Molecular and biochemical characterisation of human short-chain dehydrogenase/reductase member 3 (DHRS3)

• Published in: Chemico-biological interactions Vol. 234; pp. 178 - 187
• Main Authors: Lundová, Tereza, Zemanová, Lucie, Malčeková, Beata, Skarka, Adam, Štambergová, Hana, Havránková, Jana, Šafr, Miroslav, Wsól, Vladimír
• Format: Journal Article
• Language: English
• Published: Ireland Elsevier Ireland Ltd 05.06.2015
• Subjects: Alcohol Oxidoreductases - metabolism; Animals; Cytosol - metabolism; DHRS3; Expression; Fatty Acid Synthases - metabolism; Humans; Intestine, Small - enzymology; Intestine, Small - metabolism; Liver - enzymology; Liver - metabolism; Male; Membrane Proteins - metabolism; Membrane topology; Microsomes, Liver - enzymology; Microsomes, Liver - metabolism; NADH, NADPH Oxidoreductases - metabolism; NADP - metabolism; Reductase activity; retSDR1; Sf9 Cells; Spodoptera - metabolism; Testis - enzymology; Testis - metabolism; Tretinoin - metabolism; SDR; DPPE; Sf9-Mi-DHRS3; NNK; Membrane topology; ER; DHRS3; DOPS; RA; Expression; Reductase activity; retSDR1; qPCR; DOPC; DPPC
• ISSN: 0009-2797; 1872-7786
• DOI: 10.1016/j.cbi.2014.10.018

•DHRS3 is an integral membrane protein with its C-terminus in the cytosol.•Androstenedione and estrone are substrates of DHRS3 in vitro.•DHRS3 was inserted into proteoliposomes.•Expression of DHRS3 protein was detected in the human liver, testes and small intestine. Dehydrogenase/reductase (SDR family) member 3 (DHRS3), also known as retinal short-chain dehydrogenase/reductase (retSDR1) is a member of SDR16C family. This family is thought to be NADP(H) dependent and to have multiple substrates; however, to date, only all-trans-retinal has been identified as a DHRS3 substrate. The reductive reaction catalysed by DHRS3 seems to be physiological, and recent studies proved the importance of DHRS3 for maintaining suitable retinoic acid levels during embryonic development in vivo. Although it seems that DHRS3 is an important protein, knowledge of the protein and its properties is quite limited, with the majority of information being more than 15years old. This study aimed to generate a more comprehensive characterisation of the DHRS3 protein. Recombinant enzyme was prepared and demonstrated to be a microsomal, integral-membrane protein with the C-terminus oriented towards the cytosol, consistent with its preference of NADPH as a cofactor. It was determined that DHRS3 also participates in the metabolism of other endogenous compounds, such as androstenedione, estrone, and DL-glyceraldehyde, and in the biotransformation of xenobiotics (e.g., NNK and acetohexamide) in addition to all-trans-retinal. Purified and reconstituted enzyme was prepared for the first time and will be used for further studies. Expression of DHRS3 was shown at the level of both mRNA and protein in the human liver, testis and small intestine. This new information could open other areas of DHRS3 protein research.