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Query: EC:1.3.5.1 (
succinate dehydrogenase
)
8,177
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Paragangliomas are rare tumors of neural crest origin. They are benign in the majority of cases and are characterized by a strong vascularisation. In the head and neck region they most commonly occur as carotid body tumors. Jugulotympanic and especially vagal paragangliomas are seen less frequently. Complete surgical resection represents the only curative treatment option even though resection of locally advanced tumors regularly results in lesions of the lower cranial nerves and major vessels. Approximately 30% of all head and neck paragangliomas (HNPs) are hereditary and associated with different tumor syndromes. The paraganglioma syndromes 1, 3 and 4 (PGL 1, 3 and 4) make up the majority of those familial cases. PGL 1 is associated with mutations of the
succinate dehydrogenase
subunit D (SDHD) gene, PGL 3 is caused by
SDHC
and PGL 4 by SDHB gene mutations. Multiple HNPs and the occurrence of HNPs together with pheochromocytomas are seen in SDHD as well as SDHB mutation carriers. In patients with SDHB mutations the risk for the development of malignant paraganglial tumors is significantly higher compared to
SDHC
and SDHD patients as well as patients with sporadic tumors.
SDHC
mutation carriers almost exclusively present with benign HNPs that are unifocal in the majority of cases. The role of transmission is autosomal dominant for all 3 symptoms. Interestingly, there is a "parent-of-origin-dependent-inheritance" in subjects with SDHD gene mutations. This means that the disease phenotype may only become present if the mutation is inherited through the paternal line. We recommend screening for mutations of the genes SDHB,
SDHC
and SDHD in all patients with HNPs. Certain clinical parameters can help to set up the order in which the 3 genes should be tested.
...
PMID:[Paragangliomas and paraganglioma syndromes]. 2152 34
Paragangliomas/pheochromocytomas (PGL/PCC) are tumors of the paraganglia. They can occur sporadically, as one sign in a hereditary (tumor) syndrome or as the only manifestation in hereditary PGL/PCC. To date, five forms of hereditary PGL/PCC have been described. They are inherited as autosomal dominant traits and are caused by mutations in genes required for structure and function of
complex II
of the respiratory chain (succinate-ubiquinone oxidoreductase,
succinate dehydrogenase
, SDH). Mutations in genes encoding the small subunits of SDH, i.e., SDHD and
SDHC
, cause PGL1 and
PGL3
. Mutations in the large subunit genes SDHB, SDHA (currently only one case), and in SDHAF2 cause PGL4, 5, and 2, respectively. This article gives an overview of PGL/PCC in the context of the anatomy and function of paraganglia. It describes SDH, the genes encoding SDH, and provides information on genetic mechanisms in hereditary PGL/PCC. A model is proposed to explain exclusive paternal inheritance and loss of the maternal (putatively imprinted) allele as a prerequisite for tumor formation in PGLs 1 and 2.
...
PMID:Pathological mechanisms and parent-of-origin effects in hereditary paraganglioma/pheochromocytoma (PGL/PCC). 2154 62
Most intracellular reactive oxygen species (ROS), especially superoxide anion (O(2)(-)) that is converted from oxygen, are overproduced by excessive electron leakage from the mitochondrial respiratory chain. Intracellular oxidative stress that damages cellular components can contribute to lifestyle-related diseases such as diabetes and arteriosclerosis, and age-related diseases such as cancer and neuronal degenerative diseases. We have previously demonstrated that the excessive mitochondrial O(2)(-) production caused by
SDHC
mutations (G71E in C. elegans, I71E in Drosophila and V69E in mouse) results in premature death in C. elegans and Drosophila, cancer in mouse embryonic fibroblast cells and infertility in transgenic mice.
SDHC
is a subunit of mitochondrial
complex II
. In humans, it has been reported that mutations in SDHB,
SDHC
or SDHD often result in inherited head and neck paragangliomas (PGLs). Recently, we established Tet-mev-1 conditional transgenic mice using our uniquely developed Tet-On/Off system, which equilibrates transgene expression to endogenous levels. These mice experienced mitochondrial respiratory chain dysfunction that resulted in O(2)(-) overproduction. The mitochondrial oxidative stress caused excessive apoptosis leading to low birth weight and growth retardation in the neonatal developmental phase in Tet-mev-1 mice. Here, we briefly describe the relationships between mitochondrial O(2)(-) and aging phenomena in mev-1 animal models. [BMB reports 2011; 44(5): 298-305].
...
PMID:Mitochondrial superoxide anion (O(2)(-)) inducible "mev-1" animal models for aging research. 2161 83
The SDHA, SDHB,
SDHC
, SDHD genes encode the four subunits of
succinate dehydrogenase
(SDH; mitochondrial
complex II
), a mitochondrial enzyme involved in two essential energy-producing metabolic processes of the cell, the Krebs cycle and the electron transport chain. Germline loss-of-function mutations in any of the SDH genes or assembly factor (SDHAF2) cause hereditary paraganglioma/phaeochromocytoma syndrome (HPGL/PCC) through a mechanism which is largely unknown. Owing to the central function of SDH in cellular energy metabolism it is important to understand its role in tumor suppression. Here is reported an overview of genetics, clinical and molecular progress recently performed in understanding the basis of HPGL/PCC tumorigenesis.
...
PMID:SDH mutations in cancer. 2177 81
Head and neck paragangliomas (HNPGLs) are rare, and frequently associated with germline mutations of the
succinate dehydrogenase
(
SDH
) genes, especially for familial cases. The purpose of the study is to explore
SDH
mutations in Chinese families with familial HNPGLs in Taiwan. Four unrelated families with familial HNPGLs were screened for germline mutations in the SDHB,
SDHC
and SDHD genes by direct sequencing. One hundred healthy subjects without a diagnosis or family history of HNPGLs were screened as normal controls. Immunohistochemistry with SDHB antibody was performed for a carotid body tumor. Two allele variants were identified, including p.Met1Val (c.1A>G) in the SDHD gene in one family and p.Met1Ile (c.3G>C) in the SDHD gene in the other three families. Both variants are considered pathogenic because of the absence of these variants in 100 normal controls, 100% evolutionary conservation of the p.Met1 residue, co-segregation of the variants with the phenotype of HNPGL in pedigrees, and predicted abolishment of the translation start site. The tumor cells obtained from one proband harboring c.3G>C mis-sense mutation were weak diffuse staining in the cytoplasm of tumors cells. This study demonstrates that two mis-sense mutations at the start codon of the SDHD gene, including p.Met1Val (c.1A>G) and p.Met1Ile (c.3G>C), might be mutation hotspots in Chinese patients with familial HNPGLs.
...
PMID:Common genetic mutations in the start codon of the SDH subunit D gene among Chinese families with familial head and neck paragangliomas. 2194 42
Gastrointestinal stromal tumors (GISTs) are the most common mesenchyme neoplasms of the gastrointestinal tract. Gain-of-function somatic mutations of the KIT or PDGFRA genes represent the most prevalent molecular alterations in GISTs. In Carney-Stratakis dyad, patients portray germline mutations of the
succinate dehydrogenase
subunits B (SDHB), C (
SDHC
) and D (SDHD) and develop multifocal GISTs and multicentric paragangliomas (PGLs). We herein report a novel germline SDHB mutation (c.T282A--Ile44Asn) occurring in a 26 years-old patient diagnosed with a spindle cell intermediate risk GIST that did not present KIT/PDGFRA/BRAF gene mutations. Further analyses revealed loss of the wild-type SDHB allele and complete loss of SDHB expression in the tumor tissue. After genetic screening of other family members, we detected in the patient's mother a SDHB mutation without any clinical/laboratorial evidence of GIST or PGL. Altogether, our findings (germline SDHB mutation with absence of PGL in the index case and of GIST and/or PGL in his mother) raise the possibility that this familiar setting corresponds to an incomplete phenotype of the Carney-Stratakis dyad.
...
PMID:A novel germline SDHB mutation in a gastrointestinal stromal tumor patient without bona fide features of the Carney-Stratakis dyad. 2216 May 9
The etiology and pathogenesis of renal cell carcinoma (RCC) are only partially understood. Key findings in hereditary RCC, which may be site specific or a component of a syndrome, have contributed to our current understanding. Important heritable syndromes of RCC are those associated with pheochromocytoma, especially von Hippel-Lindau disease (VHL) associated with germline VHL mutations, and pheochromocytoma and paraganglioma syndrome (PGL) associated with mutations in one of the four genes (SDHA-D) encoding
succinate dehydrogenase
. A subset of individuals with SDHB and SDHD germline DNA mutations and variants develop RCC. RCC has never been described as a component of
SDHC
-associated
PGL3
. The European-American Pheochromocytoma and Paraganglioma Registry comprises 35 registrants with germline
SDHC
mutations. A new registrant had carotid body tumor (CBT) and his mother had CBT and bilateral RCC. Blood DNA, paragangliomas, and RCCs were analyzed for mutations and loss-of-heterozygosity (LOH) in/flanking
SDHC
and VHL. The proband with unilateral CBT had a germline
SDHC
c.3G>A (p.M1I) mutation. His mutation-positive mother had CBT at age 42, clear cell RCC (ccRCC) at age 68, and papillary RCC (pRCC) at age 69. Both paraganglial tumors showed somatic LOH of the
SDHC
locus. Both ccRCC and pRCC did not have a somatic
SDHC
mutation but showed LOH for intragenic and flanking markers of the
SDHC
locus. LOH was also present for the VHL locus. Our findings suggest that RCC is a component of
PGL3
. Biallelic inactivation of the
SDHC
gene may represent a new pathway of pathogenesis of syndromic and nonsyndromic RCC, perhaps of both clear cell and papillary histologies.
...
PMID:Biallelic inactivation of the SDHC gene in renal carcinoma associated with paraganglioma syndrome type 3. 2235 10
Pheochromocytomas and paragangliomas (PCC/PGL) are tumors derived from the adrenal medulla or extra-adrenal ganglia, respectively. They are rare and often benign tumors that are associated with high morbidity and mortality due to mass effect and high circulating catecholamines. Although most PCCs and PGLs are thought to be sporadic, over one third are associated with 10 known susceptibility genes. Mutations in three genes causing well characterized tumor syndromes are associated with an increased risk of developing PCCs and PGLs, including VHL (von Hippel-Lindau disease), NF1 (Neurofibromatosis Type 1), and RET (Multiple Endocrine Neoplasia Type 2). Mutations in any of the
succinate dehydrogenase
(
SDH
) complex subunit genes (SDHA, SDHB,
SDHC
, SDHD) can lead to PCCs and PGLs with variable penetrance, as can mutations in the subunit cofactor, SDHAF2. Recently, two additional genes have been identified, TMEM127 and MAX. Although these tumors are rare in the general population, occurring in two to eight per million people, they are more commonly associated with an inherited mutation than any other cancer type. This review summarizes the known germline and somatic mutations leading to the development of PCC and PGL, as well as biochemical profiling for PCCs/PGLs and screening of mutation carriers.
...
PMID:Pheochromocytoma and paraganglioma: understanding the complexities of the genetic background. 2242 92
The genes for the
succinate dehydrogenase
(
SDH
) subunits SDHA, SDHB,
SDHC
and SDHD are encoded in the autosome. The proteins are assembled in the mitochondria to form the mitochondrial complex 2, a key respiratory enzyme which links the Krebs cycle and the electron transport chain. Thirty percent of phaeochromocytoma and paraganglioma (PHEO/PGL) are hereditary and perhaps as many as half of these familial cases are caused by germline mutations of the
SDH
subunits. Negative immunohistochemical staining for the SDHB subunit identifies PHEO/PGL associated with germline mutation of any of the mitochondrial complex 2 components and can be used to triage formal genetic testing of all PHEO/PGL for
SDH
mutations. PHEO/PGL associated with SDHA mutation also show negative staining for SDHA as well as SDHB.A unique subgroup of gastrointestinal stromal tumours (GISTs) are driven by mitochondrial complex 2 dysfunction. These
SDH
deficient GISTs can also be definitively identified by negative staining for SDHB and show distinct clinical and morphological features including frequent onset in childhood and young adulthood, gastric location, a tendency to multifocality, absence of KIT and PDGFRA mutations, a prognosis not predicted by size and mitotic rate and a tendency to indolent behaviour of metastases. Some of these
SDH
deficient GISTs are driven by classical
SDH
mutations, but the precise mechanisms of tumourigenesis in many (including those associated with the Carney triad) remain unknown. Germline SDHB mutation is associated with a newly recognised type of renal carcinoma which commonly but not always demonstrates distinctive morphology and can also be recognised by negative staining for SDHB.Immunohistochemistry for SDHB therefore has emerged as a useful tool to recognise these distinct neoplasias driven by mitochondrial complex 2 dysfunction and to triage formal genetic testing for the associated syndromes.
...
PMID:Succinate dehydrogenase (SDH) and mitochondrial driven neoplasia. 2254 11
Paragangliomas are rare tumors of neural crest origin. They are benign in the majority of cases and are characterized by a strong vascularisation.In the head and neck region they most commonly occur as carotid body tumors. Jugulotympanic and especially vagal paragangliomas are seen less frequently. Complete surgical resection represents the only curative treatment option even though resection of locally advanced tumors regularly results in lesions of the lower cranial nerves and major vessels. Appoximately 30% of all head and neck paragangliomas (HNPs) are hereditary and associated with different tumor syndromes. The paraganglioma syndromes 1, 3 and 4 (PGL 1, 3 and 4) make up the majority of those familial cases. PGL 1 is associated with mutations of the
succinate dehydrogenase
subunit D (SDHD) gene, PGL 3 is caused by
SDHC
and PGL 4 by SDHB gene mutations. Multiple HNPs and the occurance of HNPs together with pheochromocytomas are seen in SDHD as well as SDHB mutation carriers. In patients with SDHB mutations the risk for the development of malignant paraganglial tumors is significantly higher compared to
SDHC
and SDHD patients as well as patients with sporadic tumors.
SDHC
mutation carriers almost exclusively present with benign HNP that are unifocal in the majority of cases. The role of transmission is autosomal dominant for all three symptoms. Interestingly, there is a "parent-of-origin-dependent-inheritance" in subjects with SDHD gene mutations. This means that the disease phenotype may only become present if the mutation is inherited through the paternal line. We recommend screening for mutations of the genes SDHB,
SDHC
and SDHD in patients with HNPs. Certain clinical parameters can help to set up the order in which the three genes should be tested.
...
PMID:Paragangliomas and paraganglioma syndromes. 2255 53
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