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)

Studies of multistage carcinogenesis in mouse skin have provided many of the early concepts of tumour initiation, promotion and progression. Genetic approaches have led to the identification of a number of mutational alterations in proto-oncogenes and tumour suppressor genes which take place at specific stages of carcinogenesis in this particular system. Initiation involves, at least in a proportion of tumours, mutational activation of the cellular H-ras proto-oncogene. Trisomy of chromosome 7, which develops during the premalignant clonal expansion phase, possibly as a consequence of tumour promoter treatment, is followed by further alterations on chromosome 7 which lead to a relative increase in the expression of mutant ras alleles. The p53 tumour suppressor gene undergoes mutational alteration and loss of heterozygosity in a proportion of squamous carcinomas but this particular gene does not appear to be involved in the further transition of squamous carcinomas to highly undifferentiated spindle cell tumours. The latter transition appears to be a recessive event which can be complemented by fusion with cells at earlier stages of malignancy. Mouse skin carcinogenesis therefore continues to provide invaluable information on the nature of the genetic and biological transitions which occur during the step-wise progression of normal cells to malignancy.
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PMID:Functional loss of tumour suppressor genes in multistage chemical carcinogenesis. 184 54

Chronic lymphocytic leukaemia (CLL) is a disease characterised by several immune defects such as frequent autoimmune complications and functional T-cell defects, which lead to an increased risk of infections (mostly bacterial) and other tumours. Clonal chromosome abnormalities are identified in half of the patients, and trisomy 12, the most common aberration, is present in about one-third of patients with clonal changes. The commonest structural abnormalities involve chromosome 13 at band q14, the site of the retinoblastoma tumour suppressor gene. A gene located telomeric to the Rb1 gene, identified by the D13S25 probe, might be a better candidate for a pathophysiologically relevant gene in CLL, since repeated reports have identified homozygous deletions of this site. The purine analogues fludarabine and cladribine (2-chloro-2'-deoxyadenosine) and the adenosine deaminase inhibitor deoxycoformycin all have therapeutic effects in a range of lymphoproliferative disorders. Prolonged immunosuppression with low CD4 cell counts frequently occurs and, subsequently, opportunistic infections may be seen. This has to be taken into consideration when treating patients with any of these potent drugs.
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PMID:Immunological and genetic abnormalities in chronic lymphocytic leukaemia. Impact of the purine analogues. 752 86

The development of cancer is a multistep process involving accumulation of genetic changes which progressively transform normal cells to neoplastic cells. During the last few years, our understanding and knowledge of the genetic changes involved in ovarian carcinogenesis have increased dramatically. In this review I will focus on karyotypic abnormalities in ovarian cancer and will also refer to molecular studies involving alterations in oncogenes and tumour suppressor genes in ovarian tumorigenesis. Cytogenetic analyses have identified two distinct subgroups. Simple karyotypic changes, trisomy 12 being the most common aberration in this group, are recurrently found in well differentiated ovarian carcinomas. Complex karyotypic abnormalities, including predominantly chromosome losses, deletions and unbalanced translocations, are found in moderately and poorly differentiated carcinomas. The bands and regions most commonly involved in structural rearrangements have been, in decreasing order of frequency, 19p13, 1p36, 1q21, 1q23-25, 3p11-13, 6q21, 19q13, 11p13-15, 11q13, 11q23, 12q24, 12p11-13, and 7p13-22. The finding of identical karyotypic and other genetic changes in tumour samples taken from different sites, such as tumours from both ovaries and omental metastases, indicate that ovarian cancer is of unicentric origin with subsequent metastatic spread giving rise to multiple implants. Molecular genetic changes important in ovarian cancer involve both classes of tumor-associated genes: RAS activation is generally not observed in ovarian cancer. Alterations of MYC1, ERBB2, AKT2, TP53 has been described in some ovarian carcinomas. The temporal relationship of these mutations, i.e. early or late events in ovarian carcinogenesis, remains to be determined.
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PMID:Genetic changes in ovarian cancer. 774 4

Genetic abnormalities are found in 50% of cases of chronic lymphocytic leukaemia (CLL) by cytogenetic analysis and in a higher percentage of patients using molecular techniques. The commonest cytogenetic abnormalities are trisomy 12 and deletions or translocations of the long arm of chromosome 13 usually involving band q14. The genetic consequences of trisomy 12 are unknown but structural abnormalities of chromosome 13q14 frequently involve hetero or homozygous loss of a region distal to the retinoblastoma gene which may be the site of a tumour suppressor gene. Trisomy 12 or loss of one copy of the retinoblastoma gene have been detected by fluorescent in situ hybridisation (FISH) in interphase cells of patients with a normal karyotype. By combining FISH with immunophenotyping, it has been found that trisomy 12 occurs in only 30 to 40% of the malignant clone, suggesting that it is a secondary event in leukaemogenesis. Trisomy 12 is strongly associated with atypical lymphocyte morphology in patients with otherwise typical CLL. Complex karyotypic abnormalities, a high percentage of abnormal metaphases and trisomy 12 but not structural abnormalities of chromosome 13 are associated with a poor prognosis at all stages of the disease. Mutations or deletions of the P53 gene are found in 10 to 15% of patients with advanced CLL and correlate with resistance to treatment and poor survival.
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PMID:Cytogenetic and molecular abnormalities in chronic lymphocytic leukaemia. 795 Apr 79

Chronic lymphoid leukaemias are clonal expansions of B and T cells with mature membrane phenotype. Cytogenetic study of these cases usually requires mitogenic stimulation and can often be hindered by a lack of response of the tumour cells to mitogen, poor quality metaphases, complex markers and proliferation of normal cells. In situ hybridisation with fluorescence-labelled chromosome-specific centromeric DNA probe, single or low copy sequences and whole chromosome paints which hybridise to complementary sequences allow the detection of numerical and structural abnormalities on metaphase and interphase cells with much greater efficiency. Comparative genomic hybridisation uses whole genomic tumour DNA as probe which is hybridised to normal metaphases. It is particularly useful for detecting chromosomal changes without being dependent on the dividing tumour cells. The application of these techniques to the investigation of chronic lymphoid leukaemias is reviewed with emphasis on the work done in our laboratory on trisomy 12 and the tumour suppressor region 13q14 in chronic lymphocytic leukaemia, translocation t(11;14) (q13;q32) in mantle cell lymphoma and other chronic B cell leukaemias, inv(14) (q11q32), i(8q) and complex markers in T prolymphocytic leukaemia.
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PMID:The impact of molecular cytogenetics on chronic lymphoid leukaemia. 940 94

Research on the genetic basis of CLL is progressing at a rapid pace. The development of new techniques such as FISH, comparative genomic hybridisation (CGH) and a whole range of molecular methods is being applied to identify abnormalities in this relatively common B-cell leukaemia. The abnormalities may be of a different nature. There are some which are clearly associated with particular forms of the disease and usually with aggressive characteristics. The best examples are deletions at 11q23 seen in younger patients with generalised lymphadenopathy and inferior prognosis; trisomy 12, commonly associated with an increased proportion of prolymphocytes (CLL/PL) and more progressive disease; 17p abnormalities, chiefly mutations and deletions of p53, although rare, seem to be associated with transformation such as Richter syndrome, with CLL/PL and poor response to therapy. Abnormalities at 13q, though not correlated with particular clinical syndromes, are the subject of intense interest due to the possibility that one or more tumour suppressor genes relevant to the pathogenesis of CLL may be identified. Two areas in which work is being focused are 13q14 and 13q12. Finally, the incidence of familial cases of CLL, which has been known for a number of years, will lead to an international effort to collect familial cases, which ultimately will allow a genetic linkage study to discover a CLL "susceptibility gene". The presentations at the IWCLL were up-to-date, stimulating and pointed the way forward to further rapid progress in this exciting field.
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PMID:The search for genetic clues in chronic lymphocytic leukemia. 947 Oct 56

The most frequent structural chromosome abnormality in chronic lymphocytic leukaemia (CLL) is deletion at chromosome 13q14. Studies with Southern blot hybridisation have revealed deletions in the region located telomeric of the retinoblastoma gene in more than 40% of cases. The highest frequency of homozygous deletions has been found at the D13S319 locus and it is likely that a new tumour suppressor gene is located close to this region. We have analysed deletions in the D13S319 region in 20 selected CLL patients using conventional cytogenetic analysis, fluorescence in situ hybridisation (FISH) and Southern blot hybridisation. FISH and Southern hybridisation are equally efficient in detecting deleted clones in our study. However, FISH analysis indicate that subclones with different numbers of alleles in the D13S319 region can exist simultaneously. The cytogenetic analyses confirm that clones with different chromosomal abnormalities can occur in patients with CLL and that 13q14 deletions can be limited to one of these subclones. Furthermore, the FISH analyses show that trisomy 12 and deletion of 13q14 can occur in the same cell clone. Finally, our study confirms that mitogen stimulation of peripheral blood cells from CLL patients before FISH analysis may result in a sharp increase in normal appearing cells, which can hide leukaemic clones with deletions in the D13S319 region.
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PMID:A FISH cosmid 'cocktail' for detection of 13q deletions in chronic lymphocytic leukaemia--comparison with cytogenetics and Southern hybridization. 959 68

The evolution of gastric mucosa-associated lymphoid tissue (MALT) lymphoma is a multi-stage process, comprising the sequential development of chronic H. pylori-associated gastritis, low grade and high grade lymphoma. The genesis of MALT lymphoma embodies the mechanisms of both physiological immune responses and the acquisition of genetic abnormalities. The tumour probably originates from an autoreactive MALT marginal zone B cell, which is generated during H. pylori infection. As a consequence of a genotoxic insult induced by H. pylori infection, the progenitor tumour cell may become genetically unstable and develop genetic abnormalities such as the t(11;18) translocation, trisomy three, c-myc and p53 mutations during a phase of expansion, which lead to partial transformation. With the growth help from H. pylori specific T cells, this abnormal B cell clone may undergo clonal expansion and gradually form a low grade MALT lymphoma. Additional genetic abnormalities including the t(1;14) translocation and other uncharacterised events could completely transform this abnormal B cell clone and result in escape from T cell dependency. Finally, further genetic events such as complete inactivation of the tumour suppressor genes p53 and p16, and possible activation of c-myc oncogene by translocation or other undetermined abnormalities can result in high grade transformation
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PMID:Recent advances in our understanding of the biology and pathogenesis of gastric mucosa-associated lymphoid tissue (malt) lymphoma. 966 52

Trisomy of chromosome 12 is one of the commonest cytogenetic abnormalities in the karyotype in chronic lymphocytic leukemia (CLL). It is associated with atypical morphology of lymphocytes, progressing disease and poor survival. A high incidence abnormality in the B-cell CLL is deletion of chromosome 13 (13q14) detected by using modern diagnostic methods such as southern blot hybridization and fluorescence in situ hybridization. It occurs in 51% of the CLL patients and in as much as 70% in mantle-cell lymphoma. The deletion of 13q14.3 affects a locus telomeric to the RB1 gene (retinoblastoma gene) and the marker D13S25 which bear relation to a candidate tumour suppressor gene. Also common are the chromosome 14 abnormalities which are expressed as the translocation t(11;14)(q13;q32) and which correlate with a high leukocytes count, adverse response to cytostatic therapy and increased risk of prolymphocytic proliferation. The oncogene BCL-1 is activated in this translocation. Deletions of the long arm of chromosome 18 (18q21)(q32;q13.1) activate the BCL-2 oncogene, while the translocation t(14;19)(q32;q13.1) activates the BCL-3 oncogene. Essential role in the pathogenesis of CLL is played by the aberrations in chromosome 17 and the p53 mutations (17p13.1). The gene p53 is defined as a tumour suppressor gene; mutations of this gene leads to a CLL characterized with rapid progression, aggressive course, poor prognosis and low survival. The deletions in chromosome 7 are associated with the multidrug resistance gene which causes resistance to doxorubicin, vinblastine and colchicine. All these abnormalities are characteristic of the B-cell chronic lymphocytic leukemia. In the T-cell leukemia characteristic deletions are 11q22-q23, a.14q23.1, as well as the inversion inv(14)(11q32) and some rarer aberrations.
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PMID:Cytogenetic abnormalities in chronic lymphocytic leukemia. 1134 38

Chronic lymphocytic leukaemia is the commonest adult leukaemia, however the pathogenesis is largely unknown. Since the 1980s specific chromosomal abnormalities have been identified, of which the commonest are deletions of chromosomes 6q, 11q23, 13q14 and 17q13 and trisomy 12. The search for the responsible oncogenes at these sites has proved to be extremely frustrating. There are many oncogenes at 11q23 but the exact gene(s) responsible have yet to be identified. Germline abnormalities of the ATM gene occur in about 18% of patients compared to a normal population carriage of 0.5% but not all studies agree that ATM is the gene responsible. Unfortunately, despite the identification of various minimally deleted regions and the full sequencing of 13q14 no oncogenes have been identified. All original studies suggested the presence of a autosomally recessive tumour suppressor gene at this site but more recent studies suggest this may not be the case and the pathogenesis is more complex than first thought. Similarly, no genes have been identified at 6q or on chromosome 12. We know that the p53 tumour suppressor gene at 17p13 is an important prognostic indicator but it occurs in a minority of patients (about 15%), usually in patients with advanced disease, and therefore probably is not of aetiological importance.
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PMID:Molecular abnormalities in B-cell chronic lymphocytic leukaemia. 1155 53


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