Effects of geldanamycin on signaling through activator-protein 1 in hypoxic HT29 human colon adenocarcinoma cells.

One of the characteristic responses of HT29 human colon adenocarcinoma cells to hypoxic stress is the induction of c-jun expression and binding to the activator-protein 1 (AP-1) element. To study the mechanism of c-jun activation during hypoxia, inhibitors of signaling pathways leading to the activation of AP-1 transcription factor were used. One of them, the benzoquinone ansamycin geldanamycin (GA) Mr-90,000 heat-shock protein (hsp90)-binding antibiotic, is known to disrupt signaling pathways by inducing destabilization of the enzyme complexes and degradation of signaling intermediates involving the proteasome. In our experiments, GA inhibited both basal and hypoxia-induced c-jun expression (IC50 = 75 nM). GA also abolished the hypoxia-induced increase in c-Jun NH2-terminal kinase (JNK1) catalytic activity and demonstrated an inhibitory effect on stress-activated protein kinase/ERK kinase-1 (SEK1); other participants in the mitogen-activated protein kinase and p38 signal transduction pathways were not affected to the same degree. GA treatment led to a decrease in the nuclear content of c-Jun but not that of c-Fos or of activating transcription factor 2. Functional consequences of these effects were suggested by the inhibition of AP-1 binding in hypoxic HT29 cells in the presence of GA. Pretreatment with the proteasome inhibitor lactacystin before the addition of GA resulted in the elevation of overall c-jun level, but it was unable to restore the hypoxia-induced c-jun expression. Our results demonstrate that GA acts as a highly potent inhibitor of hypoxia-induced c-jun expression, affecting the activation of JNK and of the AP-1 transcription factor. However, the effect of GA cannot be attributed solely to the inhibition of signaling through JNK, and additional mechanisms remain to be identified.

Apoptosis and host restriction of vaccinia virus in RK13 cells.

Poxviruses express a number of host range (hr) genes that control virus growth in distinctive cell types. Inactivation of hr gene expression in several reported cases has led to apoptosis of virus-infected cells. In RK13 cells, the K1L gene serves as a hr gene for vaccinia virus. We therefore investigated the effect of K1L expression in apoptosis of RK13 cells. In contrast to other hr genes, no significant increase of apoptosis was detected in RK13 cells infected with a K1L- mutant virus. Also, expression of a CHO hr gene CP77 rescues K1L- mutant virus in RK13 cells with little effect on apoptosis. We then set out an experimental approach to investigate the relationship between apoptosis and host restriction in CHO and RK13 cells. A recombinant vaccinia virus expressing a human bcl-2 gene, bcl2-VV, was constructed. Expression of bcl-2 suppressed apoptosis of virus-infected CHO cells as expected. However, bcl-2 expression did not allow virus growth in CHO cells, suggesting apoptosis suppression is not sufficient to rescue host restriction. Moreover, infection of bcl-2VV in RK13 cells induced significant apoptosis with no reduction on virus production, indicating that apoptosis does not contribute to host restriction. In consideration of this data, we conclude that host restriction of vaccinia virus in CHO and RK13 cells is mediated by a pathway distinct from apoptosis.

Isolation and characterization of a Chinese hamster ovary mutant cell line with altered sensitivity to vaccinia virus killing.

The Chinese hamster ovary (CHO) cell line is nonpermissive for vaccinia virus, and translation of viral intermediate genes was reported to be blocked (A. Ramsey-Ewing and B. Moss, Virology 206:984-993, 1995). However, cells are readily killed by vaccinia virus. A vaccinia virus-resistant CHO mutant, VV5-4, was isolated by retroviral insertional mutagenesis. Parental CHO cells, upon infection with vaccinia virus, die within 2 to 3 days, whereas VV5-4 cells preferentially survive this cytotoxic effect. The survival phenotype of VV5-4 is partial and in inverse correlation with the multiplicity of infection used. In addition, viral infection fails to shut off host protein synthesis in VV5-4. VV5-4 was used to study the relationship of progression of the virus life cycle and cell fate. We found that in parental CHO cells, vaccinia virus proceeds through expression of viral early genes, uncoating, viral DNA replication, and expression of intermediate and late promoters. In contrast, we detect only expression of early genes and uncoating in VV5-4 cells, whereas viral DNA replication appears to be blocked. Consistent with the cascade regulation model of viral gene expression, we detect little intermediate- and late-gene expression in VV5-4 cells. Since vaccinia virus is known to be cytolytic, isolation of this mutant therefore demonstrates a new mode of the cellular microenvironment that affects progression of the virus life cycle, resulting in a different cell fate. This process appears to be mediated by a general mechanism, since VV5-4 is also resistant to Shope fibroma virus and myxoma virus killing. On the other hand, VV5-4 remains sensitive to cowpox virus killing. To examine the mechanism of VV5-4 survival, we investigated whether apoptosis is involved. DNA laddering and staining of apoptotic nuclei with Hoechst 33258 were observed in both CHO and VV5-4 cells infected with vaccinia virus. We concluded that the cellular pathway, which blocks viral DNA replication and allows VV5-4 to survive, is independent of apoptosis. This mutant also provides evidence that an inductive signal for apoptosis upon vaccinia virus infection occurs prior to viral DNA replication.

Beta-subunit of bovine rod photoreceptor cGMP phosphodiesterase. Comparison with the phosphodiesterase family.

A group of cDNA clones encoding the beta-subunit of bovine rod photoreceptor cGMP phosphodiesterase were isolated for structural analysis. The encoded polypeptide has 853 residues with a calculated molecular mass of 98 kDa. The beta-subunit is 72% identical to the rod cGMP phosphodiesterase alpha-subunit. Like the alpha-subunit and the cone alpha'-subunit, the beta-subunit belongs to the family of phosphodiesterase genes. The beta- and alpha-subunits are more similar to each other than either is to the cone alpha'-subunit, suggesting either that the beta- and alpha-subunits diverged more recently or that their divergence was restrained by the rod functional environment.

[Study of catalase and proteolytic activities of different variants of Bacillus mesentericus]. / Izuchenie katalaznoi i proteoliticheskoi aktivnosti razlichnykh variantov Bacillus mesentericus

Catalase and proteolytic activity of the culures and morphological variants of Bacillus mesentericus fuscus, Bac. mesentericus vulgatus were studied. The variants were obtained as a result of prolonged cultivation of the stock strains in the potato mash under the layer of vaseline oil. The level of catalase activity varies in different morphological variants of the same culture, changes with age and depends on the storage conditions. The catalase activity in the rough, smooth and papillar variants that were freshly isolated from the potato mash was 1.5=2.5 times lower than that in the variants long kept on the agar medium. The quantitative indexes of the proteolytic activity of different variants also varied.