DJ-1

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Template:Short description Template:Infobox gene DJ1, also known as Parkinson disease protein 7, is a protein which in humans is encoded by the PARK7 gene.[1] Its weak glyoxalase activity has been verified by many labs,[2][3] however the reported protein deglycase activity is likely to be an artifact stemming from DJ-1's ability to destroy free methylglyoxal.

Structure

Gene

Script error: No such module "For". The gene PARK7, also known as DJ-1, encodes a protein of the peptidase C56 family. The human gene PARK7 has 8 exons and locates at chromosome band 1p36.23.[1]

Protein

The human protein DJ-1 is 20 kDa in size and composed of 189 amino acids with seven β-strands and nine α-helices in total and is present as a dimer.[4][5][6] It belongs to the peptidase C56 family of proteins.

The protein structures of human protein DJ-1, Escherichia coli chaperone Hsp31, YhbO, and YajL and an Archaea protease are evolutionarily conserved.[7]

Function

DJ-1 was shown to prevent metabolite and protein damage caused by a glycolytic metabolite.[8] This metabolite has been suggested[8] and confirmed[9] to be cyclic 3-phosphoglycerate (or cyclic 3-phosphoglyceric anhydride). Catalytic efficiency of DJ-1 as a hydrolase of cyclic 3-phosphoglyceric anhydride is 10,000 times higher than other reported enzymatic activities of DJ-1.[9]

Under an oxidative condition, DJ-1 inhibits the aggregation of α-synuclein via its chaperone activity,[10][11] thus functioning as a redox-sensitive chaperone and as a sensor for oxidative stress. Accordingly, DJ-1 apparently protects neurons against oxidative stress and cell death.[1] In parallel, protein DJ-1 acts as a positive regulator of androgen receptor-dependent transcription. DJ-1 is expressed in both the neural retina and retinal pigment epithelium of mammals, where it exerts a neuroprotective role against oxidative stress under both physiological and pathological conditions.[12][13]

Pyrroloquinoline quinone (PQQ) has been shown to reduce the self-oxidation of the DJ-1 protein, an early step in the onset of some forms of Parkinson's disease.[14]

Functional DJ-1 protein has been shown to bind metals and protect against metal-induced cytotoxicity from copper and mercury.[15]

DJ-1/PARK7 and its bacterial homologs: Hsp31, YhbO, and YajL can repair methylglyoxal and glyoxal glycated nucleotides.[16] Guanine, either in the form of a free nucleotide or as a nucleotide incorporated into nucleic acid (DNA or RNA), if glycated, can be repaired by DJ-1/PARK7.[16] Deglycase-deficient bacterial mutants with reduced ability to repair glycated bases in DNA show strong mutator phenotypes.[16] A follow up study confirmed that DJ-1 reduces levels of reversible adducts of methylglyoxal with guanine and cysteine in vitro. However, since the steady-state kinetics of DJ-1 acting on reversible hemithioacetal substrates are fitted adequately with a computational kinetic model that requires only a DJ-1 glyoxalase activity, it was concluded that deglycation is an apparent rather than a true activity of DJ-1. [17]

DNA repair

DJ-1 is a DNA damage response protein that is recruited to sites of DNA damage where it participates in the repair of DNA double-strand breaks through the processes of non-homologous end joining and homologous recombination.[18] Evidence for a linkage between DNA damage and Parkinson's disease has been reported for decades.[18] Recently evidence has been presented that defective DNA repair is linked specifically to DJ-1 mutation, and thus DJ-1 mutation likely contributes to Parkinson's disease pathogenesis.[18]

Clinical significance

Defects in this gene are the cause of autosomal recessive early-onset Parkinson's disease 7.[1][19]

Interactions

PARK7 has been shown to interact with:

See also

References

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Further reading

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External links

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

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