Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
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Pheochromocytomas and paragangliomas are neural-crest-derived tumors that arise from mutations in RET, VHL, NF1, and in the genes-encoding succinate dehydrogenase (SDH) subunits B (SDHB), C (SDHC), and D (SDHD). Despite their genetic diversity, these tumors cannot be clearly distinguished on the basis of their primary mutation. We recently identified two major transcriptional programs embedded within familial and sporadic pheochromocytomas and paragangliomas using global expression profiling. This review will summarize the major results of these studies and discuss their implications. The transcription data revealed that: (a) tumors with mutations in VHL, SDHB, and SDHD genes share a transcription signature of hypoxia, angiogenesis, and oxidoreductase imbalance; (b) SDHB protein is suppressed in tumors with mutations in SDHB and SDHD, and also in a subset of tumors with VHL mutations; and (c) HIF1alpha is involved in the SDHB downregulation observed in these tumors. These results are consistent with the existence of a close interconnection between the VHL and SDH pathways mediated predominantly by hypoxia and oxidoreductase signals. It further suggests that low SDHB levels indicative of impaired mitochondrial complex II function may be a shared element of these pheochromocytomas. SDHB may thus constitute a marker for tumors with abnormal hypoxic profile.
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PMID:Transcription association of VHL and SDH mutations link hypoxia and oxidoreductase signals in pheochromocytomas. 1710 89

Mutations in the genes encoding succinate dehydrogenase (SDH) have been associated with susceptibility to pheochromocytoma. However, few reports have examined the level of SDH mRNAs expression. In this study, we examined the level of expression of mRNAs encoding SDHB, SDHC, and SDHD in pheochromocytoma, pheochromocytoma subgroups, and normal adrenal gland, and compared the expression of these genes to the level of expression of related genes in the same tissues. The mean relative level of expression of SDHB, SDHC, SDHD and VHL mRNA was 28.7+/-6.2%, 16.6+/-4.8%, 214+/-47.5% and 25.9+/-8.2%, respectively, in pheochromocytoma tissues compared to normal adrenal gland. Furthermore, the mean relative level of the RET proto-oncogene mRNA was 707+/-149% in pheochromocytoma compared to normal adrenal gland. The level of expression of the SDH genes was highly correlated in each individual sample (P<0.0001). The level of expression of the SDH mRNAs correlated with the level of VHL mRNA (P<0.0001), but not with the level of RET mRNA. The level of SDH mRNAs expression also correlated with the expression of phenylethanolamine N-methyl transferase (PNMT), an adrenaline synthesizing enzyme (P<0.01), which may explain the correlation between SDH expression and adrenaline content (P<0.05). The level of SDH mRNAs expression correlated strongly with the expression of VEGF mRNA (P<0.0001). In multiple endocrine neoplasia (MEN) 2a, the expression of the SDH genes and VHL mRNA was significantly higher than that observed in adrenal or extra-adrenal pheochromocytoma. The expression of the corticotropin-releasing hormone (CRH) mRNA was significantly higher in extra-adrenal pheochromocytoma than in adrenal pheochromocytoma or MEN2a. Thus, tumor-specific gene expression exists in pheochromocytoma, which may explain the characteristics of the tumor.
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PMID:Expression of mRNAs for succinate dehydrogenase subunits and related genes in pheochromocytoma. 1710 93

Hereditary adrenal pheochromocytoma is caused by germline mutations in RET, VHL, SDHB, SDHD, and NF1. As these genes differ in function, so may their pheochromocytoma phenotypes, suggesting gene-specific patterns of age-related progression to pheochromocytoma. This possibility was explored for gene carriers with a lifetime risk of pheochromocytoma in excess of 50%. Published age-standardized penetrance rates of VHL-, SDHB-, and SDHD-associated pheochromocytoma were gauged against age-standardized penetrance rates of MEN2-associated pheochromocytoma in 219 institutional carriers of RET mutations conferring highest (codon 918), high (codons 609, 611, 618, 620, 630, and 634) and least high risk (codons 768, 790, 791, 804, and 891). The highest-risk category included SDHB, SDHD, and the highest-risk RET genotype; the high-risk category VHL missense mutations and the high-risk RET genotypes; and the least-high risk category VHL truncating mutations and least-high risk RET genotypes. Detailed information on recurrence rates and intervals was available only for the RET carriers (19-31% and means of 4.3-5.5 years; all RET risk categories combined). Ipsilateral recurrences in adrenal remnants, and contralateral recurrences in virgin adrenals were comparable in incidence (27% and 39%, P=0.69; high-risk RET category) and time to recurrence (means of 4.3 vs. 5.4 year; P>0.99; high-risk RET category), discounting a major effect of tumor spillage at primary subtotal adrenalectomy on pheochromocytoma recurrence. The risk of malignancy usually is low, except for SDHB (38%). For most hereditary pheochromocytomas, endoscopic subtotal adrenalectomy is the procedure of choice. Grouping hereditary pheochromocytoma into preliminary risk categories may improve the management of gene carriers at risk of developing pheochromocytomas.
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PMID:Risk-oriented approach to hereditary adrenal pheochromocytoma. 1710 10

Pheochromocytoma (PHEO) is considered to be a rare cause of hypertension. However, if left untreated, PHEOs may lead to fatal hypertensive crises during anesthesia and other stresses. The diagnosis of PHEO is therefore extremely important. A 24-hour blood pressure (BP) pattern per se might be of some diagnostic value due to frequently observed higher BP variability as well as an attenuated night-time BP decrease. So far, germline mutations in five genes have been identified to be responsible for familial PHEOs: the von Hippel-Lindau gene, which causes von Hippel-Lindau syndrome, the RET gene leading to multiple endocrine neoplasia type 2, the neurofibromatosis type 1 gene, which is associated with von Recklinghausen's disease and the genes encoding the B and D subunits of mitochondrial succinate dehydrogenase (SDHB, SDHD), which are associated with familial paragangliomas and PHEOs. Genetic analysis should be offered to those patients with confirmed PHEO who are 50 years old or younger. Plasma-free metanephrines or urinary fractionated metanephrines seem to have higher diagnostic values compared to plasma or urinary catecholamines for the biochemical diagnosis of PHEO. Imaging with (123)I-metaiodobenzylguanidine or (18)F-fluorodopamine PET, if available, are in addition to CT/MRI useful for the detection of multifocal/extra-adrenal forms. Appropriate pharmacologic treatment with subsequent laparoscopic extirpation of PHEO is usually successful in benign forms. There is, however, no convincingly effective mode of treatment in malignant PHEOs.
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PMID:Recent advances in the diagnosis and treatment of pheochromocytoma. 1711 41

Following recent advances in the genetics of phaeochromocytomas and paragangliomas, the members of the European Network for the Study of Adrenal Tumours (ENS@T) Phaeochromocytoma Working Group have decided to share their genotyping data and to propose European recommendations for phaeochromocytoma/functional paraganglioma (PH/FPGL) genetic testing. Germline DNA from 642 patients was analysed by ENS@T teams. In 166 patients (25.9%) the disease was familial and caused by germline mutations in VHL (56), SDHB (34), SDHD (31), RET (31) or NF1 (14), causing von Hippel-Lindau disease, SDHB- or SDHD-PH/FPGL syndromes, multiple endocrine neoplasia type 2 (MEN 2) and type 1 neurofibromatosis (NF1), respectively. In almost 60% of inherited cases it was possible to formulate a probable genetic diagnosis based on family history and/or typical syndromic presentation. Genetic testing revealed mutations in 12.7% of cases with an apparently sporadic presentation. Several clinical characteristics, such as young age at onset, the presence of bilateral, extra-adrenal or multiple tumours or a malignant tumour, should be seen as indications for genetic testing. The ENS@T Phaeochromocytoma Working Group recommends the genetic testing of all patients with PH and FPGL and suggests a practice algorithm for the management of their exploration.
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PMID:Phaeochromocytoma, new genes and screening strategies. 1712 18

The familial forms of pheochromocytoma have recently been demonstrated to be more frequent than believed in the past. The genes currently known to be responsible for tumor formation are RET, VHL, NF1, SDHB, SDHC and SDHD. Germline mutations of these genes increase the risk of developing pheochromocytomas and/or paragangliomas which variably associate with other neoplasms and characterize diverse clinical syndromes such as MEN 2, von Hippel-Lindau (VHL), and neurofibromatosis type 1 (NF 1), or the PGL syndromes, respectively. Although the pathogenesis of pheochromocytoma/paraganglioma formation is still largely unknown, studies of the familial forms have started to uncover some pathways that favor tumor formation, such as activation of tyrosine-kinase, induction of hypoxia-inducible factors, activation of the oncogene Ras or reduced apoptosis. These studies have also demonstrated that various gene mutations can differently affect the biological characteristics of pheochromocytoma: for example, while the tumors are mostly adrenergic (epinephrine secreting) and episodically secreting in MEN 2, they are mostly noradrenergic (norepinephrine secreting) and continuously secreting in VHL. Biological variability can also be observed in the PGL syndromes where tumors develop in the head and neck and are parasympathetic in origin and non-secreting, or in the thorax and the abdomen, where they are sympathetic in origin and catecholamine secreting. Genetic testing in patients with pheochromocytomas or paragangliomas is, at present, strongly recommended and is mandatory in young patients or in cases of multiple or recurrent tumors. The clinical picture and the biological characteristics of the tumor may suggest the priority of the genes to be tested first.
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PMID:Genetics and biology of pheochromocytoma. 1742 3

Pheochromacytoma is a relatively rare cause of arterial hypertension. Untreated pheochromacytoma may however lead to a fatal hypertensive crisis during anaesthesia or another form of stress. It is therefore important to correctly diagnose this disease. 24-hour monitoring of blood pressure (BP) can already contribute to the diagnosis of pheochromacytoma based on the frequent occurrence of BP variability and the absence of a night-time fall in BP. 5 gene mutations have so far been identified that may be responsible for the familial form of pheochromacytoma: mutation of the von Hippel-Lindau (VHL) gene, leading to the onset of VHL syndrome, mutation of the RET-proto-oncogene in multiple endocrine adenomatosis type 2, mutation of the type 1 gene for neurofibromatosis, which is associated with von Recklinghausen's disease and finally mutation of the genes encoding the B and D subunits of succinated hydrogenase (SDHB, SDHD), which are associated with familial paragangliomas and pheochromacytoma. Genetic analysis should therefore be carried out for all confirmed cases of pheochromacytoma, especially for young people under 50 years of age. Biochemical diagnostics relies mainly on measurements of free metanephrines in plasma or urine, which usually has greater diagnostic weight than plasma, or catecholamines in urine. The diagnosis of extraadrenal or multiple forms can use not only CT/MR but also imaging using the radiopharmaceutical 123I-Metaiodobenzylguanidine (MIBG) or 18F-fluorodopamine PET (only available in the USA). Pharmacological treatment using alpha or beta receptor blockers with subsequent laparoscopic excision of the tumor is usually successful in benign forms of pheochromocytoma. Unfortunately, there are still no convincingly effective therapeutic procedures available for malign forms.
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PMID:[Diagnostic and therapeutic procedures in pheochromocytoma: current trends]. 1757 79

Pheochromocytomas (PCCs) are rare tumors that arise from chromaffin tissue in the adrenal medulla, but can also occur in the abdomen outside the adrenals and are then called sympathetic paragangliomas (sPGLs). According to the literature, between 15 and 25% of apparently sporadic adrenal PCC and sPGL are caused by germline mutations in RET, von Hippel-Lindau disease (VHL), succinate dehydrogenase subunit B (SDHB), or subunit D SDHD. However, few studies have addressed the mutationfrequency of these candidate genes in selected subgroups of PCC andsPGL, such as bilateral adrenal PCC or extra-adrenal sPGL, and none have looked at somatic mutations by analyzing tumor tissue. Therefore, we have investigated the occurrence of germline and somatic mutations in RET, VHL, SDHB, and SDHD in comparatively large series of bilateral adrenal PCC (n = 33 patients) and sPGL (n = 26 patients), with the aim of determining the mutation frequency of each of these genes and to establish a genetic testing algorithm. Twenty-one RET, two VHL germline, and one SDHD mutations were found in the patients with bilateral adrenal PCC. In sPGL, one novel SDHB germline and one novel SDHB somatic mutation were observed. In addition, two SDHD germline mutations were found. We conclude that germline RET mutations are predominantly found in bilateral PCC, and that somatic and germline SDHB and SDHD mutations usually occur in sPGL, which has practical consequences for genetic testing algorithms. We suggest that sequential mutation analysis should be directed first at RET, followed by VHL and SDHD for patients with bilateral adrenal PCC at diagnosis, and at SDHB and SDHD for patients with sPGL.
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PMID:Candidate gene mutation analysis in bilateral adrenal pheochromocytoma and sympathetic paraganglioma. 1763 58

Gastrointestinal stromal tumors (GISTs) may be caused by germline mutations of the KIT and platelet-derived growth factor receptor-alpha (PDGFRA) genes and treated by Imatinib mesylate (STI571) or other protein tyrosine kinase inhibitors. However, not all GISTs harbor these genetic defects and several do not respond to STI571 suggesting that other molecular mechanisms may be implicated in GIST pathogenesis. In a subset of patients with GISTs, the lesions are associated with paragangliomas; the condition is familial and transmitted as an autosomal-dominant trait. We investigated 11 patients with the dyad of 'paraganglioma and gastric stromal sarcoma'; in eight (from seven unrelated families), the GISTs were caused by germline mutations of the genes encoding subunits B, C, or D (the SDHB, SDHC and SDHD genes, respectively). In this report, we present the molecular effects of these mutations on these genes and the clinical information on the patients. We conclude that succinate dehydrogenase deficiency may be the cause of a subgroup of GISTs and this offers a therapeutic target for GISTs that may not respond to STI571 and its analogs.
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PMID:Clinical and molecular genetics of patients with the Carney-Stratakis syndrome and germline mutations of the genes coding for the succinate dehydrogenase subunits SDHB, SDHC, and SDHD. 1766 67

von Hippel-Lindau disease, which is characterized by an increased risk of hemangioblastomas, clear cell renal carcinomas, and pheochromocytomas, is caused by inactivating mutations of the VHL tumor suppressor gene. The VHL gene product, pVHL, has multiple functions, but the best documented, and the one most clearly linked to tumor development, relates to its role as the substrate recognition module of a ubiquitin ligase complex that targets hypoxia-inducible factor (HIF) for destruction. pVHL function is often compromised in sporadic kidney cancers, and inhibitors of the HIF-responsive growth factor (vascular endothelial growth factor) are active against this disease. pVHL, by inhibiting atypical protein kinase C and hence JunB, also affects neuronal survival, as do the products of the other genes linked to familial pheochromocytoma or paraganglioma (NF1, RET, SDHB, SDHC, and SDHD). It is hypothesized that tumor-associated alleles of these genes allow primitive sympathoadrenal precursors to escape developmental culling, and that such cells are at increased risk of forming tumors.
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PMID:Von Hippel-Lindau disease. 1803 96


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