CYP2R1

CYP2R1
Available structures
PDBOrtholog search: PDBe RCSB
Identifiers
Aliases CYP2R1
External IDs MGI: 2449771 HomoloGene: 75210 GeneCards: CYP2R1
Genetically Related Diseases
vitamin metabolic disorder[1]
RNA expression pattern
More reference expression data
Orthologs
Species Human Mouse
Entrez

120227

244209

Ensembl

ENSG00000186104

ENSMUSG00000030670

UniProt

Q6VVX0

Q6VVW9

RefSeq (mRNA)

NM_024514

NM_177382

RefSeq (protein)

NP_078790.2

NP_796356.2

Location (UCSC) Chr 11: 14.88 – 14.89 Mb Chr 7: 114.55 – 114.56 Mb
PubMed search [2] [3]
Wikidata
View/Edit HumanView/Edit Mouse

Vitamin D 25-hydroxylase also known as cytochrome P450 2R1 is an enzyme that in humans is encoded by the CYP2R1 gene.[4][5][6]

Function

Vitamin D 25-hydroxylase is a member of the cytochrome P450 superfamily of enzymes. The cytochrome P450 proteins are monooxygenases which catalyze many reactions involved in drug metabolism and synthesis of cholesterol, steroids and other lipids. Found in the liver, this enzyme is a microsomal vitamin D hydroxylase that converts vitamin D into 25-hydroxyvitamin D (calcidiol), which is the major circulatory form of the vitamin.

Clinical significance

An inherited mutation in the CYP2R1 gene which results in the substitution of a proline for a leucine residue at codon 99 eliminates the enzyme activity and is associated with low circulating levels of 25-hydroxyvitamin D and classic symptoms of vitamin D deficiency.[5] The gene product which it encodes, vitamin D 25-hydroxylase, has therefore been proposed as the key enzyme in the conversion of cholecalciferol (vitamin D3) to calcidiol. Calcidiol is subsequently converted by the action of 25-hydroxyvitamin D3 1-alpha-hydroxylase to calcitriol, the active form of vitamin D3 that binds to the vitamin D receptor (VDR) which mediates most of the physiological actions of the vitamin.[5]

Conversion of cholecalciferol to calcidiol as catalyzed by CYP2R1.

Interactive pathway map

Click on genes, proteins and metabolites below to link to respective articles. [§ 1]

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VitaminDSynthesis_WP1531 Go to article Go to article Go to article Go to article go to article Go to article Go to article Go to article go to article go to article go to article go to article Go to article Go to article go to article Go to article go to article go to article go to article Go to article go to article

|{{{bSize}}}px|alt=Vitamin D Synthesis Pathway edit]]

Vitamin D Synthesis Pathway edit

  1. The interactive pathway map can be edited at WikiPathways: "VitaminDSynthesis_WP1531".

Model organisms

Model organisms have been used in the study of CYP2R1 function. A conditional knockout mouse line called Cyp2r1tm1b(EUCOMM)Wtsi was generated at the Wellcome Trust Sanger Institute.[7] Male and female animals underwent a standardized phenotypic screen[8] to determine the effects of deletion.[9][10][11][12] Additional screens performed: - In-depth immunological phenotyping[13]

References

  1. "Diseases that are genetically associated with CYP2R1 view/edit references on wikidata".
  2. "Human PubMed Reference:".
  3. "Mouse PubMed Reference:".
  4. Nelson DR (Dec 2002). "Comparison of P450s from human and fugu: 420 million years of vertebrate P450 evolution". Arch Biochem Biophys. 409 (1): 18–24. doi:10.1016/S0003-9861(02)00553-2. PMID 12464240.
  5. 1 2 3 Cheng JB, Levine MA, Bell NH, Mangelsdorf DJ, Russell DW (2004-05-18). "Genetic evidence that the human CYP2R1 enzyme is a key vitamin D 25-hydroxylase". Proc Natl Acad Sci U S A. 101 (20): 7711–7715. Bibcode:2004PNAS..101.7711C. doi:10.1073/pnas.0402490101. PMC 419671Freely accessible. PMID 15128933.
  6. "Entrez Gene: CYP2R1 cytochrome P450, family 2, subfamily R, polypeptide 1".
  7. Gerdin AK (2010). "The Sanger Mouse Genetics Programme: high throughput characterisation of knockout mice". Acta Ophthalmologica. 88: 925–7. doi:10.1111/j.1755-3768.2010.4142.x.
  8. 1 2 "International Mouse Phenotyping Consortium".
  9. Skarnes WC, Rosen B, West AP, Koutsourakis M, Bushell W, Iyer V, Mujica AO, Thomas M, Harrow J, Cox T, Jackson D, Severin J, Biggs P, Fu J, Nefedov M, de Jong PJ, Stewart AF, Bradley A (Jun 2011). "A conditional knockout resource for the genome-wide study of mouse gene function". Nature. 474 (7351): 337–42. doi:10.1038/nature10163. PMC 3572410Freely accessible. PMID 21677750.
  10. Dolgin E (Jun 2011). "Mouse library set to be knockout". Nature. 474 (7351): 262–3. doi:10.1038/474262a. PMID 21677718.
  11. Collins FS, Rossant J, Wurst W (Jan 2007). "A mouse for all reasons". Cell. 128 (1): 9–13. doi:10.1016/j.cell.2006.12.018. PMID 17218247.
  12. White JK, Gerdin AK, Karp NA, Ryder E, Buljan M, Bussell JN, Salisbury J, Clare S, Ingham NJ, Podrini C, Houghton R, Estabel J, Bottomley JR, Melvin DG, Sunter D, Adams NC, Sanger Institute Mouse Genetics Project, Tannahill D, Logan DW, Macarthur DG, Flint J, Mahajan VB, Tsang SH, Smyth I, Watt FM, Skarnes WC, Dougan G, Adams DJ, Ramirez-Solis R, Bradley A, Steel KP (2013). "Genome-wide generation and systematic phenotyping of knockout mice reveals new roles for many genes". Cell. 154 (2): 452–64. doi:10.1016/j.cell.2013.06.022. PMC 3717207Freely accessible. PMID 23870131.
  13. 1 2 "Infection and Immunity Immunophenotyping (3i) Consortium".

Further reading


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