The tumor suppressor protein p53 acts as a transcriptional activator that can mediate cellular responses to DNA damage by inducing apoptosis and cell cycle arrest. p53 is a nuclear phosphoprotein, ...and phosphorylation has been proposed to be a means by which the activity of p53 is regulated. The cyclin-dependent kinase (CDK)-activating kinase (CAK) was originally identified as a cellular kinase required for the activation of a CDK-cyclin complex, and CAK is comprised of three subunits: CDK7, cyclin H, and p36
MAT1
. CAK is part of the transcription factor IIH multiprotein complex, which is required for RNA polymerase II transcription and nucleotide excision repair. Because of the similarities between p53 and CAK in their involvement in the cell cycle, transcription, and repair, we investigated whether p53 could act as a substrate for phosphorylation by CAK. While CDK7-cyclin H is sufficient for phosphorylation of CDK2, we show that p36
MAT1
is required for efficient phosphorylation of p53 by CDK7-cyclin H, suggesting that p36
MAT1
can act as a substrate specificity-determining factor for CDK7-cyclin H. We have mapped a major site of phosphorylation by CAK to Ser-33 of p53 and have demonstrated as well that p53 is phosphorylated at this site in vivo. Both wild-type and tumor-derived mutant p53 proteins are efficiently phosphorylated by CAK. Furthermore, we show that p36 and p53 can interact both in vitro and in vivo. These studies reveal a potential mechanism for coupling the regulation of p53 with DNA repair and the basal transcriptional machinery.
We have characterized the effects of p53 on several biochemical activities of simian virus 40 (SV40) large tumor (T) antigen. While p53 induced a strong inhibition of the T antigen DNA helicase ...activity, surprisingly, its RNA helicase activity was stimulated. This supports the liklihood that the DNA and RNA helicase activities of T antigen reflect discrete functions. p53 did not significantly affect the ATP-dependent conversion of T antigen monomers to hexamers. However, the ability of these hexamers to assemble on a DNA fragment containing the viral origin was impaired by p53. Thus, these results suggest that p53 inhibits the function but not the formation of T antigen multimers. This conclusion was further supported by the observation that the addition of a purified p53:T antigen complex was as inhibitory as free p53 to the DNA helicase activity of free T antigen. Thus our data indicates that the targets of p53 inhibition are the functional units of T antigen, namely the hexamers.
Simian virus 40 (SV40) transformed V 11 F 1 clone 1 subclone 7 rat cells (subclone 7) do not synthesize normal-size large T antigen (
M
r
, 90,000); instead, they produce a 115,000
M
r
super T ...antigen (115K super T antigen). This super T antigen is SV40 virus coded, and its synthesis results from rearrangement and amplification of integrated viral DNA sequences in subclone 7 (May et al., Nucleic Acids Res.
9
:4111-4128, 1981). In this study the functional activities of 115K super T antigen were compared with the functional activities of SV40 large T antigen. Transfection experiments were performed with (i) cosmid SVE 5 Kb and plasmid pSVsT, both containing the super T antigen gene and (ii) plasmids pSV1 and pSV40, both containing the large T antigen gene. Transfection of pSVsT DNA or SVE 5 Kb DNA into secondary cultures of rat kidney cells induced the formation of transformed cell foci with an efficiency that was about 50% of the efficiency of pSV1 DNA or pSV40 DNA. Concomitant with the transforming activity, two other activities were also retained by super T antigen, namely, the ability to enhance the level of host cellular protein p53 and the capacity to bind to p53. In contrast, pSVsT and SVE 5 Kb DNAs were markedly deficient in the capacity to support
tsA
58 DNA replication in CV1-P cells at a nonpermissive temperature (41°C), as shown by cotransfection experiments. The yield of virus produced in these experiments was 400-fold less than the yield obtained in parallel experiments with pSV40 or pSV1. However, SVE 5 Kb and pSVsT have a functional SV40 replication origin, as shown by their efficient replication in COS 1 cells which provided functional large T antigen. Super T antigen also possesses a specific affinity for sequences of SV40 viral origin. Our results suggest that under certain conditions, evolutionary changes in T antigen take place and that these changes could be restricted to the phenotypic requirement of maintaining a structure that is able to induce cell transformation, to form a complex with p53, and to enhance the cellular level of p53. Therefore, there appears to be a close relationship among the activities of T antigen involved in transforming cells, in binding to p53, and in enhancing the p53 cellular level. Moreover, this set of activities appears to be separable from the replicative ability of T antigen, based on the observation that 115K super T antigen is markedly defective for initiating viral DNA synthesis.
The subnuclear distribution of simian virus 40 large T antigen within nuclei of transformed Cos and C6 monkey cells was examined. Cos cells express wild-type T antigen but lack viral sequences ...required for DNA replication, whereas C6 cells contain a functional viral origin but express a replication-defective mutant T antigen which is unable to bind specifically to viral DNA. Discrete subpopulations of T antigen were isolated from the soluble nucleoplasm, chromatin, and nuclear matrix of both cell lines. Although only a small quantity (2 to 12%) of the total nuclear T antigen from Cos cells was associated with the nuclear matrix, a high proportion (25 to 50%) of C6 T antigen was bound to this structure. Results obtained from lytically infected monkey cells showed that early in infection, before viral replication was initiated, a higher proportion (22%) of T antigen was found associated with the nuclear matrix compared with amounts found associated with this structure later in infection (5 to 8%). These results suggest that an increased association of T antigen with this structure is not correlated with viral replication. T antigen isolated from the C6 nuclear matrix was more highly phosphorylated than was soluble C6 T antigen and was capable of binding to the host p53 protein. C6 DNA contains three mutations: two corresponding to N-terminal changes at amino acid positions 30 and 51 and a third located internally at amino acid position 153. By analysis of the subnuclear distribution of T antigen from rat cells transformed by C6 submutant T antigens, it was determined that one or both of the mutations at the NH
2
terminus are responsible for the increased quantity of C6 T antigen associated with the nuclear matrix. These results suggest that neither a functional viral DNA replication origin nor the origin binding property of T antigen is required for association of this protein with the nuclear matrix.
In vitro replication of DNA containing the polyoma (Py) virus origin of replication has been carried out with cell-free extracts prepared from mouse FM3A cells. The in vitro system required the Py ...virus-encoded large tumor (T) antigen, DNA containing the Py virus origin of replication, ATP, and an ATP-regenerating system. The replication reaction was inhibited by aphidicolin, suggesting the involvement of DNA polymerase α in this system. Simian virus 40 (SV40) T antigen could not substitute for the Py T antigen. Cell extracts prepared from HeLa cells, a source that replicates SV40 DNA in the presence of SV40 T antigen, replicated Py DNA poorly. The addition of purified DNA polymerase α -primase complex isolated from FM3A cells enabled HeLa cell extracts to replicate Py DNA with the same efficiency as FM3A cell extracts. Complementary experiments have shown that FM3A cell extracts do not support SV40 DNA replication unless supplemented with DNA polymerase α -primase complex from HeLa cells Murakami, Y., Wobbe, C. R., Weissbach, L., Dean, F. B. & Hurwitz, J. (1986) Proc. Natl. Acad. Sci. USA 83, 2869-2873. These results indicate that the host-cell source of the DNA polymerase α -primase complex plays an important role in discriminating between SV40 T antigen- and Py T antigen-dependent replication of their homologous DNA in vitro. This may explain the host-range specificity of these viruses in vivo.
We have investigated the effect of interferon on SV40 gene expression late in the lytic cycle, after early functions have been expressed and viral DNA replication has been initiated. Whereas ...pretreatment with interferon prior to infection reduces the amount of early SV40 RNA, post-infection treatment does not inhibit viral RNA synthesis. Viral 19S and 16S RNA species are found undiminished in quantity and poly(A) content. Despite the apparent normalcy of viral RNA classes, however, there is a marked reduction in the synthesis of their protein products, both T antigen and capsid polypeptides. The association of viral RNA with heavy polyribosomes is strongly reduced. On the other hand, there is no degradation of nonviral polyribosomes and the synthesis of most cellular proteins continues. These experiments demonstrate that late in infection, interferon treatment results in an inhibition of viral mRNA translation.
Three simian virus 40 (SV40)-transformed monkey cell lines, C2, C6, and C11, producing T-antigen variants that are unable to initiate viral DNA replication, were analyzed with respect to their ...affinity for regulatory sequences at the viral origin of replication. C2 and C11 T antigens both bound specifically to sequences at sites 1 and 2 at the viral origin region, whereas C6 T antigen showed no specific affinity for any viral DNA sequences under all conditions tested. Viral DNA sequences encoding the C6 T antigen have recently been cloned out of C6 cells and used to transform an established rat cell line. T antigen from several cloned C6-SV40-transformed rat lines failed to bind specifically to the origin. C6 DNA contains three mutations: two located close to the amino terminus of T antigen at amino acid positions 30 and 51 and a third located internally at amino acid position 153. Two recombinant SV40 DNA mutants were prepared containing either the amino-terminal mutations at positions 30 and 51 (C6-1) or the internally located mutation at position 153 (C6-2) and used to transform Rat 2 cells. Whereas T antigen from C6-2-transformed cells lacked any specific affinity for these sequences. Therefore, the single mutation at amino acid position 153 (Asn→ Thr) is sufficient to abolish the origin-binding property of T antigen. A T antigen-specific monoclonal antibody, PAb 100, which had been previously shown to immunoprecipitate an immunologically distinct origin-binding subclass of T antigen, recognized wild-type or C6-1 antigens, but failed to react with C6 or C6-2 T antigens. These results indicate that viral replication function comprises properties of T antigen that exist in addition to its ability to bind specifically to the SV40 regulatory sequences. Furthermore, it is concluded from these data that specific viral origin binding is not a necessary feature of the transforming function of T antigen.
Using zone velocity sedimentation and nondenaturing polyacrylamide gel electrophoresis, we have determined that purified polyoma large tumor antigen (Py T Ag) consists of discrete forms ranging from ...more abundant monomers and dimers to several higher but clearly distinguishable oligomeric species. Addition of ATP and MgCl
2 to Py T Ag caused a dramatic increase in the appearance of Py T Ag hexames, a form that, based on its SV40 T Ag counterpart, is likely to play a crucial role in its DNA replication functions. Other nucleotides in addition to ATP, as well as a nonhydrolyzable ATP derivative, were capable of inducing hexamer formation. This approach may further elucidate the role(s) of different forms of Py T Ag in viral regulatory processes.
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