Sex Steroid Hormones Regulate Leptin Transcript Accumulation and Protein Secretion in 3T3-L1 Cells

Jenks, Mónica Z.; Fairfield, Heather; Johnson, Erik C.; Morrison, Ron F.; Muday, Gloria K.

doi:10.1038/s41598-017-07473-5

Cited by 46 publications

(29 citation statements)

References 94 publications

(108 reference statements)

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“…Adipose tissue is a highly heterogeneous organ with cell-and depot-specific functions [35][36][37]. However, we chose 3T3-L1 differentiated adipocytes because they are a well-characterized and widely used cell line in metabolic, molecular, and endocrine studies, including studies on leptin expression levels [38][39][40][41].…”

Section: Discussionmentioning

confidence: 99%

Increased Expression of the Leptin Gene in Adipose Tissue of Patients with Chronic Kidney Disease–The Possible Role of an Abnormal Serum Fatty Acid Profile

et al. 2020

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Chronic kidney disease (CKD) is associated with an increased level of leptin and an abnormal fatty acid (FA) profile in the serum. However, there are no data on the associations between them, and the reason for increased serum levels in patients with CKD is not well elucidated. Recently, we found that a CKD-related abnormal FA profile caused significant changes in the expression of genes involved in lipid metabolism in hepatocytes. The aim of this study was to examine whether leptin gene expression in subcutaneous adipose tissue (SAT) of patients with CKD may contribute to increased serum levels of this adipokine and whether the abnormal serum FA profile observed in CKD patients has an impact on leptin gene expression in adipocytes. The FA profile was measured in serum samples from patients with CKD and controls by GC-MS. The relative mRNA levels of leptin were measured in SAT by Real-Time PCR. Moreover, the effect of the CKD-related abnormal FA profile on leptin gene expression was studied in in vitro cultured 3T3-L1 adipocytes. Patients with CKD had higher concentrations of serum leptin than controls and higher expression level of the leptin gene in SAT. They also had increased serum monounsaturated FAs and decreased polyunsaturated FAs. The incubation of adipocytes with FAs isolated from CKD patients resulted in an increase of the levels of leptin mRNA. Increased leptin gene expression in SAT may contribute to elevated concentrations of these adipokine in patients with CKD. CKD-related alterations of the FA profile may contribute to elevated serum leptin concentrations in patients with CKD by increasing the gene expression of this adipokine in SAT.

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Section: Discussionmentioning

confidence: 99%

Increased Expression of the Leptin Gene in Adipose Tissue of Patients with Chronic Kidney Disease–The Possible Role of an Abnormal Serum Fatty Acid Profile

et al. 2020

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“…It is possible that increased levels of leptin in the blood of females were associated with the action of sex hormones. It has been demonstrated that testosterone reduces the concentration of leptin [35], and estrogen increases leptin production in vivo [36] and in vitro [37]. Perhaps the sex-specific insulin response to food intake is a common phenomenon for different species: Men also have significantly higher postprandial insulin levels compared to women [19].…”

Section: Discussionmentioning

confidence: 99%

Sex Differences in Liver, Adipose Tissue, and Muscle Transcriptional Response to Fasting and Refeeding in Mice

Бажан

Jakovleva

Феофанова

et al. 2019

Cells

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Fasting is often used for obesity correction but the “refeeding syndrome” limits its efficiency, and molecular mechanisms underlying metabolic response to different food availability are under investigation. Sex was shown to affect hormonal and metabolic reactions to fasting/refeeding. The aim of this study was to evaluate hormonal and transcriptional responses to fasting and refeeding in male and female C57Bl/6J mice. Sex asymmetry was observed both at the hormonal and transcriptional levels. Fasting (24 h) induced increase in hepatic Fgf21 gene expression, which was associated with elevation of plasma FGF21 and adiponectin levels, and the upregulation of expression of hepatic (Pparα, Cpt1α) and muscle (Cpt1β, Ucp3) genes involved in fatty acid oxidation. These changes were more pronounced in females. Refeeding (6 h) evoked hyperinsulinemia and increased hepatic expression of gene related to lipogenesis (Fasn) only in males and hyperleptinemia and increase in Fgf21 gene expression in muscles and adipose tissues only in females. The results suggest that in mice, one of the molecular mechanisms underlying sex asymmetry in hepatic Pparα, Cpt1α, muscle Cpt1β, and Ucp3 expression during fasting is hepatic Fgf21 expression, and the reason for sex asymmetry in hepatic Fasn expression during refeeding is male-specific hyperinsulinemia.

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“…Sex steroids, depending on dose, had either inhibitory or no effect on lep and lepr expression in primary as well as secondary lymphoid organs of both the sexes, except on lepr in head kidney where DHT had marked stimulatory effect in male and E 2 in female. Since the effect of sex steroids on lep and lepr expression remain unexplored in immune organs of vertebrates, we analysed our results in light of observations in other tissues of fishes 26,28,29 and mammals 41,[50][51][52][53][54] . Our findings on lep and lepr expression in immune organs of C. punctata are largely contrasting to a recent study in immature male Salmo salar in which testosterone is reported to increase lep expression in liver and pituitary while plasma level of leptin has been shown to remain unchanged in androgen-treated fish 28 .…”

Section: Discussionmentioning

confidence: 99%

“…In contrast, male as well as female sex steroids have been demonstrated to downregulate the expression of lep and its receptor in hepatocytes of immature female Cynoglossus semilaevis 31 . Apart from fishes, direct role of sex steroids has been explored also in mammals where androgens and estrogen are shown to have differential effects, inhibitory, stimulatory or no effect, on leptin production from adipocytes 18,[52][53][54] . Surprisingly, in vitro study to demonstrate the effect of sex steroids on expression of leptin receptor is missing in mammals.…”

Section: Discussionmentioning

confidence: 99%

Reproductive phase-dependent variation, sexually dimorphic expression and sex steroids-mediated transcriptional regulation of lep and lepr in lymphoid organs of Channa punctata

Bakshi

Rai

2020

Sci Rep

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The reproductive phase-dependent and sex-related differential expression of leptin (lep) and its receptor (lepr) in primary and secondary lymphoid organs of a highly nutritive economically important Channa punctata preempts the involvement of sex steroids in modulating intra-immuno-leptin system. This hypothesis was strengthened when plasma testosterone (T) and estradiol (E 2) levels in male and female fish of reproductively active spawning and quiescent phases were correlated with lep and lepr expression in their immune organs. Splenic lep and lepr showed a negative correlation with t in both male and female, while with e 2 there was a positive correlation in male and negative in female C. punctata. in head kidney, a contrasting correlation was observed as compared to spleen. to validate the implication of sex steroids in regulating leptin system in immune organs, in vivo and in vitro experiments were performed with DHt and e 2. Upon administration, lep and lepr expression in tissues of either sex was downregulated. in addition, in vitro results with either of the sex steroids exemplified their direct involvement. Overall, this study, for the first time, reports correlation between sex steroids and transcript expression of leptin system in immune organs of a seasonally breeding vertebrate. Leptin encoded by obese gene Lep also known as Ob is a 16 kDa non-glycosylated protein belonging to class I cytokine family and is primarily produced from adipose tissue in mammals 1. It is reported to act through long form of membrane-bound leptin receptor (Lepr) 2. Besides acting as a central link between feeding, adiposity and energy homeostasis 3 , leptin regulates several other physiological functions in mammals including reproduction 4 and immunity 5. The orthologs of Lep and Lepr have been identified in several teleosts 6-10 in which liver, and not the adipocytes, is reported to be the major leptin-expressing organ. Regarding physiological significance, hepatic lep is suggested to be majorly involved in orchestration of energy trade-off rather than regulating food intake in fishes 9,11-13. In addition to liver, expression of lep is shown in other tissues, including immune organs 6,10,11. Since immune defence varies with state of reproductive activity in seasonally breeding vertebrates 14,15 , an effort needs to be made to examine correlation between leptin, immunity and reproduction. In addition, sexual dimorphism is unveiled in levels of leptin in blood plasma 16,17 and adipose tissue 18,19 in mammals, being significantly higher in females than males. Interestingly, these sex-related differences in leptin protein and mRNA levels exist regardless of the amount of body fat 16. This led to hypothesize the involvement of sex steroids in modulating leptin expression 20. With regard to sexually dimorphic expression of leptin receptor, reports in mammals are limited and present contradictory results 21,22. In teleosts, studies on sex-related variation in plasma levels of leptin 23,24 or expression of lep and lepr have been me...

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Sex Steroid Hormones Regulate Leptin Transcript Accumulation and Protein Secretion in 3T3-L1 Cells

Cited by 46 publications

References 94 publications

Increased Expression of the Leptin Gene in Adipose Tissue of Patients with Chronic Kidney Disease–The Possible Role of an Abnormal Serum Fatty Acid Profile

Increased Expression of the Leptin Gene in Adipose Tissue of Patients with Chronic Kidney Disease–The Possible Role of an Abnormal Serum Fatty Acid Profile

Sex Differences in Liver, Adipose Tissue, and Muscle Transcriptional Response to Fasting and Refeeding in Mice

Reproductive phase-dependent variation, sexually dimorphic expression and sex steroids-mediated transcriptional regulation of lep and lepr in lymphoid organs of Channa punctata

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