Adrenodoxin reductase (Enzyme Nomenclature name:
adrenodoxin-NADP+ reductase
Adrenodoxin-NADP+ reductase (, ''adrenodoxin reductase'', ''nicotinamide adenine dinucleotide phosphate-adrenodoxin reductase'', ''ADR'', ''NADPH:adrenal ferredoxin oxidoreductase'') is an enzyme with systematic name ''adrendoxin:NADP+ oxidoreducta ...
, EC 1.18.1.6), was first isolated from bovine adrenal cortex where it functions as the first enzyme in the mitochondrial P450 systems that catalyze essential steps in steroid hormone biosynthesis.
Examination of complete genome sequences revealed that adrenodoxin reductase gene is present in most metazoans and prokaryotes.
Nomenclature
The name of the enzyme was coined based on its function to reduce a
Fe-2S(2 iron, 2 sulfur) electron-transfer protein that was named
adrenodoxin. Later, in some studies, the enzyme was also referred to as a "ferredoxin reductase", as adrenodoxin is a ferredoxin. In the human gene nomenclature, the standard name is ferredoxin reductase and the symbol is FDXR, with ADXR specified as a synonym.
The assignment of the name "ferredoxin reductase" has been criticized as a misnomer because determination of the structure of adrenodoxin reductase revealed that it is completely different from that of plant ferredoxin reductase and there is no homology between these two enzymes.
With more proteins with a ferroxodin-reducing activity discovered in both families as well as novel families, this enzyme activity is now seen as an example of
convergent evolution
Convergent evolution is the independent evolution of similar features in species of different periods or epochs in time. Convergent evolution creates analogous structures that have similar form or function but were not present in the last com ...
.
Function
Adrenodoxin reductase is a
flavoprotein
Flavoproteins are proteins that contain a nucleic acid derivative of riboflavin.
Flavoproteins are involved in a wide array of biological processes, including removal of radicals contributing to oxidative stress, photosynthesis, and DNA repair. T ...
as it carries a
FAD type coenzyme. The enzyme functions as the first electron transfer protein of mitochondrial P450 systems such as
P450scc
Cholesterol side-chain cleavage enzyme is commonly referred to as P450scc, where "scc" is an acronym for side-chain cleavage. P450scc is a mitochondrial enzyme that catalyzes conversion of cholesterol to pregnenolone. This is the first reactio ...
.
The FAD coenzyme receives two electrons from NADPH and transfers them one at a time to the electron transfer protein
adrenodoxin.
Adrenodoxin functions as a mobile shuttle that transfers electrons between ADXR and mitochondrial P450s.
It catalyzes the following reaction:
:NADPH + 2 oxidized adrenodoxin —→ 2 reduced adrenodoxin + NADP + H
Gene structure
The cDNA for adrenodoxin reductase was first cloned in 1987.
In both bovine and human genomes there is only a single copy of the gene.
Sites of expression
ADXR gene is expressed in all tissues that have mitochondrial P450s. The highest levels of the enzyme are found in the adrenal cortex, granulosa cells of the ovary and leydig cells of the testis that specialize in
steroid
A steroid is a biologically active organic compound with four rings arranged in a specific molecular configuration. Steroids have two principal biological functions: as important components of cell membranes that alter membrane fluidity; and ...
hormone synthesis.
Immmunofluorescent staining shows that enzyme is localized in mitochondria.
The enzyme is also expressed in the liver, the kidney and the placenta.
Enzyme structure
Adrenodoxin reductase has two domains that bind NADPH and FAD separately.
The FAD and NADP binding sites of the enzyme were predicted by sequence analysis of the enzyme.
While the FAD-binding site has a consensus sequence (Gly-x-Gly-x-x-Gly) that is similar to other Rossmann folds in FAD and NAD binding sites,
the NADPH binding site consensus sequence differs from the FAD-binding site by the substitution of an alanine instead of the last Gly (Gly-x-Gly-x-x-Ala).
The location of these FAD and NADP binding sites were confirmed by the crystal structure of the enzyme.
References
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Enzymes