Английская Википедия:Aldehyde dehydrogenase 18 family, member A1

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Шаблон:Short description Шаблон:Infobox gene Delta-1-pyrroline-5-carboxylate synthetase (P5CS) is an enzyme that in humans is encoded by the ALDH18A1 gene.[1][2] This gene is a member of the aldehyde dehydrogenase family and encodes a bifunctional ATP- and NADPH-dependent mitochondrial enzyme with both gamma-glutamyl kinase and gamma-glutamyl phosphate reductase activities. The encoded protein catalyzes the reduction of glutamate to delta1-pyrroline-5-carboxylate, a critical step in the de novo biosynthesis of proline, ornithine and arginine. Mutations in this gene lead to hyperammonemia, hypoornithinemia, hypocitrullinemia, hypoargininemia and hypoprolinemia and may be associated with neurodegeneration, cataracts and connective tissue diseases. Alternatively spliced transcript variants, encoding different isoforms, have been described for this gene.[2] As reported by Bruno Reversade and colleagues, ALDH18A1 deficiency or dominant-negative mutations in P5CS in humans causes a progeroid disease known as De Barsy Syndrome.[3]

Structure

P5CS consists of two domains: gamma-glutamyl kinase and gamma-glutamyl phosphate reductase, each of which are used to complete the two steps to create ornithine and proline. The gamma-glutamyl kinase domain employs a 367-residue chain that folds into an N-terminal amino acid kinase domain, responsible for catalysis and proline inhibition, and a C-terminal PUA RNA binding domain. This enzyme is also a tetramer formed by two dimers, and the monomers and dimers are assembled in a manner that allows the amino acid kinase active pockets to be alternatively oriented in the tetramer.[4] The short version (P5CS.short) and the long version (P5CS.long) of PC5S are two isoforms of this enzyme which differs by the addition of two amino acids in the long form and with an extra 6-bp insert following bp+711. This slight difference creates a dramatic difference in how they are affected by the inhibition of ornithine.[5] The ALDH18A1 gene spans 15 kb, is mapped on 10q24.3, and has an exon count of 18.[2][6]

Function

P5CS catalyzes the phosphorylation- and reduction-conversion of glutamate to Delta-1-pyrroline-5-carboxylate (P5C). This occurs through a process in which glutamate is converted into gamma-glutamyl phosphate in the gamma-glutamyl kinase domain and then the gamma-glutamyl phosphate is the made into gamma-glutamic semi-aldehyde in the gamma-glutamyl phosphate reductase domain. The gamma-glutamic semi-aldehyde is in tautomeric equilibrium with P5C and it is the obligatory intermediate in the interconversions of proline, ornithine, and glutamate.[6] The two isoforms (PC5S.short and PC5S.long) are both involved in different activities as well. The short version has high activity in the gut and is a main participant in the biosynthesis of arginine. The long version of PC5S is expressed in various tissues and is significant for its ability to synthesize proline from glutamate. Also, the short version is inhibited by ornithine, whereas the long version is insensitive to the amino acid.[7]

Evolution

The distinct domains of eukaryotic P5CS are in prokaryotes and unicellular eukaryotes present in two separate enzymes, proA (gamma-glutamyl phosphate reductase)[8] and proB (gamma-glutamyl kinase).[9] The sequence and structural data of both ancestral enzymes suggest that proA and proB genes originate from a single gene duplication and subsequent subfunctionalization.[10] The fusion of proA and proB was likely preceded by a deletion of PUA domain in proB, reducing the sensitivity to proline feedback inhibition and enabling the observed channeling of gamma-glutamyl phosphate intermediate.[11]

Clinical significance

Ornithine and/or arginine are key intermediates for the synthesis of urea, creatine, nitric oxide, polyamines, and protein; while proline is a major component of the connective tissue proteins, collagen and elastin. Because all three of these amino acids are a part of very significant processes, the presence of P5CS becomes an important regulator which makes sure that none of these three become deficient.[12] Therefore, a lack of P5CS, due to mutations in the ALDH18A1 gene, often leads to neurodegeneration, joint laxity, skin hyperelasticity, bilateral sub capsular cataracts, and a plethora of other complications associated with impaired proline and ornithine synthesis.[7]

In plants

In all plant species, the activity of plant P5CS is likewise linked to the proline biosynthesis pathway, during both optimal and abiotic stress conditions. Similar to mammals, plants possess two P5CS isoenzymes encoded by paralogous genes, P5CS1 and P5CS2. Different plant species have evolved to utilize different P5CS paralogs in dependence on the environment.[10] As such, P5CS2 acts as a housekeeping enzyme in Arabidopsis, this function is provided by P5CS1 in rice; in contrast Arabidopsis P5CS1 enables better performance under abiotic stress, while P5CS2 is responsible for improved abiotic stress response in rice. Arabidopsis P5CS2 is localized in cytoplasm and chloroplasts.[13][14] P5CS-dependent synthesis of P5C is the rate-limiting step of proline biosynthesis, and is inhibited by the binding of the end product, L-proline, supposedly preventing the binding of glutamate to the entry site at the gamma-glutamyl kinase subunit.[4]

Interactions

P5CS has been seen to interact with: Шаблон:Clarify

References

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External links

Further reading

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Шаблон:PDB Gallery Шаблон:Aldehyde dehydrogenases