Expression of aldo-keto reductase family 1 member C1 (AKR1C1)gene in porcine ovary and uterine endometrium during the estrous cycle and pregnancy

Seo, Kyeong-Seok; Naidansuren, Purevjargal; Kim, Sang‐Hwan; Yun, Seong-Jo; Park, Jong-Ju; Sim, Bo-Woong; Park, Cha-Won; Nanjidsuren, Tseeleema; Kang, Myung‐Hwa; Seo, Heewon; Ka, Hakhyun; Kim, Nam‐Hyung; Hwang, Sung Yeoun; Yoon, Jong Taek; Yamanouchi, Keitaro; Min, Kwan-Sik

doi:10.1186/1477-7827-9-139

Cited by 16 publications

(10 citation statements)

References 26 publications

(44 reference statements)

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“…A product of this gene is an enzyme involved in the conversion of progesterone into its biologically inactive metabolite 20α-hydroxyprogesterone (Penning 1997). This enzyme has been detected, e.g., in the porcine ovary and uterus, rat ovary and placenta, and human uterus (Seo et al 2011;Akinola et al 1997;Shiota et al 1993;Zhang et al 2000). Moreover, according to our results, AKR1C1 is a part Fig.…”

Section: Discussionsupporting

confidence: 71%

The influence of adiponectin on the transcriptomic profile of porcine luteal cells

Szeszko

Smolińska

Kieżun

et al. 2015

Funct Integr Genomics

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Reproductive functions are closely related to nutritional status. Recent studies suggest that adiponectin may be a hormonal link between them. Adiponectin is an adipocytokine, abundantly expressed in adipose tissues. It plays a dominant role in lipid and carbohydrate metabolism by stimulating fatty acid oxidation, decreasing plasma triglycerides, and increasing cells' sensitivity to insulin and has direct antiatherosclerotic effects. The hormone is also postulated to play a modulatory role in the regulation of the reproductive system. The aim of this study was to identify differentially expressed genes (DE-genes) in response to adiponectin treatment of porcine luteal ovarian cells. The global expression of genes in the porcine ovary was investigated using the Porcine (V2) Two-color gene expression microarray, 4 × 44 (Agilent, USA). Analysis of the microarray data showed that 701 genes were differentially expressed and 389 genes showed a fold change greater than 1.2 (p < 0.05). Among this number, 186 genes were up-regulated and 203 were down-regulated. The list of DE-genes was used for gene ontology analyses. The biological process list was generated from up-regulated and down-regulated DE-genes. We found that up-regulated products of DE-genes take part in 30 biological processes and down-regulated products in 9. Analysis of the interaction network among DE-genes showed that adiponectin interacts with genes involved in important processes in luteal cells. These results provide a basis for future work describing the detailed interactions and relationships explaining local regulation of adiponectin actions in the ovary of pigs.

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Section: Discussionsupporting

confidence: 71%

The influence of adiponectin on the transcriptomic profile of porcine luteal cells

Szeszko

Smolińska

Kieżun

et al. 2015

Funct Integr Genomics

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“…In the present study, the favourable periovulatory endocrine profiles (higher E2 and P4) indeed resulted in an increased expression of the genes related to histotroph composition and conceptus maintenance (AKR1C4, SLC2A1, LPL, SERPINA14). The AKR1C4 gene encodes an enzyme related to PGF2a synthesis and P4 clearance (Gauvreau et al 2010;Seo et al 2011). Therefore, the greater expression of AKR1C4 in the LF-LCL group could be associated with the beneficial role of uterine PGF2a during early pregnancy, i.e.…”

Section: Discussionmentioning

confidence: 99%

Spatio-specific regulation of endocrine-responsive gene transcription by periovulatory endocrine profiles in the bovine reproductive tract

Araujo

Sponchiado

Pugliesi

et al. 2016

Reprod. Fertil. Dev.

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In cattle, pro-oestrous oestradiol and dioestrous progesterone concentrations modulate endometrial gene expression and fertility. The aim was to compare the effects of different periovulatory endocrine profiles on the expression of progesterone receptor (PGR), oestrogen receptor 2 (ESR2), oxytocin receptor (OXTR), member C4 of aldo-keto reductase family 1 (AKR1C4), lipoprotein lipase (LPL), solute carrier family 2, member 1 (SLC2A1) and serpin peptidase inhibitor, clade A member 14 (SERPINA14): (1) between uterine horns ipsi- and contralateral to the corpus luteum (CL), (2) between regions of the ipsilateral horn and (3) in the vagina. Endometrium and vagina tissue samples were collected from cows that ovulated a larger (large follicle-large CL, LF-LCL; n=6) or smaller follicle (small follicle-small CL, SF-SCL; n=6) 7 days after oestrus. Cows in the LF-LCL group had a greater abundance of transcripts encoding ESR2, AKR1C4, LPL, SLC2A1 and SERPINA14, but a reduced expression of PGR and OXTR in the endometrium versus the SF-SCL group (PPGR and OXTR was greater in the contralateral compared with the ipsilateral horn (PPGR, ESR2, LPL, SLC2A1 and SERPINA14 (P<0.05). Different periovulatory endocrine profiles, i.e. LF-LCL or SF-SCL, did not influence gene expression in the vagina and had no interaction with inter- or intra-uterine horn gene expression. In conclusion, inter- and intra-uterine horn variations in gene expression indicate that the expression of specific genes in the bovine reproductive tract is location dependent. However, spatial distribution of transcripts was not influenced by distinct periovulatory sex-steroid environments.

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“…One of the down-regulated proteins such as aldo-keto reductase family 1 (AKR1) is an enzyme which has been shown to play an essential role in the metabolism of all steroid hormones. This enzyme catalyses the reduction of progesterone to the inactive form 20-alpha-hydroxyprogesterone and it is expressed in the ovary throughout the estrous cycle [34]. Another down-regulated protein called carbonyl reductase 1 (Cbr1) is a NADPH-dependent oxidoreductase specific for carbonyl compounds such as quinines and xenobiotics.…”

Section: Discussionmentioning

confidence: 99%

Neonatal exposure to estradiol-17β modulates tumour necrosis factor alpha and cyclooxygenase-2 expression in brain and also in ovaries of adult female rats

Shridharan

Krishnagiri

Govindaraj

et al. 2016

Hormone Molecular Biology and Clinical Investigation

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Abstract:The sexually dimorphic organization in perinatal rat brain is influenced by steroid hormones. Exposure to high levels of estrogen or endocrine-disrupting compounds during perinatal period may perturb this process, resulting in compromised reproductive physiology and behavior as observed in adult In our recent observation neonatal exposure of the female rats to estradiol-17β resulted in down-regulation of TNF-α, up-regulation of COX-2 and increase in SDN-POA size in pre-optic area in the adulthood. It is known that the control of reproductive performance in female involves a complex interplay of the hypothalamus, pituitary, and ovary. The present study was undertaken to understand the possible molecular mechanism involved in changes observed in the ovarian morphology and expression of selected genes in the ovary. Administration of estradiol-17β (100 μg) on day 2 and 3 after birth revealed up-regulation of ER-α, ER-β, COX-2 and down-regulation of TNF-α expression. Also the decrease in the ovarian weight, altered ovarian morphology and changes in the 2D protein profiles were also seen. This is apparently the first report documenting that neonatal estradiol exposure modulates TNF-α and COX-2 expression in the ovary as seen during adult stage. Our results permit us to suggest that cues originating from the modified brain structure due to neonatal exposure of estradiol-17β remodel the ovary at the molecular level in such a way that there is a disharmony in the reproductive function during adulthood and these changes are perennial and can lead to infertility and changes of reproductive behavior.

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Expression of aldo-keto reductase family 1 member C1 (AKR1C1)gene in porcine ovary and uterine endometrium during the estrous cycle and pregnancy

Cited by 16 publications

References 26 publications

The influence of adiponectin on the transcriptomic profile of porcine luteal cells

The influence of adiponectin on the transcriptomic profile of porcine luteal cells

Spatio-specific regulation of endocrine-responsive gene transcription by periovulatory endocrine profiles in the bovine reproductive tract

Neonatal exposure to estradiol-17β modulates tumour necrosis factor alpha and cyclooxygenase-2 expression in brain and also in ovaries of adult female rats

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