Ali Fattaey scite author profile

The association of cdk4 with D-type cyclins to form functional kinase complexes is comparatively inefficient. This has led to the suggestion that assembly might be a regulated step. In this report we demonstrate that the CDK inhibitors pZl'^^'', p27^^^, and p57^^^^ all promote the association of cdk4 with the D-type cyclins. This effect is specific and does not occur with other cdk inhibitors or cdk-binding proteins. Both in vivo and in vitro, the abundance of assembled cdk4/cyclin D complex increases directly with increasing inhibitor levels. The promotion of assembly is not attributable to a simple cell cycle block and requires the function of both the cdk and cyclin-binding domains. Kinetic studies demonstrate that p21 and p27 lead to a 35-and 80-fold increase in K^, respectively, mostly because of a decrease in X^ff. At low concentrations, p21 promotes the assembly of active kinase complexes, whereas at higher concentrations, it inhibits activity. Moreover, immunodepletion experiments demonstrate that most of the active cdk4-associated kinase activity also associates with p21. To confirm these results in a natural setting, we examine the assembly of endogenous complexes in mammary epithelial cells after release from a GQ arrest. In agreement with our other data, cyclin Dl and p21 bind concomitantly to cdk4 during the in vivo assembly of cdk4/cyclin Dl complexes. This complex assembly occurs in parallel to an increase in cyclin Dl-associated kinase activity. Immunodepletion experiments demonstrate that most of the cellular cyclin Dl-associated kinase activity is also p21 associated. Finally, we find that all three CIP/KIP inhibitors target cdk4 and cyclin Dl to the nucleus. We suggest that in addition to their roles as inhibitors, the p21 family of proteins, originally identified as inhibitors, may also have roles as adaptor proteins that assemble and program kinase complexes for specific functions.

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An Adenovirus Mutant That Replicates Selectively in p53- Deficient Human Tumor Cells

Bischoff¹,

Kirn²,

Williams³

et al. 1996

Science

1,599

1,067

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The human adenovirus E1B gene encodes a 55-kilodalton protein that inactivates the cellular tumor suppressor protein p53. Here it is shown that a mutant adenovirus that does not express this viral protein can replicate in and lyse p53-deficient human tumor cells but not cells with functional p53. Ectopic expression of the 55-kilodalton EIB protein in the latter cells rendered them sensitive to infection with the mutant virus. Injection of the mutant virus into p53-deficient human cervical carcinomas grown in nude mice caused a significant reduction in tumor size and caused complete regression of 60 percent of the tumors. These data raise the possibility that mutant adenoviruses can be used to treat certain human tumors.

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A cDNA encoding a pRB-binding protein with properties of the transcription factor E2F

Helin

Lees

Vidal

et al. 1992

Cell

630

613

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Inhibition of cell proliferation by p107, a relative of the retinoblastoma protein.

Zhu¹,

Heuvel²,

Helin³

et al. 1993

Genes & Development

508

575

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The cellular protein p107 shares many structural and biochemical features with the retinoblastoma gene product, pRB. We have isolated a full-length cDNA for human p107 and have used this clone to study the function of p107. We show that, like pRB, p107 is a potent inhibitor of E2F-mediated trans-activation, and overexpression of p107 can inhibit proliferation in certain cell types, arresting sensitive cells in G1. Several experiments, however, showed that growth inhibition by pRB and p107 did not occur through the same mechanism. First, in the cervical carcinoma cell line C33A, p107 was able to block cell proliferation, whereas pRB could not, even though both proteins were potent inhibitors of E2F-mediated transcription in this cell line. Second, growth arrest by pRB and p107 was rescued differentially by various cell cycle regulators. Third, some mutants of p107 that cannot associate with adenovirus E1A were still able to inhibit cell proliferation, whereas analogous mutants in pRB are known to be unable to block cell growth. Together, these results suggest a biological role of p107 that is related, but not identical, to that of pRB.

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Heterodimerization of the transcription factors E2F-1 and DP-1 leads to cooperative trans-activation.

Helin¹,

Wu²,

Fattaey³

et al. 1993

Genes Dev.

468

484

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The E2F transcription factor has been implicated in the regulation of genes whose products are involved in cell proliferation. Two proteins have recently been identified with E2F-like properties. One of these proteins, E2F-1, has been shown to mediate E2F-dependent trans-activation and to bind the hypophosphorylated form of the retinoblastoma protein {pRB). The other protein, mudne DP-1, was purified from an E2F DNA-affinity column, and it was subsequently shown to bind the consensus E2F DNA-binding site. To study a possible interaction between E2F-1 and DP-1, we have now isolated a cDNA for the human homolog of DP-1. Human DP-1 and E2F-1 associate both in vivo and in vitro, and this interaction leads to enhanced binding to E2F DNA-binding sites. The association of E2F-1 and DP-1 leads to cooperative activation of an E2F-responsive promoter. Finally, we demonstrate that E2F-1 and DP-1 association is required for stable interaction with pRB in vivo and that trans-activation by E2F-1/DP-1 heterodimers is inhibited by pRB. We suggest that "E2F" is the activity that is formed when an E2F-l-related protein and a DP-l-related protein dimerize.

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Ali Fattaey

New functional activities for the p21 family of CDK inhibitors.

An Adenovirus Mutant That Replicates Selectively in p53- Deficient Human Tumor Cells

A cDNA encoding a pRB-binding protein with properties of the transcription factor E2F

Inhibition of cell proliferation by p107, a relative of the retinoblastoma protein.

Heterodimerization of the transcription factors E2F-1 and DP-1 leads to cooperative trans-activation.

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