Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P43146 (tumour suppressor)
 5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A number of viral oncogenes target the tumour suppressor protein p53 and inactivate its function. This is an important step in tumourogenesis. The cellular oncogene hdm2 acts through a similar mechanism. It binds the N terminus of p53, thereby interfering with the ability of p53 transcriptionally to activate genes responsible for growth arrest or apoptosis after genotoxic insults. The disruption of the interaction of the two proteins therefore comprises a promising therapeutic target for treatment of the subset of human cancers in which this pathway is active. In this paper we attempt to characterize the p53-hdm2 interaction biochemically. We analyse the potential of a series of peptide inhibitors, derived from previously described mdm2 binding peptide display phage, to disrupt this interaction in ELISA assays. We conclude that F19, W23 and L26 of p53 are critical contact points for p53 binding to hdm2. Furthermore, we show the potential of the monoclonal antibody 3G5 to interfere with binding of p53 to hdm2 in ELISA assays. Consequently, we define the binding site of 3G5 on hdm2 using overlapping peptides derived from the N terminus of hdm2 and phage display libraries. The result indicates L66, Y67 and E69 on hdm2 as critical binding points for 3G5. In electrophoretic mobility shift assay we demonstrate the formation of hdm2-p53 complexes that can be disrupted in the presence of 3G5 or inhibitory peptides. Finally, we describe the effects of NEM and DTT on the interaction between the two molecules in ELISA assays. All our results are discussed in the light of the recently published crystal structure of the mdm2-p53 complex. A striking correspondence between our findings and the crystal structure is revealed.
J Mol Biol 1997 Jun 27
PMID:Molecular characterization of the hdm2-p53 interaction. 922 38

Breast cancer emerges by a multistep process which can be broadly equated to transformation of normal cells via the steps of hyperplasia, premalignant change and in situ carcinoma. The elucidation of molecular interdependencies, which lead to development of primary breast cancer, its progression, and its formation of metastases is the main focus for new strategies targetted at prevention and treatment. Cytogenetic and molecular genetic analysis of breast cancer samples demonstrates that tumour development involves the accumulation of various genetic alterations including amplification of oncogenes and mutation or loss of tumour suppressor genes. Amplification of certain oncogenes with concomitant overexpression of the oncoprotein seems to be specific for certain histological types. Loss of normal tumour suppressor protein function can occur through sequential gene mutation events (somatic alteration) or through a single mutational event of a remaining normal copy, when a germline mutation is present. The second event is usually chromosome loss, mitotic recombination, or partial chromosome deletion. Chromosome loci 16q and 17p harbour tumour suppressor genes, which seem to be pathognomonic for the development or progression of a specific histological subtype. There are an overwhelming number of abnormalities that have been identified at the molecular level which fit the model of multistep carcinogenesis of breast cancer. When the functions of all of these genes are known and how they participate in malignant progression, we will have the tools for a more rational approach to diagnosis, prevention and treatment. This review deals only with the factors that are involved in the conversion of a normal breast cell into a malignant cell rather than those required for invasion and metastases. A key critical long-term step in the molecular analysis of breast cancer will be to link the specific molecular damage with the effects of environmental carcinogens.
J Mol Med (Berl) 1997 Jun
PMID:Multistep carcinogenesis of breast cancer and tumour heterogeneity. 923 83

Cowden disease, also known as multiple hamartoma syndrome, is an autosomal dominant cancer syndrome with a high risk of breast and thyroid cancer. The gene involved has been localized to chromosome 10q22-23. Recently, the tumour suppressor gene PTEN/MMAC1, encoding a putative protein tyrosine or dual-specificity phosphatase, was cloned from that region and three mutations were detected in patients with Cowden disease. We confirmed that the PTEN/MMAC1 gene is indeed the gene for Cowden disease by a refined localization of the gene to the interval between D10S1761 and D10S541, which contains the PTEN/MMAC1 gene and, by mutation analysis in eight unrelated familial and 11 sporadic patients with Cowden disease. Eight different mutations were detected in various regions of the PTEN/MMAC1 gene. One mutation was detected twice. All detected changes in the gene can be predicted to have a very deleterious effect on the putative protein. Five of the nine patients have a mutation in exon 5 coding for the putative active site and flanking amino acids. Evaluation of the clinical data of the patients in which a mutation could be detected gives no clear indications for a correlation between the genotype and phenotype. In 10 patients no mutation could be detected so far. In support of the linkage data, no evidence has emerged from the phenotype of these patients suggestive for genetic heterogeneity.
Hum Mol Genet 1997 Aug
PMID:Germline mutations in the PTEN/MMAC1 gene in patients with Cowden disease. 925 88

We have synthesized and studied the ability of a series of seven novel 1 alpha,25(OH)2 vitamin D3 analogues to inhibit clonal growth of prostate cancer cells (LNCaP, PC-3 and DU-145). Addition of double and triple bonds to the C/D ring (C-16) and side chain (C-22 and C-23) as well as lengthening of the side chain were important for enhanced activity against LNCaP and PC-3. Reorientation of the side chain in the 20-epi configuration resulted in analogues that were extremely potent only against LNCaP (ED50 approximately 5 x 10(-11) M). Compounds with six fluorines on the end of the side chain were very active against both PC-3 and LNCaP (ED50 approximately 2 x 10(-8) M). DU-145 cells were relatively resistant to compounds with all of these modifications, but removal of C-19 (e.g. 1,25(OH)2-16-ene-23-yne-26,27-F6-19-nor-D3) resulted in an analogue that was inhibitory against all three prostate cell lines. Further analysis showed that pulse exposure (3 days, 10(-7) M) to this analogue was enough to inhibit clonal growth of PC-3 cells by 50%. The same exposure also induced cell cycle arrest of all three cell lines, accompanied by upregulated protein expression of the cyclin-dependent kinase inhibitor (CDKI) known as p21waf1 in all three cell lines, and the CDKI known as p27kip1 in LNCaP cells. Associated with upregulation of these CDKIs, partial differentiation occurred as measured by increased expression of both prostate-specific antigen by LNCaP cells and E-cadherin, a cell adhesion protein that may act as a putative tumour suppressor (LNCaP and PC-3 cells). In summary, this is the first report of a potent series of 19-nor-vitamin D3 analogues with the ability to inhibit proliferation of LNCaP, PC-3 and DU-145 prostate cancer cell lines. These compounds may mediate their potent anti-proliferative activities through a cell cycle arrest pathway.
J Mol Endocrinol 1997 Aug
PMID:Inhibition of proliferation of prostate cancer cells by a 19-nor-hexafluoride vitamin D3 analogue involves the induction of p21waf1, p27kip1 and E-cadherin. 927 57

Telomeres shield the ends of chromosomes from degradation and end-to-end fusions. They shorten at each cell division and when they reach a critically short length, cells arrest in the G1 phase of the cell cycle and undergo senescence. This effectively limits the proliferative potential of cells. Senescence functions as a tumour suppressor mechanism and appears to contribute to the process of ageing. If senescence is circumvented by tumour viruses, proliferation is re-initiated until cells enter crisis. Activation of telomerase prevents telomere attrition and cells become immortal. Cellular response to ionizing radiation involves induction of cell cycle checkpoint arrests and programmed cell death. Because radiation produces double strand breaks in DNA, which cause telomere-less chromosome ends, radiation response appears to be the result of inappropriate induction of cellular senescence mechanisms.
Cell Mol Life Sci 1997 Jul
PMID:Telomeres, senescence and cellular radiation response. 928 59

Tuberous sclerosis is an autosomal dominant trait in which the dysregulation of cellular proliferation and differentiation results in the development of hamartomatous growths in many organs. The TSC2 gene is one of two genes determining tuberous sclerosis. Inactivating germline mutations of TSC2 in patients with tuberous sclerosis and somatic loss of heterozygosity at the TSC2 locus in the associated hamartomas indicate that TSC2 functions as a tumour suppressor gene and that loss of function is critical to expression of the tuberous sclerosis phenotype. The TSC2 product, tuberin, has a region of homology with the GTPase activating protein rap1GAP and stimulates the GTPase activity of rap1a and rab5a in vitro. Here we show that the region of homology between tuberin and human rap1GAP and the murine GAP mSpa1 is more extensive than previously reported and spans approximately 160 amino acid residues encoded within exons 34-38 of the TSC2 gene. Single strand conformation polymorphism analysis of these exons in 173 unrelated patients with tuberous sclerosis and direct sequencing of variant conformers together with study of additional family members enabled characterisation of disease associated mutations in 14 cases. Missense mutations, which occurred in exons 36, 37 and 38 were identified in eight cases, four of whom shared the same recurrent change P1675L. Each of the five different missense mutations identified was shown to occur de novo in at least one sporadic case of tuberous sclerosis. The high proportion of missense mutations detected in the region of the TSC2 gene encoding the GAP-related domain supports its key role in the regulation of cellular growth.
Hum Mol Genet 1997 Oct
PMID:The GAP-related domain of tuberin, the product of the TSC2 gene, is a target for missense mutations in tuberous sclerosis. 930 81

The tumour suppressor gene PTEN , which maps to 10q23.3 and encodes a 403 amino acid dual specificity phosphatase (protein tyrosine phosphatase; PTPase), was shown recently to play a broad role in human malignancy. Somatic PTEN deletions and mutations were observed in sporadic breast, brain, prostate and kidney cancer cell lines and in several primary tumours such as endometrial carcinomas, malignant melanoma and thyroid tumours. In addition, PTEN was identified as the susceptibility gene for two hamartoma syndromes: Cowden disease (CD; MIM 158350) and Bannayan-Zonana (BZS) or Ruvalcaba-Riley-Smith syndrome (MIM 153480). Constitutive DNA from 37 CD families and seven BZS families was screened for germline PTEN mutations. PTEN mutations were identified in 30 of 37 (81%) CD families, including missense and nonsense point mutations, deletions, insertions, a deletion/insertion and splice site mutations. These mutations were scattered over the entire length of PTEN , with the exception of the first, fourth and last exons. A 'hot spot' for PTEN mutation in CD was identified in exon 5 that contains the PTPase core motif, with 13 of 30 (43%) CD mutations identified in this exon. Seven of 30 (23%) were within the core motif, the majority (five of seven) of which were missense mutations, possibly pointing to the functional significance of this region. Germline PTEN mutations were identified in four of seven (57%) BZS families studied. Interestingly, none of these mutations was observed in the PTPase core motif. It is also worthy of note that a single nonsense point mutation, R233X, was observed in the germline DNA from two unrelated CD families and one BZS family. Genotype-phenotype studies were not performed on this small group of BZS families. However, genotype-phenotype analysis inthe group of CD families revealed two possible associations worthy of follow-up in independent analyses. The first was an association noted in the group of CD families with breast disease. A correlation was observed between the presence/absence of a PTEN mutation and the type of breast involvement (unaffected versus benign versus malignant). Specifically and more directly, an association was also observed between the presence of a PTEN mutation and malignant breast disease. Secondly, there appeared to be an interdependent association between mutations upstream and within the PTPase core motif, the core motif containing the majority of missense mutations, and the involvement of all major organ systems (central nervous system, thyroid, breast, skin and gastrointestinal tract). However, these observations would need to be confirmed by studying a larger number of CD families.
Hum Mol Genet 1998 Mar
PMID:Mutation spectrum and genotype-phenotype analyses in Cowden disease and Bannayan-Zonana syndrome, two hamartoma syndromes with germline PTEN mutation. 946 11

The rate of protein synthesis is a critical determinant of cellular growth. Abnormal activation of this process is a frequent feature of transformed and tumour cells. Several distinct components of the translation apparatus have been shown to be deregulated in response to malignant transformation. Indeed, overexpression of certain translation factors has been found to predispose cells to transformation or even initiate it. The latest twist to this story comes from the discovery that the retinoblastoma protein RB plays a major role in restricting the production of tRNA and rRNA. RB is an important tumour suppressor. Its ability to limit the synthesis of these principle determinants of biosynthetic capacity could provide a mechanism for restraining cell growth. The loss of this control may constitute a significant step towards tumour progression.
J Mol Med (Berl) 1998 Feb
PMID:Transcription by RNA polymerases I and III: a potential link between cell growth, protein synthesis and the retinoblastoma protein. 950 Jun 74

Tuberous sclerosis (TSC) is an autosomal dominant disorder caused by a mutation in either the TSC1 or TSC2 tumour suppressor gene. The disease is characterized by a broad phenotypic spectrum that can include seizures, mental retardation, renal dysfunction and dermatological abnormalities. TSC2 encodes tuberin, a putative GTPase activating protein for rap1 and rab5. The TSC1 gene was recently identified and codes for hamartin, a novel protein with no significant homology to tuberin or any other known vertebrate protein. Here, we show that hamartin and tuberin associate physically in vivo and that the interaction is mediated by predicted coiled-coil domains. Our data suggest that hamartin and tuberin function in the same complex rather than in separate pathways.
Hum Mol Genet 1998 Jun
PMID:Interaction between hamartin and tuberin, the TSC1 and TSC2 gene products. 958 Jun 71

Tumour suppressor genes may have a role in the control of trophoblast cell population expansion as trophoblast invasion occurs. To investigate this hypothesis, the location of tumour suppressor gene and proto-oncogene products were studied at various stages of trophoblast differentiation and invasion. Trophoblast and decidua were obtained from eight women having a therapeutic termination of pregnancy. Immunohistochemistry was used to localize the products of c-myc, c-erB-2, RB, BCL-2, P21, and P53 genes and anti-cytokeratin was used to identify fetal cells amongst the maternal decidual cells. The most differentiated and furthest invading trophoblast cell type, the multinucleated trophoblast, expressed a combination of genes which may indicate a high apoptotic rate. The other fully differentiated trophoblast, the syncytiotrophoblast, expressed BCL-2 suggesting protection from apoptosis. The co-occurrence of proto-oncogenes and the products of tumour suppressor genes in first trimester trophoblast suggests an important role not only in negative regulation of cellular invasion but also in population expansion through the presence of oncogenes and anti-apoptotic proteins.
Mol Hum Reprod 1998 May
PMID:Oncogene and tumour suppressor gene products during trophoblast differentiation in the first trimester. 966 34


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