Androgen inactivation and steroid-converting enzyme expression in abdominal adipose tissue in men

Blouin, Karine; Richard, Christian; Brochu, Gaëtan; Fs, Hould; Lebel, Stéfane; Marceau, Simon; Biron, Simon; Luu-The,; Tchernof, André

doi:10.1677/joe.1.06365

Cited by 76 publications

(62 citation statements)

References 51 publications

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“…Hence, if AKR1C3 is primarily expressed in fully matured adipocytes, the lower expression in adipose tissue from obese subjects with the metabolic syndrome could reflect a larger proportion of immature adipocytes in the sc adipose tissue. Several studies have reported a depot difference in AKR1C3 expression, with sc adipose tissue displaying the highest expression [12][13][14][15]. Our study expands on these findings by showing that AKR1C3 has the highest expression levels in sc adipose tissue when compared with 64 other human tissues.…”

Section: Discussionsupporting

confidence: 79%

“…5. As in previous studies [12][13][14][15], omental adipose tissue displayed a lower expression level than sc adipose tissue.…”

Section: Akr1c3 Is Highly Expressed In the Sc Adipose Tissue Depotsupporting

confidence: 82%

“…Furthermore, AKR1C3 expression correlated with leptin levels and expression was higher in enlarged adipocytes. AKR1C3 expression in adipose tissue has previously mainly been investigated in relation to its role in steroid hormone conversion [12,13,15,31]. However, to the best of our knowledge, a direct link between adipose tissue AKR1C3 expression and the metabolic syndrome has not been investigated.…”

Section: Discussionmentioning

confidence: 99%

“…Researchers including ourselves have previously shown that a number of genes display different expression levels between the subcutaneous (sc) and the visceral depots [9][10][11]. One gene which has been shown in several studies to be expressed at higher levels in sc adipose tissue is aldoketoreductase 1C3 (AKR1C3; also known as type 5 17β-hydroxysteroid dehydrogenase; 17β-HSD-5) [12][13][14][15]. AKR1C3 is a multifunctional enzyme that is able to metabolize a diverse array of substrates, including various types of hydroxysteroids [16,17].…”

Section: Introductionmentioning

confidence: 99%

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Regulation of human aldoketoreductase 1C3 (AKR1C3) gene expression in the adipose tissue

Svensson

Gabrielsson

Jernås

et al. 2008

Cellular and Molecular Biology Letters

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Aldoketoreductase 1C3 (AKR1C3) is a functional prostaglandin F synthase and a negative modulator of the availability of ligands for the nuclear receptor peroxisome proliferator-activated receptor-gamma (PPARγ). AKR1C3 expression is known to be associated with adiposity, one of the components of the metabolic syndrome. The aim of this study was to characterize the expression of AKR1C3 in the adipose tissue and adipocytes and to investigate its potential role in the metabolic syndrome. Using microarray analysis and realtime PCR, we studied the expression of AKR1C3 in adipose tissue samples from obese subjects with or without metabolic complications, during very low calorie diet-induced weight loss, and its expression in isolated human adipocytes of different sizes. The adipose tissue AKR1C3 expression levels were marginally lower in obese subjects with the metabolic syndrome compared with the levels in healthy obese subjects when analyzed using microarray (p = 0.078) and realtime PCR (p < 0.05), suggesting a secondary or compensatory effect. The adipose tissue mRNA levels of AKR1C3 were reduced during and after dietinduced weight-loss compared to the levels before the start of the diet (p < 0.001 at all time-points). The gene expression of AKR1C3 correlated with both adipose tissue mRNA levels and serum levels of leptin before the start of the diet (p < 0.05 and p < 0.01, respectively). Furthermore, large adipocytes displayed a higher expression of AKR1C3 than small adipocytes (1.5-fold, p < 0.01). In conclusion, adipose tissue AKR1C3 expression may be affected by metabolic disease, and its levels are significantly reduced in response to dietinduced weight loss and correlate with leptin levels.

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Section: Discussionsupporting

confidence: 79%

“…5. As in previous studies [12][13][14][15], omental adipose tissue displayed a lower expression level than sc adipose tissue.…”

Section: Akr1c3 Is Highly Expressed In the Sc Adipose Tissue Depotsupporting

confidence: 82%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Regulation of human aldoketoreductase 1C3 (AKR1C3) gene expression in the adipose tissue

Svensson

Gabrielsson

Jernås

et al. 2008

Cellular and Molecular Biology Letters

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show abstract

“…Adipose tissue is now considered as an important endocrine organ, which is a major site for metabolism of sex steroids (Kershaw & Flier 2004, Blouin et al 2006) and interestingly, the retroperitoneal fat Figure 1 Amino acid sequence comparison of the mouse, human, and monkey 17b-HSD12 and 17b-HSD3. The amino acid sequences of the mouse 17b-HSD12 and 17b-HSD3 are aligned with their primate homologs.…”

Section: Discussionmentioning

confidence: 99%

Differential androgen and estrogen substrates specificity in the mouse and primates type 12 17β-hydroxysteroid dehydrogenase

Blanchard¹,

Luu‐The²

2007

Journal of Endocrinology

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Recently, we have shown that human and monkey type 12 17b-hydroxysteroid dehydrogenases (17b-HSD12) are estrogen-specific enzymes catalyzing the transformation of estrone (E 1 ) into estradiol (E 2 ). To further characterize this novel steroidogenic enzyme in an animal model, we have isolated a cDNA fragment encoding mouse 17b-HSD12 and characterized its enzymatic activity. Using human embryonic kidney cells (HEK)-293 cells stably expressing mouse 17b-HSD12, we found that in contrast with the human and monkey enzymes, which are specific for the transformation of E 1 to E 2 , mouse 17b-HSD12 also catalyzes the transformation of 4-androstenedione into testosterone (T), dehydroepiandrosterone (DHEA) into 5-androstene-3b,17b-diol (5-diol), as well as androsterone into 5a-androstane-3a,17b-diol (3a-diol). Previously, we have shown that the specificity of human and monkey 17b-HSD12s for C18-steroid is due to the presence of a bulky phenylalanine (F) at position 234 creating steric hindrance, preventing the entrance of C19-steroids into the active site. To determine whether the smaller size of the corresponding leucine (L) in the mouse sequence is responsible for the entrance of androgenic substrates, we performed site-directed mutagenesis to substitute Leu 234 for Phe in the mouse enzyme. In agreement with our hypothesis, the mutated enzyme has a highly reduced ability to metabolize androgens. mRNA quantification in several mouse tissues using real-time PCR shows that mouse 17b-HSD12 mRNA is highly expressed in the female clitoral gland, male preputial gland, as well as in retroperitoneal fat and adrenal of both sexes. The differential androgenic/estrogenic substrate specificity of type 12 17b-HSD in the mouse and primates seems to agree with the observation that androgen and estrogen in the mouse are provided almost exclusively by gonads, while in primates an important part of these steroid hormones are produced locally from adrenal precursors.

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Androgens and the Regulation of Adiposity and Body Fat Distribution in Humans

Tchernof

Brochu

Maltais‐Payette

et al. 2018

Comprehensive Physiology

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The sexual dimorphism in human body fat distribution suggests a causal role for sex hormones. This is of particular importance when considering the role of excess visceral adipose tissue accumulation as a critical determinant of obesity-related cardiometabolic alterations. Scientific literature on the modulation of body fat distribution by androgens in humans is abundant, remarkably inconsistent and difficult to summarize. We reviewed relevant literature on this topic, with a particular emphasis on androgen replacement, androgen effects on selected parameters of adipose tissue function and adipose tissue steroid-converting enzymes. In men, low androgenic status mostly reflected by reduced total testosterone is a frequent feature of visceral obesity and the metabolic syndrome. Regarding testosterone therapy, however, studies must be appreciated in the context of current controversies on their cardiovascular effects. Analyses of available studies suggest that decreases in waist circumference in response to testosterone are more likely observed in men with low levels of testosterone and high BMI at study onset. In women with androgen excess, higher testosterone and free testosterone levels are fairly consistent predictors of increased abdominal and/or visceral adipose tissue accumulation, which is not the case in nonhyperandrogenic women. Regarding mechanisms, androgens decrease adipogenesis and markers of lipid storage in vitro in men and women. Evidence also suggest that local steroid transformations by adipose tissue steroid-converting enzymes expressed in a depot-specific fashion may play a role in androgen-mediated modulation of body fat distribution. Accumulating evidence shows that androgens are critical modulators of body fat distribution in both men and women. © 2018 American Physiological Society. Compr Physiol 8:1253-1290, 2018.

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Androgen inactivation and steroid-converting enzyme expression in abdominal adipose tissue in men

Cited by 76 publications

References 51 publications

Regulation of human aldoketoreductase 1C3 (AKR1C3) gene expression in the adipose tissue

Regulation of human aldoketoreductase 1C3 (AKR1C3) gene expression in the adipose tissue

Differential androgen and estrogen substrates specificity in the mouse and primates type 12 17β-hydroxysteroid dehydrogenase

Androgens and the Regulation of Adiposity and Body Fat Distribution in Humans

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