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)

Germline mutations in the fumarate hydratase gene at 1q43 predispose to dominantly inherited skin and uterine leiomyomata and leiomyosarcomas. The enzyme, which is a component of the tricarboxylic acid cycle, acts as a tumour suppressor. To evaluate fumarate hydratase in respective sporadic tumours, we analysed a series of 26 leiomyosarcomas and 129 uterine leiomyomas (from 21 patients) for somatic mutations in fumarate hydratase and allelic imbalance around 1q43. None of the 26 leiomyosarcomas harboured somatic mutations in fumarate hydratase. Fifty per cent of leiomysarcomas tested showed evidence of allelic imbalance at 1q, but this was not confined to the vicinity of fumarate hydratase. Only 5% (seven out of 129) of the leiomyomas showed allele imbalance at 1q42-q43 and no somatic mutations in fumarate hydratase were observed. Our findings indicate that mutations in fumarate hydratase do not play a major role in the development of sporadic leiomyosarcomas or uterine leiomyomas
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PMID:Low frequency of somatic mutations in the FH/multiple cutaneous leiomyomatosis gene in sporadic leiomyosarcomas and uterine leiomyomas. 1217 82

Multiple cutaneous and uterine leiomyomas is an autosomal dominant condition that results in benign smooth muscle tumours of the skin and, in females, uterine fibroids. This syndrome overlaps with hereditary leiomyomatosis and renal cell cancer syndrome in which affected individuals may develop the rare type II papillary renal cell cancer, in addition to skin leiomyomas. Recently, heterozygous mutations in the gene encoding fumarate hydratase have been found to underlie both conditions. Fumarate hydratase is an enzyme that catalyses the conversion of fumarate to malate in the Kreb's cycle and may also function as a tumour suppressor gene. We report a family with multiple leiomyomas, uterine fibroids and papillary renal cell cancer. The proband is a 77-year-old Polish woman who developed multiple cutaneous leiomyomas on her right upper arm in her thirties and subsequently underwent a hysterectomy for uterine fibroids in her forties. She has four offspring: her eldest daughter also has skin and uterine leiomyomas with a similar onset; her son has multiple skin leiomyomas and in addition was diagnosed with metastatic papillary renal cell cancer at the age of 50 years; the two youngest daughters are unaffected. DNA sequencing in all the affected individuals disclosed a heterozygous G-->C substitution at nucleotide 173 of the fumarate hydratase gene, that converts an arginine residue (CGA) to proline (CCA). This missense mutation has not been reported previously and is designated R58P. Interestingly, the clinically asymptomatic 20-year-old son of the individual with renal cancer was also found to be heterozygous for R58P. It is likely that he will develop skin leiomyomas in the future but the risk of renal cancer is difficult to predict. Nevertheless, detection of this mutation has important implications for screening and genetic counselling in this and other family members.
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PMID:Familial multiple cutaneous and uterine leiomyomas associated with papillary renal cell cancer. 1566 10

Multiple cutaneous and uterine leiomyomata (MCL) is an autosomal dominant disorder characterized by the development of benign smooth muscle tumours (leiomyomas) in the skin and uterus of affected women, and in the skin of affected men. In rare cases, MCL has been associated with a predisposition to the rare type II papillary renal cell cancer, also known as hereditary leiomyomatosis and renal cell cancer. The genetic locus for MCL has been mapped to chromosome 1q42.3-43 and subsequently, germline mutations in the fumarate hydratase (FH) gene have been identified. In addition, analysis of FH in some tumours of MCL patients revealed a second mutation inactivating the wild-type allele, suggesting that FH may function as a tumour suppressor gene. Here, we report two cases of MCL patients with FH mutations, designated as T287P and R190L. T287P represents a novel mutation of a highly conserved amino acid of the FH protein. In addition, a patient with an unusual clinical presentation of MCL was found to have the recurrent mutation, R190L, raising the possibility of incorporating FH sequencing as a diagnostic tool. Our findings extend the allelic series of mutations in FH and support its status as the underlying cause of MCL.
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PMID:Multiple cutaneous and uterine leiomyomata resulting from missense mutations in the fumarate hydratase gene. 1630

Since the discovery 5 years ago that the D-subunit of succinate dehydrogenase (SDHD) can behave as a classic tumour suppressor, other nuclear-encoded mitochondrial proteins (SDHB, SDHC and fumarate hydratase) have been implicated in tumour susceptibility. Mutations in these proteins are principally involved in familial predisposition to benign tumours, but the spectrum of inherited lesions is increasingly recognized to include malignant tumours, such as malignant phaeochromocytomas and renal cell carcinomas. Here we review recent advances in the field of mitochondrial tumour suppressors, the biochemical pathway that links mitochondrial dysfunction with tumorigenesis, and potential therapeutic approaches to these malignancies.
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PMID:Mitochondrial tumour suppressors: a genetic and biochemical update. 1632 64

Uterine fibroids are the most common benign tumour of the female genital tract. However, their true prevalence is probably under-estimated, as the incidence at histology is more than double the clinical incidence. Recent longitudinal studies have estimated that the lifetime risk of fibroids in a woman over the age of 45 years is more than 60%, with incidence higher in blacks than in whites. The cause of fibroids remains unclear and their biology poorly understood. No single candidate gene has been detected for commonly occurring uterine fibroids. However, the occurrence of rare uterine fibroid syndromes, such as multiple cutaneous and uterine leiomyomatosis, has been traced to the gene that codes for the mitochondrial enzyme, fumarate hydratase. Cytogenetic abnormalities, particularly deletions of chromosome 7, which are found in up to 50% of fibroid specimens, seem to be secondary rather than primary events, and investigations into the role of tumour suppressor genes have yielded conflicting results. The key regulators of fibroid growth are ovarian steroids, both oestrogen and progestogen, growth factors and angiogenesis, and the process of apoptosis. Black race, heredity, nulliparity, obesity, polycystic ovary syndrome, diabetes and hypertension are associated with increased risk of fibroids, and there is emerging evidence that familial predisposition to fibroids is associated with a distinct pattern of clinical and molecular features compared with fibroids in families without this prevalence.
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PMID:Incidence, aetiology and epidemiology of uterine fibroids. 1853 13

The past decade has seen a revival of interest in the metabolic adaptations of tumours, named for their original discoverer, Otto Warburg. Warburg reported a high rate of glycolysis in tumours, and a concurrent defect in mitochondrial respiration. The rediscovery of Warburg's hypothesis coincided with the discovery of mitochondrial tumours suppressor genes that may conform to Warburg's hypothesis. Succinate dehydrogenase and fumarate hydratase are mitochondrial proteins of the TCA cycle and the respiratory chain and when mutated lead to tumours of the nervous system known as paragangliomas and pheochromocytomas, and in the case of fumarate hydratase, cutaneous and uterine leiomyomas and renal cell cancer. Recently a novel mitochondrial protein, SDHAF2 (SDH5), was also shown to be a paraganglioma-related tumour suppressor gene. Another mitochondrial and TCA cycle-related protein, isocitrate dehydrogenase 2 is, together with IDH1, frequently mutated in the brain tumour glioblastoma. There are currently many competing hypotheses on the role of these genes in tumourigenesis, but frequent themes are the stabilization of hypoxia inducible factor 1 and upregulation of genes involved in angiogenesis, glucose transport and glycolysis. Other postulated mechanisms include the inhibition of developmental apoptosis, altered gene expression due to histone deregulation and the acquisition of novel catalytic properties. Here we discuss these diverse hypotheses and highlight very recent findings on the possible effects of IDH gene mutations.
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PMID:Warburg tumours and the mechanisms of mitochondrial tumour suppressor genes. Barking up the right tree? 2030 25

Multiple cutaneous and uterine leiomyomatosis (MCUL)/hereditary leiomyomatosis and renal cell cancer (HLRCC) (OMIM 150800/OMIM 605839) is a rare hereditary disorder leading to the development of benign cutaneous and uterine smooth muscle tumours in young adults.(1,2) This disease is characterized by an increased risk of developing renal cell carcinomas.(3) It results from dominantly inherited autosomal mutations in the fumarate hydratase (FH) gene.(4) This gene encodes a Krebs cycle enzyme, present in both cytosolic and mitochondrial compartments, and probably acts as a tumour suppressor gene. We report a 22-year-old man affected by cutaneous leiomyomatosis associated with cutis verticis gyrata, disseminated collagenoma and Charcot-Marie-Tooth disease, who was harbouring the novel FH gene mutation c.821C > T, p.Ala274Val.
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PMID:Novel FH mutation in a patient with cutaneous leiomyomatosis associated with cutis verticis gyrata, eruptive collagenoma and Charcot-Marie-Tooth disease. 2056 Sep 59

Paragangliomas and pheochromocytomas are rare neuroendocrine tumours with a very strong genetic component. It is estimated that around 40% of all cases are caused by a germline mutation in one of the 13 predisposing genes identified so far. Half of these inherited cases are intriguingly caused by mutations in genes encoding tricarboxylic acid enzymes, namely SDHA, SDHB, SDHC, SDHD, and SDHAF2 genes, encoding succinate dehydrogenase and its assembly protein, FH encoding fumarate hydratase, and MDH2 encoding malate dehydrogenase. These mutations may also predispose to other type of cancers, such as renal cancer, leiomyomas, or gastro-intestinal stromal tumours. SDH, which is also the complex II of the oxidative respiratory chain, was the first mitochondrial enzyme to be identified having tumour suppressor functions, demonstrating that 80 years after his initial proposal, Otto Warburg may have actually been right when he hypothesized that low mitochondrial respiration was the origin of cancer. This review reports the current view on how such metabolic deficiencies may lead to cancer predisposition and shows that the recent data may lead to the development of innovative therapeutic strategies and establish precision medicine approaches for the management of patients affected by these rare diseases.
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PMID:Mitochondrial Deficiencies in the Predisposition to Paraganglioma. 2847 19

Fumarate hydratase (FH), one of the members of TCA cycle, acts as a catalyte for the synthesis of malate from fumarate. FH has been proposed to play as a tumour suppressor leading to the pathogenicity of leiomyomas, renal cell carcinoma and paraganglioma. Mutations in the active site of FH lead to alteration in the protein structure. Similarly, binding of several chemical inhibitors to the active site also leads to the disruption of protein structural integrity thereby leading to protein dysfunction. Therefore, in order to address this mechanism leading to cancer, the binding efficiency of potential human FH inhibitor citrate to zebrafish fh has been extensively analysed in this study by molecular docking and simulation experiments followed by quantification of fumarate hydratase enzyme activity to validate and confirm the findings. Molecular docking revealed stronger interaction of zebrafish fh protein with inhibitor citrate when compared to natural substrate fumarate. Study on the dynamics of docked structures further confirmed that citrate was found to possess more binding affinity than fumarate. In vitro biochemical analysis also revealed concentration dependent potential inhibitory effect of citrate on zebrafish fh, thus confirming the findings of the in-silico experiments. Communicated by Ramaswamy H. Sarma.
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PMID:Identification of zebrafish fumarate hydratase active site by molecular docking and simulation studies. 3296 24

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