MT-ATP6

ATP6
Identifiers
AliasesATP6, ATPase6, MTATP synthase Fo subunit 6
External IDsOMIM: 516060; MGI: 99927; HomoloGene: 5012; GeneCards: ATP6; OMA:ATP6 - orthologs
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

n/a

n/a

RefSeq (protein)

n/a

NP_904333

Location (UCSC)Chr M: 0.01 – 0.01 MbChr M: 0.01 – 0.01 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse
The 46-nucleotide overlap in the reading frames of the human mitochondrial genes MT-ATP6 and MT-ATP8. For each nucleotide triplet (square brackets), the corresponding amino acid is given (one-letter code), either in the +3 frame for MT-ATP6 (in blue) or in the +1 frame for MT-ATP8 (in red).

MT-ATP6 (or ATP6) is a mitochondrial gene with the full name 'mitochondrially encoded ATP synthase membrane subunit 6' that encodes the ATP synthase Fo subunit 6 (or subunit/chain A). This subunit belongs to the Fo complex of the large, transmembrane F-type ATP synthase.[5] This enzyme, which is also known as complex V, is responsible for the final step of oxidative phosphorylation in the electron transport chain. Specifically, one segment of ATP synthase allows positively charged ions, called protons, to flow across a specialized membrane inside mitochondria. Another segment of the enzyme uses the energy created by this proton flow to convert a molecule called adenosine diphosphate (ADP) to ATP. Mutations in the MT-ATP6 gene have been found in approximately 10 to 20 percent of people with Leigh syndrome.[6]

Structure

Location of the MT-ATP6 gene on the L strand of the human mitochondrial genome. MT-ATP6 is one of the two ATP synthase mitochondrial genes (red boxes).

The MT-ATP6 gene provides information for making a protein that is essential for normal mitochondrial function. The human MT-ATP6 gene, located in mitochondrial DNA, is 681 base pairs in length.[7] An unusual feature of MT-ATP6 is the 46-nucleotide gene overlap of its first codons with the end of the MT-ATP8 gene. With respect to the MT-ATP6 reading frame (+3), the MT-ATP8 gene ends in the +1 reading frame with a TAG stop codon.

The MT-ATP6 protein weighs 24.8 kDa and is composed of 226 amino acids.[8][9] The protein is a subunit of the F1Fo ATPase, also known as Complex V, which consists of 14 nuclear- and 2 mitochondrial-encoded subunits. As an A subunit, MT-ATP6 is contained within the non-catalytic, transmembrane Fo portion of the complex.[7]

The nomenclature of the enzyme has a long history. The F1 fraction derives its name from the term "Fraction 1" and Fo (written as a subscript letter "o", not "zero") derives its name from being the binding fraction for oligomycin, a type of naturally-derived antibiotic that is able to inhibit the Fo unit of ATP synthase.[10][11] The Fo region of ATP synthase is a proton pore that is embedded in the mitochondrial membrane. It consists of three main subunits A, B, and C, and (in humans) six additional subunits, d, e, f, g, F6, and 8 (or A6L). 3D structure of E. coli homologue of this subunit was modeled based on electron microscopy data (chain M of PDB: 1c17​). It forms a transmembrane 4-α-bundle.

Function

This subunit is a key component of the proton channel, and may play a direct role in the translocation of protons across the membrane. Catalysis in the F1 complex depends upon the rotation of the central stalk and Fo c-ring, which in turn is driven by the flux of protons through the membrane via the interface between the F0 c-ring and subunit A. The peripheral stalk links subunit A to the external surface of the F1 domain, and is thought to act as a stator to counter the tendency of subunit A and the F1alpha3 beta3 catalytic portion to rotate with the central rotary element.[12]

Clinical significance

Mutations to MT-ATP6 and other genes affecting oxidative phosphorylation in the mitochondria have been associated with a variety of neurodegenerative and cardiovascular disorders, including mitochondrial complex V deficiency, Leber's hereditary optic neuropathy (LHON), mitochondrial encephalomyopathy with stroke-like episodes (MELAS), Leigh syndrome, and NARP syndrome. Most of the body's cells contain thousands of mitochondria, each with one or more copies of mitochondrial DNA. The severity of some mitochondrial disorders is associated with the percentage of mitochondria in each cell that has a particular genetic change. People with Leigh syndrome due to a MT-ATP6 gene mutation tend to have a very high percentage of mitochondria with the mutation (from more than 90 percent to 95 percent). The less-severe features of NARP result from a lower percentage of mitochondria with the mutation, typically 70 percent to 90 percent. Because these two conditions result from the same genetic changes and can occur in different members of a single family, researchers believe that they may represent a spectrum of overlapping features instead of two distinct syndromes.[6]

Mitochondrial complex V deficiency

Mitochondrial complex V deficiency is a shortage (deficiency) or loss of function in complex V of the electron transport chain that can cause a wide variety of signs and symptoms affecting many organs and systems of the body, particularly the nervous system and the heart. The disorder can be life-threatening in infancy or early childhood. Affected individuals may have feeding problems, slow growth, low muscle tone (hypotonia), extreme fatigue (lethargy), and developmental delay. They tend to develop elevated levels of lactic acid in the blood (lactic acidosis), which can cause nausea, vomiting, weakness, and rapid breathing. High levels of ammonia in the blood (hyperammonemia) can also occur in affected individuals, and in some cases result in abnormal brain function (encephalopathy) and damage to other organs.[13] Ataxia, microcephaly, developmental delay and intellectual disability have been observed in patients with a frameshift mutation in MT-ATP6. This causes a C insertion at position 8612 that results in a truncated protein only 36 amino acids long, and two T > C single-nucleotide polymorphisms at positions 8610 and 8614 that result in a homopolymeric cytosine stretch.[14]

Another common feature of mitochondrial complex V deficiency is hypertrophic cardiomyopathy. This condition is characterized by thickening (hypertrophy) of the cardiac muscle that can lead to heart failure.[13] The m.8528T>C mutation occurs in the overlapping region of the MT-ATP6 and MT-ATP8 genes and has been described in multiple patients with infantile cardiomyopathy. This mutation changes the initiation codon in MT-ATP6 to threonine as well as a change from tryptophan to arginine at position 55 of MT-ATP8.[15][16] Individuals with mitochondrial complex V deficiency may also have a characteristic pattern of facial features, including a high forehead, curved eyebrows, outside corners of the eyes that point downward (downslanting palpebral fissures), a prominent bridge of the nose, low-set ears, thin lips, and a small chin (micrognathia).[13]

Leigh syndrome

Pathogenic variants of the mitochondrial gene MT-ATP6 are known to cause mtDNA-associated Leigh syndrome, a progressive brain disorder that usually appears in infancy or early childhood. Affected children may experience delayed development, muscle weakness, problems with movement, or difficulty breathing.[6] Other variants known to cause mtDNA-associated Leigh syndrome involve MT-TL1, MT-TK, MT-TW, MT-TV, MT-ND1, MT-ND2, MT-ND3, MT-ND4, MT-ND5, MT-ND6 and MT-CO3. Abnormalities in mitochondrial energy generation result in neurodegenerative disorders like Leigh syndrome, which is characterized by an onset of symptoms between 12 months and three years of age. The symptoms frequently present themselves following a viral infection and include movement disorders and peripheral neuropathy, as well as hypotonia, spasticity and cerebellar ataxia. Roughly half of affected patients die of respiratory or cardiac failure by the age of three. Leigh syndrome is a maternally inherited disorder and its diagnosis is established through genetic testing of the aforementioned mitochondrial genes, including MT-ATP6.[17] MT-ATP6 gene mutations associated with Leigh syndrome change one DNA building block (nucleotide) in the MT-ATP6 gene. The most common genetic change replaces the nucleotide thymine with guanine at position 8993 (written as T8993G). The mutations that cause Leigh syndrome impair the function or stability of the ATP synthase complex, inhibiting ATP production and impairing oxidative phosphorylation. Although the exact mechanism is unclear, researchers believe that impaired oxidative phosphorylation can lead to cell death because of decreased energy available in the cell. Certain tissues that require large amounts of energy, such as the brain, muscles, and heart, seem especially sensitive to decreases in cellular energy. Cell death in the brain likely causes the characteristic changes in the brain seen in Leigh syndrome, which contribute to the signs and symptoms of the condition. Cell death in other sensitive tissues may also contribute to the features of Leigh syndrome. A heteroplasmic T→C MT-ATP6 mutation at position 9185 results in the substitution of a highly conserved leucine to proline at codon 220 and a heteroplasmic T→C missense mutation at position 9191 converted a highly conserved leucine to a proline at position 222 of the polypeptide, leading to a Leigh-type phenotype. The T9185C mutation resulted in a mild and reversible phenotype, with 97% of the patient's muscle and blood samples reflecting the mutation. The T9191C mutation presented a much more severe phenotype that resulted in the death of the patient at 2 years of age.[18]

NARP syndrome

Some of the mutations of the ATP6 gene that cause Leigh syndrome are also responsible for a similar, but less severe, condition called neuropathy, ataxia, and retinitis pigmentosa (NARP).[19] A small number of mutations in the MT-ATP6 gene have been identified in people with NARP. Each of these mutations changes one nucleotide in the MT-ATP6 gene. As in Leigh syndrome, the most common genetic change associated with NARP replaces the nucleotide thymine with guanine at position 8993 (written as T8993G). The mutations that cause NARP alter the structure or function of ATP synthase, reducing the ability of mitochondria to produce ATP. Although the precise effects of these mutations are unclear, researchers continue to investigate how changes in the MT-ATP6 gene interfere with ATP production and lead to muscle weakness, vision loss, and the other features of NARP.[6]

Familial bilateral striatal necrosis

A condition called familial bilateral striatal necrosis, which is similar to Leigh syndrome, can also result from changes in the MT-ATP6 gene. In the few reported cases with these mutations, affected children have had delayed development, problems with movement and coordination, weak muscle tone (hypotonia), and an unusually small head size (microcephaly). Researchers have not determined why MT-ATP6 mutations result in this combination of signs and symptoms in children with bilateral striatal necrosis.[6]

Interactions

MT-ATP6 has been shown to have 20 binary protein-protein interactions including 17 co-complex interactions. MT-ATP6 appears to interact with SP1.[20]

Research

The SENS Research Foundation have published a paper detailing the successful allotopic expression of replacement DNA for the MT-ATP6 gene in the cell nuclear DNA.[21]

References

  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000198899Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000064357Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ Anderson S, Bankier AT, Barrell BG, de Bruijn MH, Coulson AR, Drouin J, Eperon IC, Nierlich DP, Roe BA, Sanger F, Schreier PH, Smith AJ, Staden R, Young IG (April 1981). "Sequence and organization of the human mitochondrial genome". Nature. 290 (5806): 457–65. Bibcode:1981Natur.290..457A. doi:10.1038/290457a0. PMID 7219534. S2CID 4355527.
  6. ^ a b c d e "MT-ATP6". Genetics Home Reference. NCBI.
  7. ^ a b "Entrez Gene: MT-ATP6 mitochondrially encoded ATP synthase 6".
  8. ^ Zong NC, Li H, Li H, Lam MP, Jimenez RC, Kim CS, Deng N, Kim AK, Choi JH, Zelaya I, Liem D, Meyer D, Odeberg J, Fang C, Lu HJ, Xu T, Weiss J, Duan H, Uhlen M, Yates JR, Apweiler R, Ge J, Hermjakob H, Ping P (Oct 2013). "Integration of cardiac proteome biology and medicine by a specialized knowledgebase". Circulation Research. 113 (9): 1043–53. doi:10.1161/CIRCRESAHA.113.301151. PMC 4076475. PMID 23965338.
  9. ^ "ATP synthase subunit A, mitochondrial". Cardiac Organellar Protein Atlas Knowledgebase (COPaKB).
  10. ^ Kagawa Y, Racker E (May 1966). "Partial resolution of the enzymes catalyzing oxidative phosphorylation. 8. Properties of a factor conferring oligomycin sensitivity on mitochondrial adenosine triphosphatase". The Journal of Biological Chemistry. 241 (10): 2461–6. doi:10.1016/S0021-9258(18)96640-8. PMID 4223640.
  11. ^ Mccarty RE (November 1992). "A PLANT BIOCHEMIST'S VIEW OF H+-ATPases AND ATP SYNTHASES". The Journal of Experimental Biology. 172 (Pt 1): 431–441. doi:10.1242/jeb.172.1.431. PMID 9874753.
  12. ^ Carbajo RJ, Kellas FA, Runswick MJ, Montgomery MG, Walker JE, Neuhaus D (August 2005). "Structure of the F1-binding domain of the stator of bovine F1Fo-ATPase and how it binds an alpha-subunit". Journal of Molecular Biology. 351 (4): 824–38. doi:10.1016/j.jmb.2005.06.012. PMID 16045926.
  13. ^ a b c "Mitochondrial complex V deficiency". Genetics Home Reference. NCBI. Retrieved 3 August 2018. Public Domain This article incorporates text from this source, which is in the public domain.
  14. ^ Jackson CB, Hahn D, Schröter B, Richter U, Battersby BJ, Schmitt-Mechelke T, Marttinen P, Nuoffer JM, Schaller A (June 2017). "A novel mitochondrial ATP6 frameshift mutation causing isolated complex V deficiency, ataxia and encephalomyopathy". European Journal of Medical Genetics. 60 (6): 345–351. doi:10.1016/j.ejmg.2017.04.006. hdl:10138/237062. PMID 28412374.
  15. ^ Imai A, Fujita S, Kishita Y, Kohda M, Tokuzawa Y, Hirata T, Mizuno Y, Harashima H, Nakaya A, Sakata Y, Takeda A, Mori M, Murayama K, Ohtake A, Okazaki Y (March 2016). "Rapidly progressive infantile cardiomyopathy with mitochondrial respiratory chain complex V deficiency due to loss of ATPase 6 and 8 protein". International Journal of Cardiology. 207: 203–5. doi:10.1016/j.ijcard.2016.01.026. PMID 26803244.
  16. ^ Ware SM, El-Hassan N, Kahler SG, Zhang Q, Ma YW, Miller E, Wong B, Spicer RL, Craigen WJ, Kozel BA, Grange DK, Wong LJ (May 2009). "Infantile cardiomyopathy caused by a mutation in the overlapping region of mitochondrial ATPase 6 and 8 genes". Journal of Medical Genetics. 46 (5): 308–14. doi:10.1136/jmg.2008.063149. PMID 19188198. S2CID 25354118.
  17. ^ Thorburn DR, Rahman S (1993–2015). "Mitochondrial DNA-Associated Leigh Syndrome and NARP". In Pagon RA, Adam MP, Ardinger HH, Wallace SE, Amemiya A, Bean LJ, Bird TD, Dolan CR, Fong CT, Smith RJ, Stephens K (eds.). GeneReviews [Internet]. Seattle (WA): University of Washington, Seattle.
  18. ^ Moslemi AR, Darin N, Tulinius M, Oldfors A, Holme E (October 2005). "Two new mutations in the MTATP6 gene associated with Leigh syndrome". Neuropediatrics. 36 (5): 314–8. doi:10.1055/s-2005-872845. PMID 16217706.
  19. ^ Baracca A, Sgarbi G, Mattiazzi M, Casalena G, Pagnotta E, Valentino ML, Moggio M, Lenaz G, Carelli V, Solaini G (July 2007). "Biochemical phenotypes associated with the mitochondrial ATP6 gene mutations at nt8993". Biochimica et Biophysica Acta (BBA) - Bioenergetics. 1767 (7): 913–9. doi:10.1016/j.bbabio.2007.05.005. PMID 17568559.
  20. ^ "20 binary interactions found for search term MT-ATP6". IntAct Molecular Interaction Database. EMBL-EBI. Retrieved 2018-08-24.
  21. ^ Boominathan A, Vanhoozer S, Basisty N, Powers K, Crampton AL, Wang X, Friedricks N, Schilling B, Brand MD, O'Connor MS (November 2016). "Stable nuclear expression of ATP8 and ATP6 genes rescues a mtDNA Complex V null mutant". Nucleic Acids Research. 44 (19): 9342–9357. doi:10.1093/nar/gkw756. PMC 5100594. PMID 27596602.

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This article incorporates text from the United States National Library of Medicine, which is in the public domain.

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