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Journal of molecular endocrinology2006; 36(3); 449-461; doi: 10.1677/jme.1.01987

Human chorionic gonadotropin-dependent induction of an equine aldo-keto reductase (AKR1C23) with 20alpha-hydroxysteroid dehydrogenase activity during follicular luteinization in vivo.

Abstract: Aldo-keto reductases (AKRs) are multifunctional enzymes capable of acting on a wide variety of substrates, including sex steroids. AKRs having 20alpha-hydroxysteroid dehydrogenase (20alpha-HSD) activity can reduce progesterone to 20alpha-hydroxy-4-pregnen-3-one (20alpha-DHP), a metabolite with lower affinity for the progesterone receptor. The objective of this study was to investigate the regulation of equine AKR1C23 during human chorionic gonadotropin (hCG)-induced ovulation/luteinization. The equine AKR1C23 cDNA was cloned and shown to encode a 322 amino acid protein that is conserved (71-81% identity) when compared with mammalian orthologs. RT-PCR/Southern blotting analyses were performed to study the regulation of AKR1C23 transcripts in equine preovulatory follicles isolated between 0 and 39 h after hCG treatment (ovulation occurring 39-42 h post-hCG). Results showed the presence of low AKR1C23 expression before hCG treatment, but a marked increase was observed in follicles obtained 12 h after hCG (P<0.05). Analyses of isolated preparations of granulosa and theca interna cells identified low mRNA expression in both cell types prior to hCG treatment, with granulosa cells clearly being the predominant site of follicular AKR1C23 mRNA induction. A specific polyclonal antibody was raised against a fragment of the equine protein and immunoblotting analyses showed an increase in AKR1C23 protein in granulosa cell extracts when comparing follicles isolated at 36 h post-hCG vs those collected prior to treatment, in keeping with mRNA results. Immunohistochemical data confirmed the induction of the enzyme in follicular cells after hCG treatment. The enzyme was tested for 20alpha-HSD activity and was shown to exhibit a K(M) of 3.12 microM, and a V(max) of 0.86 pmol/min per 10 microg protein towards progesterone. The levels of 20alpha-DHP measured in follicular fluid reflected this activity. Collectively, these results demonstrate for the first time that the gonadotropin-dependent induction of follicular luteinization is accompanied by an increase in AKR1C23 expression. Considering the 20alpha-HSD activity of AKR1C23, its regulated expression in luteinizing preovulatory follicles may provide a biochemical basis for the increase in ovarian 20alpha-DHP observed during gonadotropin-induced luteinization/ovulation. (The nucleotide sequence reported in this paper has been submitted to GenBank with accession number AY955082.).
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Publication Date: 2006-05-25 PubMed ID: 16720716DOI: 10.1677/jme.1.01987Google Scholar: Lookup
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Summary

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The researchers found that the hormone human chorionic gonadotropin (hCG) stimulates the production of a specific enzyme in horses during ovulation. This enzyme, AKR1C23, converts the hormone progesterone into another substance with less affinity for progesterone receptors, possibly providing a biochemical basis for the increase in a specific hormone observed during ovulation.

Understanding Aldo-keto reductases (AKRs)

  • AKRs are multifunctional enzymes which can act on a wide range of substrates, among which are sex steroids.
  • AKRs with 20alpha-HSD activity can convert the hormone progesterone into a lesser affinity hormone for progesterone receptors, namely 20alpha-DHP.

Role of human chorionic gonadotropin (hCG)

  • The study aimed at understanding the regulation of equine AKR1C23 during hCG-induced ovulation/luteinization in horses.
  • Prior to hCG treatment, low levels of AKR1C23 were detected in horse follicles. However, the expression of AKR1C23 significantly increased in follicles 12 hours post-hCG treatment.

Expression of AKR1C23

  • Initially, low mRNA expressions were found in both granulosa and theca interna cells. But following hCG treatment, granulosa cells exhibited the primary site of follicular AKR1C23 mRNA induction.
  • An increase in AKR1C23 protein in granulosa cell extracts was noted when comparing follicles isolated at 36 hours post-hCG treatment versus those collected prior to treatment.
  • Immunohistochemical data confirmed that the enzyme production in follicular cells is induced after hCG treatment.

AKR1C23 Activity

  • Enzymes got tested for 20alpha-HSD activity and the enzyme showed a K(M) of 3.12 microM, with a V(max) of 0.86 pmol/min per 10 microg protein towards progesterone.
  • The levels of 20alpha-DHP that were measured in follicular fluid reflected this activity.
  • Overall, the study demonstrates that the hCG-dependent induction of follicular luteinization comes with an increase in AKR1C23 expression.
  • This suggests that regulated expression of AKR1C23 in luteinizing preovulatory follicles provides a biochemical basis for the observed increase in ovarian 20alpha-DHP during gonadotropin-induced luteinization/ovulation.

Cite This Article

APA
Brown KA, Boerboom D, Bouchard N, Doré M, Lussier JG, Sirois J. (2006). Human chorionic gonadotropin-dependent induction of an equine aldo-keto reductase (AKR1C23) with 20alpha-hydroxysteroid dehydrogenase activity during follicular luteinization in vivo. J Mol Endocrinol, 36(3), 449-461. https://doi.org/10.1677/jme.1.01987

Publication

Journal of molecular endocrinology
ISSN: 0952-5041
NlmUniqueID: 8902617
Country: England
Language: English
Volume: 36
Issue: 3
Pages: 449-461

Researcher Affiliations

Brown, K A
  • Centre de Recherche en Reproduction Animale et Département de Biomédecine Vétérinaire, Faculté De Médecine Vétérinaire, Université de Montréal, Québec, Canada J2S 7C6.
Boerboom, D
    Bouchard, N
      Doré, M
        Lussier, J G
          Sirois, J

            MeSH Terms

            • 20-Hydroxysteroid Dehydrogenases / genetics
            • 20-Hydroxysteroid Dehydrogenases / metabolism
            • 20-alpha-Dihydroprogesterone / metabolism
            • Amino Acid Sequence
            • Animals
            • Base Sequence
            • Chorionic Gonadotropin / metabolism
            • Enzyme Induction / physiology
            • Female
            • Gene Expression Regulation, Enzymologic
            • Horses
            • Humans
            • Luteinization / physiology
            • Molecular Sequence Data
            • Ovarian Follicle / cytology
            • Ovarian Follicle / enzymology
            • Ovarian Follicle / metabolism
            • RNA, Messenger / metabolism
            • Sequence Alignment
            • Tissue Distribution

            Citations

            This article has been cited 6 times.
            1. Piotrowska-Tomala KK, Jonczyk AW, Szóstek-Mioduchowska AZ, Żebrowska E, Ferreira-Dias G, Skarzynski DJ. The Effects of Prostaglandin E(2) Treatment on the Secretory Function of Mare Corpus Luteum Depends on the Site of Application: An in vivo Study. Front Vet Sci 2021;8:753796.
              doi: 10.3389/fvets.2021.753796pubmed: 35242830google scholar: lookup
            2. Boakari YL, Ali HE, Dini P, Loux S, Fernandes CB, Scoggin K, Esteller-Vico A, Lawrence L, Ball B. A High Protein Model Alters the Endometrial Transcriptome of Mares. Genes (Basel) 2019 Jul 30;10(8).
              doi: 10.3390/genes10080576pubmed: 31366166google scholar: lookup
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              doi: 10.1093/humupd/dmv026pubmed: 26025453google scholar: lookup
            4. Kozai K, Hojo T, Tokuyama S, Szóstek AZ, Takahashi M, Sakatani M, Nambo Y, Skarzynski DJ, Okuda K. Expression of aldo-keto reductase 1C23 in the equine corpus luteum in different luteal phases. J Reprod Dev 2014 Apr 24;60(2):150-4.
              doi: 10.1262/jrd.2013-120pubmed: 24492656google scholar: lookup
            5. Park JY, Jang H, Curry TE, Sakamoto A, Jo M. Prostate androgen-regulated mucin-like protein 1: a novel regulator of progesterone metabolism. Mol Endocrinol 2013 Nov;27(11):1871-86.
              doi: 10.1210/me.2013-1097pubmed: 24085821google scholar: lookup
            6. Dozier BL, Watanabe K, Duffy DM. Two pathways for prostaglandin F2 alpha synthesis by the primate periovulatory follicle. Reproduction 2008 Jul;136(1):53-63.
              doi: 10.1530/REP-07-0514pubmed: 18390687google scholar: lookup
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