2)-linked glycosylations and both shifted M(r) approximately 10,000 on enzymatic digestion. Finally, inhibition of serine/threonine phosphatases by either calyculin A (15 nM) or okadaic acid (62 microM) did not affect alpha(6p), whereas the production of alpha(6) integrin was decreased by 50%. These data suggest that the production of the alpha(6p) variant is distinct from alpha(6) integrin and may involve a post-translational processing event at the cell surface.

It was shown previously that a majority of hybrids produced by in vitro fusion of normal macrophages with Cloudman S91 melanoma cells displayed enhanced metastatic potential in vivo, increased motility in vitro, increased ability to produce melanin, and responsiveness to melanocyte stimulating hormone compared with the parental Cloudman S91 melanoma cells. These hybrids also showed altered N-glycosylation consistent with a slower migration pattern of lysosome-associated membrane protein (LAMP-1) on electrophoretic gels. Because LAMP-1 is the major carrier of polylactosamine sugar structures, and synthesis of this complex sugar moiety indicates the extent of beta1,6 branch formation by beta1,6-N-acetyl-glucosaminyltransferase V (GnT-V), we analyzed the expression of GnT-V and beta1,6 branching in highly metastatic macrophage-fusion hybrids and compared with poorly metastatic ones. GnT-V was up-regulated in regard to both mRNA levels and enzymatic activity specifically in metastatic hybrids as well as parental macrophages compared with weakly metastatic hybrids and parental melanoma cells. Macrophages and metastatic hybrids also showed increased binding of the lectin L-phytohemagglutinin, which specifically binds to the beta1,6-branched sugar moiety. In addition, in metastatic hybrids there was increased cell surface expression of LAMP-1 and beta1 integrin, two prominent substrates for GnT-V also known to be associated with metastasis. Finally, exposure of metastatic hybrids in vitro to L-phytohemagglutinin or LAMP-1 completely eliminated melanocyte stimulating hormone/ isobutylmethyl xanthine-induced motility, suggesting a role for GnT-V in the motility of these cells. In summary, macrophage fusion with melanoma cells often increased metastatic potential, which was associated with enhanced expression of GnT-V and beta1,6-branching in glycoproteins. It is suggested that the known correlation with elevated GnT-V in both human and animal metastasis could, at least in some cases, reflect previous fusion of tumor cells with tumor-infiltrating macrophages, which, similar to malignant cells, show elevated expression of GnT-V and beta1,6-branched polylactosamines.

Previously, mouse RAD50, one of the mammalian DNA recombination repair genes, was reported to have limited epitopic homology to p53. Here we report the functional characteristics of overexpressed human RAD50 (hRAD50). Transient transfection of hRAD50 in several cultured cells caused cytotoxicity. We established tetracycline-regulated, stable hRAD50 expression systems in SaOS-2 cells, which retain mutated p53, and in HeLa cells. After tetracycline withdrawal, cell death and multinucleated giant cells were observed with increased hRAD50 expression, and p21(WAF1/CIP1) but not p53 was increased. Transient transfection of hRAD50 in HCT116 p21(-/-) cells caused no cytotoxicity, but there was a significantly decreased survival rate in p21(+/+) cells. These cytotoxic effects of overexpressed hRAD50 in HeLa, SaOS-2, and HCT116 p21(+/+) cells were partially blocked by pretreatment of cells with N-benzyloxycarbonyl-Val-Ala-Asp-fluoromethyl ketone, a pan-caspase inhibitor. When the hRAD50 expression cDNA was injected intratumorally with liposomes, it regressed or delayed tumor development in the animal model and nitric oxide synthase expression was induced in the tumor tissues that had regressed. Our results indicate that overexpressed hRAD50 has an antiproliferation activity in vitro and in vivo in a p21-dependent manner.

During prostate cancer progression, invasive glandular epithelial cells move out of the ductal-acinar architecture and through the surrounding basement membrane. Extracellular matrix proteins and associated soluble factors in the basal lamina and underlying stroma are known to be important regulators of prostate cell behaviors in both normal and malignant tissues. In this study, we assessed cell interactions with extracellular matrix and stromal factors during disease progression by characterizing integrin usage and expression in a series of parental and lineage-derived LNCaP human prostate cancer cell lines. Although few shifts in integrin expression were found to accompany disease progression, integrin heterodimer usage did change significantly. The more metastatic sublines were distinct in their use of alphavbeta3 and, when compared with parental LNCaP cells, showed a shift in alpha6 heterodimerization, a subunit critical not only for interaction with prostate basal lamina but also for interaction with the bone matrix, a favored site of prostate cancer metastases.

Human acute promyelocytic leukemias (APLs) are associated with chromosomal translocations that replace the NH2 terminus of wild-type retinoic acid receptor (RAR) alpha with portions of the promyelocytic leukemia protein (PML) or promyelocytic leukemia zinc-finger protein (PLZF). The wild-type RARalpha readily forms heterodimers with the retinoid X receptors (RXRs), and these RAR/RXR heterodimers appear to be the principal mediators of retinoid signaling in normal cells. In contrast, PML-RARalpha and PLZF-RARa display an enhanced ability to form homodimers, and this enhanced homodimer formation is believed to contribute to the neoplastic properties of these chimeric oncoproteins. We report here that the DNA recognition specificity of the RXRalpha/RARa heterodimer, which is presumed to be the dominant receptor species in normal cells, differs from that of the PML-RARalpha and PLZF-RARalpha homodimers, which are thought to prevail in the oncogenic cell. We suggest that differences in target gene recognition by the normal and oncogenic RARalpha proteins may contribute to the leukemogenic phenotype.