Inhibition of cellular proliferation by the Wilms' tumor suppressor WT1 is associated with suppression of insulin-like growth factor I receptor gene expression.

We have investigated the regulation of the insulin-like growth factor I receptor (IGF-I-R) gene promoter by the Wilms' tumor suppressor WT1 in intact cells. The levels of endogenous IGF-I-R mRNA and the activity of IGF-I-R gene promoter fragments in luciferase reporter constructs were found to be significantly higher in G401 cells (a Wilms' tumor-derived cell line lacking detectable WT1 mRNA) than in 293 cells (a human embryonic kidney cell line which expresses significant levels of WT1 mRNA). To study whether WT1 could suppress the expression of the endogenous IGF-I-R gene, WT1-negative G401 cells were stably transfected with a WT1 expression vector. Expression of WT1 mRNA in G401 cells resulted in a significant decrease in the rate of cellular proliferation, which was associated with a reduction in the levels of IGF-I-R mRNA, promoter activity, and ligand binding and with a reduction in IGF-I-stimulated cellular proliferation, thymidine incorporation, and anchorage-independent growth. These data suggest that a major aspect of the action of the WT1 tumor suppressor is the repression of IGF-I-R gene expression.     

YCA1 participates in the acetic acid induced yeast programmed cell death also in a manner unrelated to its caspase-like activity

Yeast cells lacking the metacaspase-encoding gene YCA1 (Δyca1) were compared with wild-type (WT) cells with respect to the occurrence, nature and time course of acetic-acid triggered death. We show that Δyca1 cells undergo programmed cell death (PCD) with a rate lower than that of the WT and that PCD in WT cells is caused at least in part by the caspase activity of Yca1p. Since in Δyca1 cells this effect is lost, but z-VAD-fmk does not prevent both WT and Δyca1 cell death, PCD in WT cells occurs via a Yca1p caspase and a non-caspase route with similar characteristics.     

Regulation of ornithine decarboxylase gene expression by the Wilms' tumor suppressor WT1.

The importance of ornithine decarboxylase (ODC) to cell proliferation is underscored by the complex array of cell-specific mechanisms invoked to regulate its synthesis and activity. Misregulation of ODC has severe negative consequences on normal cell function, including the acquisition of tumorigenic growth properties by cells overexpressing ODC. We hypothesize that ODC gene expression is a candidate target for the anti-proliferative function of certain tumor suppressors. Here we show that the Wilms' tumor suppressor WT1 binds to multiple sites within the human ODC promoter, as determined by DNase I protection and methylation interference assays. The expression of WT1 in transfected HCT 116, NIH/3T3 and HepG2 cells represses activity of the ODC promoter controlling expression of a luciferase reporter gene. In contrast WT1 expression enhances ODC promoter activity in SV40-transfected HepG2 cells. Both the extent of modulation of ODC gene expression and the mediating WT1 binding elements are cell specific. Constructs expressing WT1 deletion mutants implicate two regions required for repressor function, as well as an intrinsic activation domain. Understanding the regulation of ODC gene expression by WT1 may provide valuable insights into the roles of both WT1 and ODC in development and tumorigenesis.     

A novel dicistronic AAV vector using a short IRES segment derived from hepatitis C virus genome

Adeno-associated virus (AAV) vectors have a limited capacity for packaging DNA. To insert both a therapeutic gene and a selectable marker gene in the same AAV vector efficiently, we developed a novel dicistronic AAV vector containing a 230 base pairs (bp) internal ribosome entry site (IRES) element derived from hepatitis C virus (HCV) genome and a 420 bp blasticidin S-resistance gene (bsr) as a small selectable marker in the second cistron. The 650 bp HCV IRES-bsr construct was placed downstream of the 3′ end of the luciferase gene (Luc) under the control of the human cytomegalovirus (CMV) promoter. This dicistronic gene conferred blasticidin S-resistance to 293 cells besides luciferase activity, when examined not only by transfection but also by transduction using AAV vectors. The dicistronic AAV vector harbouring HCV IRES-bsr is capable of expressing a therapeutic gene of up to 3.6 kilobases (kb) (including promoter/enhancer elements) as well as a selectable marker gene. If a selectable marker gene is not necessary, this vector is able to incorporate two different kinds of therapeutic genes more easily than that containing EMCV IRES. The dicistronic AAV vector described here is useful for expressing many kinds of cDNA besides a selectable marker.     

The ZIIR element of the Epstein-Barr virus BZLF1 promoter plays a central role in establishment and maintenance of viral latency

The Epstein-Barr virus (EBV) BZLF1 gene encodes the immediate-early (IE) protein Zta, which plays a central role in regulating the switch between viral latency and lytic replication. A silencing element, ZIIR, is located between the ZID and ZII positive regulatory elements in the BZLF1 promoter Zp. We report here the phenotypes of variants of EBV strain B95.8 containing base substitution mutations in this ZIIR element. HEK293 cells infected with ZIIR mutant (ZIIRmt) virus produced at least 20-fold more viral IE Zta and Rta and early (E) EAD protein than did cells infected with the parental wild-type (WT) virus, leading to viral DNA replication and production of infectious virus. However, ZIIR mutant virus was 1/10 as efficient as WT virus in establishing proliferating B-cell clones following infection of human primary blood B cells. The ZIIRmt-infected lymphoblastoid cell lines (LCLs) that did grow out exhibited a phenotype similar to the one observed in 293 cells, including marked overproduction of IE and E gene products relative to WT-infected LCLs and lytic replication of the viral genome. Incubation of the ZIIRmt-infected LCLs with the chemical inducer 12-O-tetradecanoyl-phorbol-13-acetate (TPA) led to much greater activation of Zp than did the same treatment of WT- or ZVmt-infected LCLs. Furthermore, a protein kinase C (PKC) inhibitor, bis-indolylmaleimide, eliminated this activation by TPA. Thus, we conclude that ZIIR is a potent silencing element of Zp; it plays a key role in establishment and maintenance of EBV latency by inhibiting activation of Zp through the PKC signal transduction pathway.