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Query: EC:2.7.11.22 (
cdc2
)
8,319
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The transcription factor E2F is present in independent complexes with the product of the retinoblastoma susceptibility gene, pRB, and a related gene product,
p107
, in association with the cyclin A-
cdk2
or the cyclin E-
cdk2
kinase complex. pRB and
p107
can negatively regulate E2F activity, since overexpression of pRB or
p107
in cells lacking a functional pRB leads to the repression of E2F activity. The products of the adenovirus E1A gene can disrupt E2F complexes and result in free and presumably active E2F transcription factor. The regions of E1A required for this function are also essential for binding to a number of cellular proteins, including pRB and
p107
. Through the use of a number of glutathione S-transferase fusion proteins representing different regions of E1A, as well as in vivo expression of E1A proteins containing deletions of either conserved region 1 (CR1) or CR2, we find that CR2 of E1A can form stable complexes with E2F. E1A proteins containing both CR1 and CR2 also associate with E2F, although the presence of these proteins results in the release of free E2F from its complexes. In vitro reconstitution experiments indicate that E1A-E2F interactions are not direct and that pRB can serve to facilitate these interactions. Complexes containing E1A,
p107
, cyclin A, and E2F were identified in vivo, which indicates that E1A may associate with E2F through either
p107
or pRB. Peptide competition experiments demonstrate that the pRB-binding domain of the human E2F-1 protein can compete with the CR1 but not CR2 domain of E1A for binding to pRB. These results indicate that E1A CR1 and E2F-1 may bind to the same or overlapping sites on pRB and that E1A CR2 binds to an independent region. On the basis of our results, we propose a two-step model for the release of E2F from pRB and
p107
cellular proteins.
...
PMID:Independent regions of adenovirus E1A are required for binding to and dissociation of E2F-protein complexes. 824 49
Association of the E2F transcription factor with the pRb and
p107
proteins appears to regulate the activity of E2F and, in turn, affect cell cycle progression. We found, however, that pRb and
p107
are only minor E2F-associated proteins in G0/G1 mouse fibroblasts, and we sought to identify the major E2F partner protein in these cells. Because the adenovirus E1A oncoprotein seemed able to bind to the G0 E2F partner, we enriched for proteins that associated both with an E2F-binding site DNA column and with E1A. The major species in G0 and early G1 fibroblasts detected with this approach had properties identical to the pRb- and
p107
-related p130 protein. In serum-stimulated cells,
p107
replaced p130 as the major E2F-associated protein near the G1/S border, concomitant with an increase in
p107
protein levels. p130-E2F complexes resembled
p107
-E2F complexes in their ability to bind to cyclin-cdk kinases, and they appeared to be associated with the cyclin E-
cdk2
kinase in late G1 cells. These observations indicate that E2F transcription factors are regulated by a succession of partner proteins with which they associate during defined stages of the cell cycle.
...
PMID:Cell cycle-specific association of E2F with the p130 E1A-binding protein. 825 85
By performing DNase I footprint analysis, we had identified three distinct protein binding sequences (MT1, MT2, and MT3) located on the mouse thymidine kinase (TK) upstream promoter (Dou, Q.-P., Fridovich-Keil, J. L., and Pardee, A.B. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 1157-1161). Here we report that MT2 includes an E2F-like binding site (GTTCGCGGGCAAA), as shown by the following evidence. (i) MT2 bound specifically to an affinity-purified fusion human E2F protein. (ii) Both MT2 and an authentic E2F site (TTTCGCGCGCTTT) bound specifically to similar or identical nuclear protein complexes. (iii) Formation of both these DNA-protein complexes were cell cycle-dependent: a G0/G1 phase-specific complex (E2F.G0/G1) was replaced by an S phase-specific complex(es) (E2F.S), whereas "free" E2F increased after the G1/S transition. (iv) Pulse inhibition of protein synthesis with cycloheximide interchanged these complexes with similar kinetics. (v) When MT2-shifted E2F.G0/G1, E2F.S, and free E2F were eluted and analyzed by Western blot assay using a specific antiserum to human E2F-1, two forms of murine E2F (62 and 66 kDa) were observed from all three complexes. The compositions of these MT2-bound complexes were also investigated. Studies using specific antibodies revealed that
p107
, a retinoblastoma-like protein, was present in both E2F-G0/G1 and E2F.S, whereas cyclin E.cyclin A.
cdk2
were only present in E2F.S complex(es). These data suggest that removal of the
p107
-containing E2F.G0/G1 complex, a candidate repressor, from the MT2 site in late G1 may be essential for S phase-dependent transcription of the mouse TK gene.
...
PMID:G1/S-regulated E2F-containing protein complexes bind to the mouse thymidine kinase gene promoter. 828 95
The transcription factor E2F activates the expression of multiple genes involved in cell proliferation, such as c-myc and the dihydrofolate reductase gene. Regulation of E2F involves its interactions with other cellular proteins, including the retinoblastoma protein (Rb), the Rb-related protein
p107
, cyclin A, and
cdk2
. We undertook a detailed analysis of E2F DNA-binding activities and their cell cycle behavior in primary human T cells. Three E2F DNA-binding activities were identified in resting (G0) T cells with mobilities in gel shift assays distinct from those of previously defined E2F complexes. One of these activities was found to be a novel, less abundant, Rb-E2F complex. The most prominent E2F activity in resting T cells (termed complex X) was abundant in both G0 and G1 but disappeared as cells entered S phase, suggesting a possible role in negatively regulating E2F function. Complex X could be dissociated by adenovirus E1A with a requirement for an intact E1A conserved region 2. However, X failed to react with a variety of antibodies against Rb or
p107
, implicating the involvement of an E1A-binding protein other than Rb or
p107
. In addition to these novel E2F complexes, three distinct forms of unbound (free) E2F were resolved in gel shift experiments. These species showed different cell cycle kinetics. UV cross-linking experiments suggested that a distinct E2F DNA-binding protein is uniquely associated with the S-phase
p107
complex and is not associated with Rb. Together, these results suggest that E2F consists of multiple, biochemically distinct DNA-binding proteins which function at different points in the cell cycle.
...
PMID:Cell cycle analysis of E2F in primary human T cells reveals novel E2F complexes and biochemically distinct forms of free E2F. 832 Dec 4
Cyclin A associates with both the p34
cdc2
and p33
cdk2
kinases and is involved at two major check-points (G1-S and G2-M) of the cell cycle. The cyclin has been identified in multimeric protein complexes that incorporate the E2F transcription factor, the p33
cdk2
kinase, and
p107
, which is related to the retinoblastoma protein. Therefore, cyclin A provides a link between studies on the cell-cycle machinery and those aiming to elucidate the modulation of cell proliferation and regulation of gene expression by oncogenes and growth-suppressor proteins. The modification of cyclin A expression in a human liver cancer by the insertion of hepatitis B viral DNA into the cyclin A gene, and binding of cyclin A to the oncogenic E1A viral protein in adenovirus-infected cells suggest that the cyclin is implicated in human carcinogenesis. In addition, cyclin A might also be considered as a marker for tumor-cell proliferation in oncology. With these views in mind, it is now important to extend these observations to other types of cancer.
...
PMID:Oncogenic activation of cyclin A. 838 33
Human cyclins A and B1 were assembled with the
cdk2
or
cdc2
protein to reconstitute their respective kinase activities in vitro. Both cyclins complemented either
cdk2
or
cdc2
, yielding kinase activities that supported the phosphorylation of histone H1. Activation of
cdk2
-catalyzed H1 kinase activity by cyclin A required a 10-min preincubation of the two components, whereas
cdc2 kinase
supported phosphate incorporation without a detectable time lag upon the addition of cyclin B1, suggesting a slower association rate of
cdk2
with cyclin A compared with
cdc2
and cyclin B1. Both
cdk2
and cyclin A, as well as
cdc2
and cyclin B1, formed stable complexes in the absence of ATP and substrate that could be isolated after glycerol gradient centrifugation. Incubation of the isolated complexes with ATP and histone H1 supported the phosphorylation of the substrate. Cyclin A-activated
cdk2
or
cdc2
phosphorylated
p107
, a pRB-related cellular protein, 10 times more effectively than the cyclin B1-complexed kinases. This was most likely due to a direct association of cyclin A with
p107
(Ewen, M. E., Faha, B., Harlow, E., and Livingston, D. (1992) Science 255, 85-87; Faha, B., Ewen, M. E., Tsai, L.-H., Livingston, D., and Harlow, E. (1992) Science 255, 87-90). The reconstituted
cdc2
-cyclin B1 complex incorporated 4-5-fold more phosphate into the p34 subunit of the three-subunit (p70, p34, and p14) human single-stranded DNA-binding protein (also called RP-A), a DNA replication and DNA repair factor, than
cdc2
-cyclin A. No detectable phosphorylation of the p34 protein was observed with
cdk2
complexed with either cyclin B1 or A. These data indicate that both cyclins as well as the catalytic subunits are important factors in controlling the rate of phosphorylation of a given substrate. The cyclin-activated
cdc2
family kinases may target their cellular substrates through cyclin-mediated protein-protein interactions.
...
PMID:Characterization of the in vitro reconstituted cyclin A or B1-dependent cdk2 and cdc2 kinase activities. 839 7
The transcription factor E2F has been shown to be involved in the expression of several cell cycle-regulated genes, and the activity of this factor is controlled by cellular proteins such as pRB and
p107
. E2F is also a target of the DNA virus oncoproteins (adenovirus E1A, simian virus 40 T antigen, and human papillomavirus [HPV] E7) (see the review by J. R. Nevins [Science 258: 424-429, 1992]). These viral oncoproteins dissociate an inactive complex between E2F and the retinoblastoma tumor suppressor protein (pRB), and this dissociation of the E2F-pRB complex correlates with a stimulation of the E2F-dependent transcription. In the S phase of the cell cycle, E2F forms a complex with
p107
, cyclin A, and the
cdk2
kinase (E2F-cyclin A complex). The cellular function of this S-phase-specific complex is unclear. The adenovirus E1A protein dissociates the E2F-cyclin A complex. The HPV type 16 (HPV-16) E7 protein, which possesses significant sequence homology with E1A, does not dissociate the E2F-cyclin A complex. We find that the HPV-16 E7 protein associates very efficiently with the E2F-cyclin A complex. This association is dependent on the sequences that are also necessary for the transforming activity of E7. Moreover, the E7 protein of a low-risk HPV (type 6b) is much less efficient in binding to the E2F-cyclin A complex compared with that of the high-risk type. We also find that the E2F-cyclin A complex remains endogenously associated with the E7 protein in extracts of Caski cells, which express high levels of HPV-16 E7 protein. Finally, we have extensively purified the E2F-cyclin A complex from mouse L-cell extracts and show that, in cell extracts, the E2F-cyclin A complex remains associated with other cellular proteins.
...
PMID:Association of the human papillomavirus type 16 E7 protein with the S-phase-specific E2F-cyclin A complex. 841 52
The adenovirus E1A protein can disrupt protein complexes containing the E2F transcription factor in association with cellular regulatory proteins such as the retinoblastoma gene product (Rb) and the Rb-related
p107
protein. Previous experiments have shown that the CR1 and CR2 domains of E1A are required for this activity. We now demonstrate that the CR2 domain is essential for allowing E1A to interact with the E2F-Rb or the E2F-
p107
-cyclin A-
cdk2
complex. Multimeric complexes containing E1A can be detected when the CR1 domain has been rendered inactive by mutation. In addition, the E1A CR1 domain, but not the CR2 domain, is sufficient to prevent the interaction of E2F with Rb or
p107
. On the basis of these results, we suggest a model whereby the CR2 domain brings E1A to the E2F complexes and then, upon a normal equilibrium dissociation of Rb or
p107
from E2F, the E1A CR1 domain is able to block the site of interaction on Rb or
p107
, thereby preventing the re-formation of the complexes.
...
PMID:Identification of distinct roles for separate E1A domains in disruption of E2F complexes. 841 92
The v-abl oncogene of Abelson murine leukemia virus encodes a deregulated form of the cellular nonreceptor tyrosine kinase. v-Abl activates c-myc transcription, and c-Myc is an essential downstream component in the v-Abl transformation program. To explore the mechanism by which v-Abl activates c-myc transcription, a cotransfection assay was developed. We show that transactivation of a c-myc promoter by v-Abl requires the SH1 (tyrosine kinase) and SH2 domains of v-Abl; the C-terminal domains are not required for transactivation. The assay also identified the E2F site in the c-myc promoter as a v-Abl-responsive element. In addition, multimerized E2F sites were shown to be sufficient to confer v-Abl-dependent activation on a minimal promoter. This is the first identification of a v-Abl response element for transcriptional activation. v-Abl tyrosine kinase-dependent changes in proteins binding the c-myc E2F site were also demonstrated, including induction of a complex containing DP1,
p107
, cyclin A, and
cdk2
. Identification of v-Abl-dependent changes in E2F-binding proteins provides an important link between v-Abl, transcription, cell cycle regulation, and control of cellular growth.
...
PMID:v-Abl activates c-myc transcription through the E2F site. 852 18
The E6 and E7 proteins of the high-risk human papillomaviruses (HPVs) act coordinately to immortalize human keratinocytes. These viral oncoproteins function by binding and altering the activity of cellular proteins which regulate cell cycle progression. Among the proteins bound by E7 are the retinoblastoma protein, Rb, as well as the related
p107
and p130 proteins. In addition, E7 binds cyclin A, which regulates transit through the S and G2/M phases of the cell cycle. In this study, we demonstrate that HPV 18 E7 also associates with cyclin E which controls the G1/S transition. E7/cyclin E complexes were immunoprecipitated from E7-expressing cells as well as from cell extracts using GST-E7 fusion proteins. E7 was found to complex with a single form of cyclin E, and the binding was mediated through
p107
. Both E7/cyclin E and E7/cyclin A complexes exhibit kinase activity through associated
cdk2
proteins which can contribute to phosphorylation of
p107
. The association of E7 with proteins which regulate transit through the cell cycle may provide an additional mechanism by which infection with human papillomaviruses results in cellular hyperproliferation.
...
PMID:Human papillomavirus E7 oncoproteins bind a single form of cyclin E in a complex with cdk2 and p107. 855 88
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