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GOT2

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Mitochondrial enzyme involved in amino acid metabolism
GOT2
Available structures
PDBOrtholog search: PDBe RCSB
List of PDB id codes

5AX8

Identifiers
AliasesGOT2, KAT4, KATIV, mitAAT, KYAT4, glutamic-oxaloacetic transaminase 2, DEE82
External IDsOMIM: 138150; MGI: 95792; HomoloGene: 1572; GeneCards: GOT2; OMA:GOT2 - orthologs
Gene location (Human)
Chromosome 16 (human)
Chr.Chromosome 16 (human)
Chromosome 16 (human)Genomic location for GOT2Genomic location for GOT2
Band16q21Start58,707,131 bp
End58,734,342 bp
Gene location (Mouse)
Chromosome 8 (mouse)
Chr.Chromosome 8 (mouse)
Chromosome 8 (mouse)Genomic location for GOT2Genomic location for GOT2
Band8 D1|8 47.79 cMStart96,590,762 bp
End96,615,175 bp
RNA expression pattern
Bgee
HumanMouse (ortholog)
Top expressed in
  • muscle of thigh

  • myocardium of left ventricle

  • right ventricle

  • gastrocnemius muscle

  • triceps brachii muscle

  • apex of heart

  • vastus lateralis muscle

  • middle temporal gyrus

  • right auricle

  • glutes
Top expressed in
  • muscle of thigh

  • tail of embryo

  • lip

  • primary visual cortex

  • superior frontal gyrus

  • right kidney

  • yolk sac

  • dentate gyrus of hippocampal formation granule cell

  • genital tubercle

  • neural layer of retina
More reference expression data
BioGPS
More reference expression data
Gene ontology
Molecular function
Cellular component
Biological process
Sources:Amigo / QuickGO
Orthologs
SpeciesHumanMouse
Entrez

2806

14719

Ensembl

ENSG00000125166

ENSMUSG00000031672

UniProt

P00505

P05202

RefSeq (mRNA)

NM_002080
NM_001286220

NM_010325

RefSeq (protein)

NP_001273149
NP_002071

NP_034455

Location (UCSC)Chr 16: 58.71 – 58.73 MbChr 8: 96.59 – 96.62 Mb
PubMed search
Wikidata
View/Edit HumanView/Edit Mouse

Aspartate aminotransferase, mitochondrial is an enzyme that in humans is encoded by the GOT2 gene. Glutamic-oxaloacetic transaminase is a pyridoxal phosphate-dependent enzyme which exists in cytoplasmic and inner-membrane mitochondrial forms, GOT1 and GOT2, respectively. GOT plays a role in amino acid metabolism and the urea and Kreb's cycle. Also, GOT2 is a major participant in the malate-aspartate shuttle, which is a passage from the cytosol to the mitochondria. The two enzymes are homodimeric and show close homology. GOT2 has been seen to have a role in cell proliferation, especially in terms of tumor growth.

Structure

GOT2 is a dimer containing two identical subunits that hold overlapping subunit regions. The top and sides of the enzyme are made up of helices, while the bottom is formed by strands of beta sheets and extended hairpin loops. The subunit itself can be categorized into four different parts: a large domain, which binds pyridoxal-P, a small domain, an NH2-terminal arm, and a bridge across two domains, which is formed by residues 48-75 and 301-358. Virtually ubiquitous in eukaryotic cells, GOT2 nucleic acid and protein sequences are highly conserved, and its 5’regulatory regions in genomic DNA resemble those of typical house-keeping genes in that, e.g., they lack a TATA box. The GOT2 gene is also located on 16q21 and has an exon count of 10.

Function

In order to produce the energy needed for everyday activities, our body needs to go through the process of glycolysis, which breaks down glucose into pyruvate. In this pathway, one very important part is the reduction of NAD+ to NADH and then the rapid oxidation of NADH back into NAD+. The oxidation phase mainly occurs in the mitochondria as part of the electron transport chain, but the transfer of NADH into the mitochondria from the cytosol is impossible, due to the impermeability of the inner mitochondrial membrane to NADH. Therefore, the malate-aspartate shuttle is needed to transfer reducing equivalents across the mitochondrial membrane for energy production. GOT2 and another enzyme, MDH, are essential for the functioning of the shuttle. GOT2 converts oxaloacetate into aspartate by transamination. This aspartate as well as alpha-ketoglutarate return into the cytosol, which is then converted back to oxaloacetate and glutamate, respectively.

Another function of GOT2 is that it is believed to transaminate kynurenine into kynurenic acid (KYNA) in the brain. The KYNA made by the GOT2 is thought to be an important factor in brain pathology. It is suggested that KYNA synthesized by GOT2 could constitute a common, and mechanistically relevant, feature of the neurotoxicity caused by mitochondrial poisons, such as rotenone, malonate, 1-methyl-4-phenylpyridinium, and 3-nitropropionic acid.

Clinical Significance

In nearly all cancer cells, glycolysis has been seen to be highly elevated to meet their increased energy, biosynthesis, and redox needs. Therefore, the malate-aspartate shuttle promotes the net transfer of cytosolic NADH into mitochondria to ensure a high rate of glycolysis in diverse cancer cell lines. In a study completed in 2008, inhibiting the malate-aspartate shuttle was found to impair the glycolysis process and essentially decreased breast adenocarcinoma cell proliferation. Furthermore, knocking down GOT2 and GOT1 has also been reported to inhibit cell proliferation and colony formation in pancreatic cancer cell lines, suggesting that the GOT enzyme is essential for maintaining a high rate of glycolysis to support rapid tumor cell growth. Also, both glucose and glutamine increase GOT2 3K acetylation in PANC-1 cells and that GOT2 3K acetylation plays a critical role in coordinating glucose and glutamine uptake to provide energy and support cell proliferation and tumor growth. This implies that inhibiting GOT2 3K acetylation may merit exploration as a therapeutic agent especially for pancreatic cancer.

Mutations in this gene have been associated with an early onset infantile encephalopathy.

Interactions

GOT2 has been seen to interact with:

Interactive pathway map

Click on genes, proteins and metabolites below to link to respective articles.

[[File:
GlycolysisGluconeogenesis_WP534go to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to WikiPathwaysgo to articlego to Entrezgo to article
] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ] ]
GlycolysisGluconeogenesis_WP534go to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to articlego to WikiPathwaysgo to articlego to Entrezgo to article
|alt=Glycolysis and Gluconeogenesis edit]] Glycolysis and Gluconeogenesis edit
  1. The interactive pathway map can be edited at WikiPathways: "GlycolysisGluconeogenesis_WP534".

References

  1. ^ GRCh38: Ensembl release 89: ENSG00000125166Ensembl, May 2017
  2. ^ GRCm38: Ensembl release 89: ENSMUSG00000031672Ensembl, 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. ^ "Entrez Gene: GOT2 glutamic-oxaloacetic transaminase 2, mitochondrial (aspartate aminotransferase 2)".
  6. Ford GC, Eichele G, Jansonius JN (May 1980). "Three-dimensional structure of a pyridoxal-phosphate-dependent enzyme, mitochondrial aspartate aminotransferase". Proceedings of the National Academy of Sciences of the United States of America. 77 (5): 2559–63. Bibcode:1980PNAS...77.2559F. doi:10.1073/pnas.77.5.2559. PMC 349441. PMID 6930651.
  7. Zhou SL, Gordon RE, Bradbury M, Stump D, Kiang CL, Berk PD (Apr 1998). "Ethanol up-regulates fatty acid uptake and plasma membrane expression and export of mitochondrial aspartate aminotransferase in HepG2 cells". Hepatology. 27 (4): 1064–74. doi:10.1002/hep.510270423. PMID 9537447. S2CID 11899686.
  8. ^ Yang H, Zhou L, Shi Q, Zhao Y, Lin H, Zhang M, Zhao S, Yang Y, Ling ZQ, Guan KL, Xiong Y, Ye D (Apr 2015). "SIRT3-dependent GOT2 acetylation status affects the malate-aspartate NADH shuttle activity and pancreatic tumor growth". The EMBO Journal. 34 (8): 1110–25. doi:10.15252/embj.201591041. PMC 4406655. PMID 25755250.
  9. Guidetti P, Amori L, Sapko MT, Okuno E, Schwarcz R (Jul 2007). "Mitochondrial aspartate aminotransferase: a third kynurenate-producing enzyme in the mammalian brain". Journal of Neurochemistry. 102 (1): 103–11. doi:10.1111/j.1471-4159.2007.04556.x. PMID 17442055. S2CID 20413002.
  10. van Karnebeek CDM, Ramos RJ, Wen XY, Tarailo-Graovac M, Gleeson JG, Skrypnyk C, Brand-Arzamendi K, Karbassi F, Issa MY, van der Lee R, Drögemöller BI, Koster J, Rousseau J, Campeau PM, Wang Y, Cao F, Li M, Ruiter J, Ciapaite J, Kluijtmans LAJ, Willemsen MAAP, Jans JJ, Ross CJ, Wintjes LT, Rodenburg RJ, Huigen MCDG, Jia Z, Waterham HR, Wasserman WW9, Wanders RJA, Verhoeven-Duif NM, Zaki MS, Wevers RA (2019) Bi-allelic GOT2 Mutations Cause a Treatable Malate-Aspartate Shuttle-Related Encephalopathy. Am J Hum Genet

Further reading

Transferase: nitrogenous groups (EC 2.6)
2.6.1: Transaminases
2.6.3: Oximinotransferases
2.6.99: Other
Categories: