Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cyclins are regulatory molecules that undergo periodic accumulation and destruction during each cell cycle. By activating p34cdc2 and related kinase subunits they control important events required for normal cell cycle progression. Cyclin A, for example, regulates at least two distinct kinase subunits, the mitotic kinase subunit p34cdc2 and related subunit p33cdk2, and is widely believed to be necessary for progression through S phase. However, cyclin A also forms a stable complex with the cellular transcription factor DRTF1 and thus may perform other functions during S phase. DRTF1, in addition, associates with the tumour suppressor retinoblastoma (Rb) gene product and the Rb-related protein p107. We now show, using biologically active fusion proteins, that cyclin A can direct the binding of the cdc2-like kinase subunit, p33cdk2, to complexed DRTF1, containing either Rb or p107, as well as activate its histone H1 kinase activity. Cyclin A cannot, however, direct p34cdc2 to the DRTF1 complex and we present evidence suggesting that the stability of the cyclin A-p33cdk2 complex is influenced by DRTF1 or an associated protein. Cyclin A, therefore, serves as an activating and targeting subunit of p33cdk2. The ability of cyclin A to activate and recruit p33cdk2 to DRTF1 may play an important role in regulating cell cycle progression and moreover defines a mechanism for coupling cell-cycle events to transcriptional initiation.
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PMID:Cyclin A recruits p33cdk2 to the cellular transcription factor DRTF1. 129 52

The 86 kDa immediate early IE2 protein of human cytomegalovirus (HCMV) can activate transcription of both viral and cellular genes and can repress transcription from its own promoter. Using two in vivo assays, we provide evidence of a functional interaction between IE2 and the retinoblastoma (RB) protein: IE2 alleviates RB-induced repression of a promoter bearing E2F binding sites and RB alleviates IE2-mediated repression of its own promoter. These functional effects are likely to be a result of a direct contact between IE2 and RB, which we can demonstrate both in vitro and in HCMV-infected cells. The interaction between IE2 and RB shows similar characteristics to the interaction between RB and E1A. First, binding to IE2 requires an intact RB pocket domain. Secondly, the binding is sensitive to the phosphorylation state of RB, because cyclin A-CDK-induced phosphorylation of RB diminishes IE2 binding. Thirdly, the IE2 domain required for RB binding is separate to the domains necessary for TBP and TFIIB binding. Our results demonstrate that large and small DNA viruses have a common interface with the host cell, namely the association with the RB tumour suppressor protein.
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PMID:Functional interaction between the HCMV IE2 transactivator and the retinoblastoma protein. 802 74

The cellular transcription factor DRTF1/E2F is implicated in the control of early cell cycle progression due to its interaction with important regulators of cellular proliferation, such as pocket proteins (for example, the retinoblastoma tumour suppressor gene product), cyclins and cyclin-dependent kinase subunits. In mammalian cells DRTF1/E2F is a heterodimeric DNA binding activity which arises when a DP protein interacts with an E2F protein. Here, we report an analysis of DRTF1/E2F in Drosophila cells, and show that many features of the pathway which regulate its transcriptional activity are conserved in mammalian cells, such as the interaction with pocket proteins, binding to cyclin A and cdk2, and its modulation by viral oncoproteins. We show that a Drosophila DP protein which can interact co-operatively with E2F proteins is a physiological DNA binding component of Drosophila DRTF1/E2F. An analysis of the expression patterns of a Drosophila DP and E2F protein indicated that DmDP is developmentally regulated and in later embryonic stages preferentially expressed in proliferating cells. In contrast, the expression of DmE2F-1 in late stage embryos occurs in a restricted group of neural cells, whereas in early embryos it is widely expressed, but in a segmentally restricted fashion. Some aspects of the mechanisms which integrate early cell cycle progression with the transcription apparatus are thus conserved between Drosophila and mammalian cells. The distinct expression patterns of DmDP and DmE2F-1 suggest that the formation of DP/E2F heterodimers, and hence DRTF1/E2F, is subject to complex regulatory cues.
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PMID:Functional conservation of the cell cycle-regulating transcription factor DRTF1/E2F and its pathway of control in Drosophila melanogaster. 853 34

The human cdk2/cyclin A kinase complex is a key regulator of the events of S phase. This complex contains several proteins involved in regulating its catalytic activity, including one or more of the CKS proteins, which have recently been shown to inhibit the activation of the cdk2 kinase. To investigate whether the CKS genes may be altered in human neoplasia, we mapped the chromosome locations of CKS1 and CKS2 by fluorescence in situ hybridization (FISH). CKS1 was localized to 8q21, a locus that is seldom grossly altered in cancer. The localization of CKS2 to 9q22 places it very near to a putative tumour suppressor locus suggested to be responsible for susceptibility to the Basal Cell Nervus Syndrome (BCNS or Gorlin's syndrome) familial cancer disorder. Six fibroblast cell lines isolated from patients with BCNS were demonstrated by FISH to have both copies of CKS2 present. Partial sequencing of a genomic clone of CKS2 revealed that the open reading frame lies over three exons. Examination of the six cell lines by SSCP and PCR-based sequencing of the parts of the three exons coding for the full length protein demonstrated no consistent divergence from the reported cDNA sequence in any exon. It is unlikely that CKS2 is the BCNS tumour suppressor gene.
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PMID:Chromosomal mapping of the human genes CKS1 to 8q21 and CKS2 to 9q22. 869 18

The growth suppressive activity of the retinoblastoma tumour suppressor protein is controlled by cell cycle dependent phosphorylation. However, while many in vivo phosphorylation sites have been mapped, the identities of those residues whose phosphorylation is regulated remain elusive. We have mapped the epitopes of three independent monoclonal antibodies that recognise a distinction between differentially phosphorylated pRB sub-populations. All three antibodies recognise an identical epitope which encompasses an essential serine positioned within a consensus site for proline directed kinase phosphorylation. We provide evidence that this residue, serine 608 of pRB, is an authentic phosphorylation site that can be phosphorylated in vitro by cyclin A-CDK2 and cyclin D1-CDK4 kinases but not by cyclin E-CDK2 kinase or the mitogen activated kinase ERK2. Phosphorylation at this residue seems to be cell cycle regulated, occurring prior to entry into the S phase.
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PMID:Monoclonal antibodies specific for underphosphorylated retinoblastoma protein identify a cell cycle regulated phosphorylation site targeted by CDKs. 901 Feb 27

The pocket region of retinoblastoma tumour suppressor (Rb) is essential for tumour suppressing activity. The Rb pocket is primarily composed of two domains, A and B. We have determined the X-ray crystal structure of domain A (residues 378-562) at 2.3 A resolution. Domain A consists of nine alpha-helices. The overall arrangement of helices in domain A is remarkably similar to the cyclin-box folds found in the crystal structures of cyclin A and TFIIB. This structure, along with domain B which is predicted to be homologous to the cyclin-box, suggests that the Rb pocket is composed of two cyclin-box fold domains. We present the structural/functional features of the Rb pocket, and the potential binding region for cellular or viral proteins within domain A.
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PMID:Structural similarity between the pocket region of retinoblastoma tumour suppressor and the cyclin-box. 914 10

Regulation of both the cell cycle and gene transcription is essential for orderly progression of cell growth and division. Recent results on the structures of two cyclins, cyclin A and cyclin H, and two transcription factor mediator proteins, TFIIB and the A pocket region of the retinoblastoma tumour suppressor protein (Rb), show that they share domains with a strikingly similar alpha-helical topology, despite remote sequence identity.
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PMID:The cyclin box fold: protein recognition in cell-cycle and transcription control. 943 29

The pocket domain of the retinoblastoma (Rb) tumour suppressor is central to Rb function, and is frequently inactivated by the binding of the human papilloma virus E7 oncoprotein in cervical cancer. The crystal structure of the Rb pocket bound to a nine-residue E7 peptide containing the LxCxE motif, shared by other Rb-binding viral and cellular proteins, shows that the LxCxE peptide binds a highly conserved groove on the B-box portion of the pocket; the A-box portion appears to be required for the stable folding of the B box. Also highly conserved is the extensive A-B interface, suggesting that it may be an additional protein-binding site. The A and B boxes each contain the cyclin-fold structural motif, with the LxCxE-binding site on the B-box cyclin fold being similar to a Cdk2-binding site of cyclin A and to a TBP-binding site of TFIIB.
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PMID:Structure of the retinoblastoma tumour-suppressor pocket domain bound to a peptide from HPV E7. 949 40

The human BTG1 protein is thought to be a potential tumour suppressor because its overexpression inhibits NIH 3T3 cell proliferation. However, little is known about how BTG1 exerts its anti-proliferative activity. In this study, we used the yeast 'two-hybrid' system to screen for interacting protein partners and identified human carbon catabolite repressor protein (CCR4)-associative factor 1 (hCAF-1), a homologue of mouse CAF-1 (mCAF-1) and Saccharomyces cerevisiae yCAF-1/POP2. In vitro the hCAF-1/BTG1 complex formation was dependent on the phosphorylation of a putative p34cdc2 kinase site on BTG1 (Ser-159). In yeast, the Ala-159 mutant did not interact with hCAF-1. In addition, phosphorylation of Ser-159 in vitro showed specificity for the cell cycle kinases p34CDK2/cyclin E and p34CDK2/cyclin A, but not for p34CDK4/cyclin D1 or p34cdc2/cyclin B. Cell synchrony experiments with primary cultures of rat aortic smooth-muscle cells (RSMCs) demonstrated that message and protein levels of rat CAF-1 (rCAF-1) were up-regulated under conditions of cell contact, as previously reported for BTG1 [Wilcox, Scott, Subramanian, Ross, Adams-Burton, Stoltenborg and Corjay (1995) Circulation 92, I34-I35]. Western blot and immunohistochemical analysis showed that rCAF-1 localizes to the nucleus of contact-inhibited RSMCs, where it was physically associated with BTG1, as determined by co-immunoprecipitation with anti-hCAF-1 antisera. Overexpression of hCAF-1 in NIH 3T3 and osteosarcoma (U-2-OS) cells was itself anti-proliferative with colony formation reduced by 67% and 90% respectively. Taken together, these results indicate that formation of the hCAF-1/BTG1 complex is driven by phosphorylation at BTG1 (Ser-159) and implicates this complex in the signalling events of cell division that lead to changes in cellular proliferation associated with cell-cell contact.
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PMID:Human carbon catabolite repressor protein (CCR4)-associative factor 1: cloning, expression and characterization of its interaction with the B-cell translocation protein BTG1. 982 Aug 26

We have previously used mosaic flies to screen for tumour suppressors or negative regulators of cell proliferation. The cellular composition of these flies resembles that of cancer patients who are chimaeric individuals carrying a small number of mutated somatic cells. One of the genes we identified is the large tumour suppressor gene, lats (also known as wts), which encodes a putative serine/threonine kinase. Somatic cells mutant for lats undergo extensive proliferation and form large tumours in many tissues in mosaic adults. Homozygous mutants for various lats alleles display a range of developmental defects including embryonic lethality. Although many tumour suppressors have been identified in Drosophila melanogaster, it is not clear whether these fly genes are directly relevant to tumorigenesis in mammals. Here, we have isolated mammalian homologues of Drosophila lats. Human LATS1 suppresses tumour growth and rescues all developmental defects, including embryonic lethality in flies. In mammalian cells, LATS1 is phosphorylated in a cell-cycle-dependent manner and complexes with CDC2 in early mitosis. LATS1-associated CDC2 has no mitotic cyclin partner and no kinase activity for histone H1. Furthermore, lats mutant cells in Drosophila abnormally accumulate cyclin A. These biochemical observations indicate that LATS is a novel negative regulator of CDC2/cyclin A, a finding supported by genetic data in Drosophila demonstrating that lats specifically interacts with cdc2 and cyclin A.
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PMID:Human homologue of the Drosophila melanogaster lats tumour suppressor modulates CDC2 activity. 998 58


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