SUCLG2
Lua error in Module:Infobox_gene at line 53: attempt to index field 'wikibase' (a nil value). Succinyl-CoA ligase [GDP-forming] subunit beta, mitochondrial is an enzyme that in humans is encoded by the SUCLG2 gene on chromosome 3.[1]
This gene encodes a GTP-specific beta subunit of succinyl-CoA synthetase. Succinyl-CoA synthetase catalyzes the reversible reaction involving the formation of succinyl-CoA and succinate. Alternate splicing results in multiple transcript variants. Pseudogenes of this gene are found on chromosomes 5 and 12. [provided by RefSeq, Apr 2010][1]
Structure
[edit | edit source]SCS, also known as succinyl CoA ligase (SUCL), is a heterodimer composed of a catalytic α subunit encoded by the SUCLG1 gene and a β subunit encoded by either the SUCLA2 gene or the SUCLG2 gene, which determines the enzyme specificity for either ADP or GDP. SUCLG2 is the SCS variant containing the SUCLG2-encoded β subunit.[2][3][4] Amino acid sequence alignment of the two β subunit types reveals a homology of ~50% identity, with specific regions conserved throughout the sequences.[5]
SUCLG2 is located on chromosome 3 and contains 14 exons.[1]
Function
[edit | edit source]As a subunit of SCS, SUCLG2 is a mitochondrial matrix enzyme that catalyzes the reversible conversion of succinyl-CoA to succinate and acetoacetyl CoA, accompanied by the substrate-level phosphorylation of GDP to GTP, as a step in the tricarboxylic acid (TCA) cycle.[2][3][4][6] The GTP generated is then consumed in anabolic pathways.[3][5] However, since GTP is not transported through the inner mitochondrial membrane in mammals and other higher organisms, it must be recycled within the matrix.[4] In addition, SUCLG2 may function in ATP generation in the absence of SUCLA2 by complexing with the mitochondrial nucleotide diphosphate kinase, nm23-H4, and thus compensate for SUCLA2 deficiency.[2][4] The reverse reaction generates succinyl-CoA from succinate to fuel ketone body and heme synthesis.[2][4]
While SCS is ubiquitously expressed, SUCLG2 is predominantly expressed in tissues involved in biosynthesis, including liver and kidney.[4][5][7] SUCLG2 has also been detected in the microvasculature of the brain, likely to support its growth.[3] Notably, both SUCLA2 and SUCLG2 are absent in astrocytes, microglia, and oligodendrocytes in the brain; thus, in order to acquire succinate to continue the TCA cycle, these cells may instead synthesize succinate through GABA metabolism of α-ketoglutarate or ketone body metabolism of succinyl-CoA.[3][4]
Clinical significance
[edit | edit source]Though mitochondrial DNA (mtDNA) depletion syndrome has been largely attributed to SUCLA2 deficiency, SUCLG2 may play a more crucial role in mtDNA maintenance, as it functions to compensate for SUCLA2 deficiency and its absence results in decreased mtDNA and OXPHOS-dependent growth.[2]
SUCLG2 may also play a role in clearing cerebrospinal fluid amyloid-beta 1–42 (Aβ1–42) in Alzheimer's disease (AD) and, thus, reducing neuronal death.[6]
See also
[edit | edit source]References
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