Succinate dehydrogenase complex, subunit A, flavoprotein variant is a protein that in humans is encoded by the ''SDHA'' gene. This gene encodes a major catalytic subunit of succinate-ubiquinone oxidoreductase, a complex of the mitochondrial respiratory chain. The complex is composed of four nuclear-encoded subunits and is localized in the mitochondrial inner membrane. SDHA contains the FAD binding site where succinate is deprotonated and converted to

fumarate Fumaric acid is an organic compound with the formula HO2CCH=CHCO2H. A white solid, fumaric acid occurs widely in nature. It has a fruit-like taste and has been used as a food additive. Its E number is E297. The salts and esters are known as f ...

. Mutations in this gene have been associated with a form of mitochondrial respiratory chain deficiency known as Leigh Syndrome. A

pseudogene Pseudogenes are nonfunctional segments of DNA that resemble functional genes. Most arise as superfluous copies of functional genes, either directly by DNA duplication or indirectly by Reverse transcriptase, reverse transcription of an mRNA trans ...

has been identified on chromosome 3q29. Alternatively spliced transcript variants encoding different isoforms have been found for this gene.

Structure

The ''SDHA'' gene is located on the p arm of chromosome 5 at locus 15 and is composed of 16 exons. The SDHA protein encoded by this gene is 664 amino acids long and weighs 72.7 kDA. SDHA protein has four subdomains, including capping domain, helical domain, C-terminal domain and most notably,

β-barrel In protein structures, a beta barrel is a beta sheet composed of tandem repeats that twists and coils to form a closed toroidal structure in which the first strand is bonded to the last strand (hydrogen bond). Beta-strands in many beta-barrels are ...

FAD-binding domain at

N-terminus The N-terminus (also known as the amino-terminus, NH2-terminus, N-terminal end or amine-terminus) is the start of a protein or polypeptide, referring to the free amine group (-NH2) located at the end of a polypeptide. Within a peptide, the ami ...

. Therefore, SDHA is a flavoprotein (Fp) due to the prosthetic group

flavin adenine dinucleotide Flavin may refer to: Placename * Flavin, Aveyron, a commune in southern France Surname * Adrian Flavin (born 1979), a professional rugby player * Christopher Flavin, president of the Worldwatch Institute * Dan Flavin (1933–1996), a minimalis ...

( FAD). Crystal structure suggests that FAD is covalently bound to a histidine residue (His99) and further coordinated by

hydrogen bond In chemistry, a hydrogen bond (or H-bond) is a primarily electrostatic force of attraction between a hydrogen (H) atom which is covalently bound to a more electronegative "donor" atom or group (Dn), and another electronegative atom bearing a ...

s with number of other amino acid residues within the FAD-binding domain. FAD which is derived from

riboflavin Riboflavin, also known as vitamin B2, is a vitamin found in food and sold as a dietary supplement. It is essential to the formation of two major coenzymes, flavin mononucleotide and flavin adenine dinucleotide. These coenzymes are involved in ...

( vitamin B₂) is thus essential cofactor for SDHA and whole complex II function.

Function

The SDH complex is located on the inner membrane of the

mitochondria A mitochondrion (; ) is an organelle found in the Cell (biology), cells of most Eukaryotes, such as animals, plants and Fungus, fungi. Mitochondria have a double lipid bilayer, membrane structure and use aerobic respiration to generate adenosi ...

and participates in both the citric acid cycle and the respiratory chain. The

succinate dehydrogenase Succinate dehydrogenase (SDH) or succinate-coenzyme Q reductase (SQR) or respiratory complex II is an enzyme complex, found in many bacterial cells and in the inner mitochondrial membrane of eukaryotes. It is the only enzyme that participates i ...

(SDH) protein complex catalyzes the oxidation of succinate (succinate + ubiquinone => fumarate + ubiquinol). Electrons removed from succinate transfer to SDHA, transfer across SDHB through iron sulphur clusters to the SDHC/ SDHD subunits on the hydrophobic end of the complex anchored in the mitochondrial membrane. Initially, SDHA oxidizes succinate via deprotonation at the FAD binding site, forming FADH₂ and leaving

, loosely bound to the active site, free to exit the protein. The electrons derived from succinate tunnel along the e-Srelay in the SDHB subunit until they reach the Fe-4S iron sulfur cluster. The electrons are then transferred to an awaiting ubiquinone molecule at the Q pool active site in the SDHC/ SDHD dimer. The O1 carbonyl oxygen of ubiquinone is oriented at the active site (image 4) by

interactions with Tyr83 of SDHD. The presence of electrons in the Fe-4Siron sulphur cluster induces the movement of ubiquinone into a second orientation. This facilitates a second hydrogen bond interaction between the O4 carbonyl group of ubiquinone and Ser27 of SDHC. Following the first single electron reduction step, a semiquinone radical species is formed. The second electron arrives from the Fe-4Scluster to provide full reduction of the ubiquinone to ubiquinol. SDHA acts as an intermediate in the basic SDH enzyme action: # SDHA converts succinate to

as part of the Citric Acid Cycle. This reaction also converts FAD to FADH₂. # Electrons from the FADH₂ are transferred to the SDHB subunit iron clusters Fe-2S Fe-4S Fe-4S This function is part of the Respiratory chain # Finally the electrons are transferred to the Ubiquinone (Q) pool via the SDHC/ SDHD subunits.

Clinical significance

Bi-allelic mutations (i.e. both copies of the gene are mutated) have been described in Leigh syndrome, a progressive brain disorder that typically appears in infancy or early childhood. Affected children may experience vomiting, seizures, delayed development, muscle weakness, and problems with movement. Heart disease, kidney problems, and difficulty breathing can also occur in people with this disorder. The SDHA gene mutations responsible for Leigh syndrome change single amino acids in the SDHA protein, such as a G555E mutation observed in multiple patients, or result in an abnormally short protein. These genetic changes disrupt the activity of the SDH enzyme, impairing the ability of mitochondria to produce energy. It is not known, however, how mutations in the SDHA gene are related to the specific features of Leigh syndrome. SDHA is a tumour suppressor gene, and heterozygous carriers have an increased risk of paragangliomas as well as pheochromocytomas and renal cancer. Risk management for heterozygous carriers of an SDHA mutation can involve annual urine tests for metanephrines and 3-methoxytyramine and MRIs.

Structure

Function

Clinical significance

Interactive pathway map

References

Further reading