Biology:Coproporphyrinogen III oxidase

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Short description: Mammalian protein found in Homo sapiens


A representation of the 3D structure of the protein myoglobin showing turquoise α-helices.
Generic protein structure example
Coprogen_oxidas
PDB 1vju EBI.jpg
coproporphyrinogen iii oxidase from leishmania major
Identifiers
SymbolCoprogen_oxidas
PfamPF01218
InterProIPR001260
PROSITEPDOC00783

Coproporphyrinogen-III oxidase, mitochondrial (abbreviated as CPOX) is an enzyme that in humans is encoded by the CPOX gene.[1][2][3] A genetic defect in the enzyme results in a reduced production of heme in animals. The medical condition associated with this enzyme defect is called hereditary coproporphyria.[4][5]

CPOX, the sixth enzyme of the haem biosynthetic pathway, converts coproporphyrinogen III to protoporphyrinogen IX through two sequential steps of oxidative decarboxylation.[6] The activity of the CPOX enzyme, located in the mitochondrial membrane, is measured in lymphocytes.[7]

Function

CPOX is an enzyme involved in the sixth step of porphyrin metabolism it catalyses the oxidative decarboxylation of coproporphyrinogen III to proto-porphyrinogen IX in the haem and chlorophyll biosynthetic pathways.[2][8] The protein is a homodimer containing two internally bound iron atoms per molecule of native protein.[9] The enzyme is active in the presence of molecular oxygen that acts as an electron acceptor. The enzyme is widely distributed having been found in a variety of eukaryotic and prokaryotic sources.

Structure

Gene

Human CPOX is a mitochondrial enzyme encoded by a 14 kb CPOX gene containing seven exons located on chromosome 3 at q11.2.[3]

Protein

CPOX is expressed as a 40 kDa precursor and contains an amino terminal mitochondrial targeting signal.[10] After proteolytic processing, the protein is present as a mature form of a homodimer with a molecular mass of 37 kDa.[11]

Clinical significance

Hereditary coproporphyria (HCP) and harderoporphyria are two phenotypically separate disorders that concern partial deficiency of CPOX. Neurovisceral symptomatology predominates in HCP. Additionally, it may be associated with abdominal pain and/or skin photosensitivity. Hyper-excretion of coproporphyrin III in urine and faeces has been recorded in biochemical tests.[12] HCP is an autosomal dominant inherited disorder, whereas harderoporphyria is a rare erythropoietic variant form of HCP and is inherited in an autosomal recessive fashion. Clinically, it is characterized by neonatal haemolytic anaemia. Sometimes, the presence of skin lesions with marked faecal excretion of harderoporphyrin is also described in harderoporphyric patients.[13]

To date, over 50 CPOX mutations causing HCP have been described.[14] Most of these mutations result in substitution of amino acid residues within the structural framework of CPOX.[15] At least 32 of these mutations are considered to be disease-causing mutations.[16] In terms of the molecular basis of HCP and harderoporphyria, mutations of CPOX in patients with harderoporphyria were demonstrated in the region of exon 6, where mutations in those with HCP were also identified.[17] As only patients with mutation in this region (K404E) would develop harderoporphyria, this mutation led to diminishment of the second step of the decarboxylation reaction during the conversion of coproporphyrinogen to protoporphyrinogen, implying that the active site of the enzyme involved in the second step of decarboxylation is located in exon 6.[14]

Interactions

CPOX has been shown to interact with the atypical keto-isocoproporphyrin (KICP) in human subjects with mercury (Hg) exposure.[18]

References

  1. "A molecular defect in coproporphyrinogen oxidase gene causing harderoporphyria, a variant form of hereditary coproporphyria". Human Molecular Genetics 4 (2): 275–8. February 1995. doi:10.1093/hmg/4.2.275. PMID 7757079. 
  2. 2.0 2.1 "Coproporphyrinogen oxidase. Purification, molecular cloning, and induction of mRNA during erythroid differentiation". The Journal of Biological Chemistry 268 (28): 21359–63. October 1993. doi:10.1016/S0021-9258(19)36931-5. PMID 8407975. 
  3. 3.0 3.1 "Entrez Gene: CPOX coproporphyrinogen oxidase". https://www.ncbi.nlm.nih.gov/sites/entrez?Db=gene&Cmd=ShowDetailView&TermToSearch=1371. 
  4. "Hereditary coproporphyria". Genetic and Rare Diseases Information Center. National Institutes of Health. http://rarediseases.info.nih.gov/GARD/Condition/6619/Coproporphyria.aspx. 
  5. "CPOX". Genetics Home Reference. http://ghr.nlm.nih.gov/gene/CPOX. 
  6. "Mitochondrial coproporphyrinogen oxidase and protoporphyrin formation". The Journal of Biological Chemistry 236 (4): 1173–80. April 1961. doi:10.1016/S0021-9258(18)64262-0. PMID 13746277. 
  7. "Accurate and specific HPLC assay of coproporphyrinogen III oxidase activity in human peripheral leucocytes". Clinica Chimica Acta; International Journal of Clinical Chemistry 177 (3): 245–52. October 1988. doi:10.1016/0009-8981(88)90069-1. PMID 3233772. 
  8. "A soybean coproporphyrinogen oxidase gene is highly expressed in root nodules". Plant Molecular Biology 23 (1): 35–43. October 1993. doi:10.1007/BF00021417. PMID 8219054. 
  9. "Purification and properties of coproporphyrinogen oxidase from the yeast Saccharomyces cerevisiae". European Journal of Biochemistry 156 (3): 579–87. May 1986. doi:10.1111/j.1432-1033.1986.tb09617.x. PMID 3516695. 
  10. "Molecular cloning, sequencing, and functional expression of a cDNA encoding human coproporphyrinogen oxidase". Proceedings of the National Academy of Sciences of the United States of America 91 (8): 3024–8. April 1994. doi:10.1073/pnas.91.8.3024. PMID 8159699. Bibcode1994PNAS...91.3024M. 
  11. "Homozygous hereditary coproporphyria caused by an arginine to tryptophane substitution in coproporphyrinogen oxidase and common intragenic polymorphisms". Human Molecular Genetics 3 (3): 477–80. March 1994. doi:10.1093/hmg/3.3.477. PMID 8012360. 
  12. "Molecular cloning, sequencing and expression of cDNA encoding human coproporphyrinogen oxidase". Biochimica et Biophysica Acta (BBA) - Bioenergetics 1183 (3): 547–9. Jan 1994. doi:10.1016/0005-2728(94)90083-3. PMID 8286403. 
  13. "The enzyme engineering of mutant homodimer and heterodimer of coproporphyinogen oxidase contributes to new insight into hereditary coproporphyria and harderoporphyria". Journal of Biochemistry 154 (6): 551–9. December 2013. doi:10.1093/jb/mvt086. PMID 24078084. 
  14. 14.0 14.1 "Harderoporphyria due to homozygosity for coproporphyrinogen oxidase missense mutation H327R". Journal of Inherited Metabolic Disease 34 (1): 225–31. February 2011. doi:10.1007/s10545-010-9237-9. PMID 21103937. 
  15. "Structural basis of hereditary coproporphyria". Proceedings of the National Academy of Sciences of the United States of America 102 (40): 14232–7. October 2005. doi:10.1073/pnas.0506557102. PMID 16176984. Bibcode2005PNAS..10214232L. 
  16. "Refinement of evolutionary medicine predictions based on clinical evidence for the manifestations of Mendelian diseases". Scientific Reports 9 (1): 18577. December 2019. doi:10.1038/s41598-019-54976-4. PMID 31819097. Bibcode2019NatSR...918577S. 
  17. "Mutations in human CPO gene predict clinical expression of either hepatic hereditary coproporphyria or erythropoietic harderoporphyria". Human Molecular Genetics 14 (20): 3089–98. October 2005. doi:10.1093/hmg/ddi342. PMID 16159891. 
  18. "A cascade analysis of the interaction of mercury and coproporphyrinogen oxidase (CPOX) polymorphism on the heme biosynthetic pathway and porphyrin production". Toxicology Letters 161 (2): 159–66. February 2006. doi:10.1016/j.toxlet.2005.09.005. PMID 16214298. 

Further reading

Heme synthesis—note that some reactions occur in the cytoplasm and some in the mitochondrion (yellow)

External links

This article incorporates text from the public domain Pfam and InterPro: IPR001260



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