Valproic Acid and CEBPα-Mediated Regulation of Adipokine Gene Expression in Hypothalamic Neurons and 3T3-L1 Adipocytes

Brown, Russell E.; Imran, Syed Ali; Ur, Ehud; Wilkinson, Michael

doi:10.1159/000113927

Cited by 30 publications

(19 citation statements)

References 100 publications

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“…36,49,50,52 In fact, there is now good evidence for a local RAS within adipose tissue that appears to regulate adipose tissue growth, metabolism and differentiation. 14,40 These observations are consistent with the identification of angiotensin II receptor expression in human and rodent adipocytes. 15,16 The RAS also appears to be a critical modulator of triglyceride metabolism and cellular differentiation in adipose tissue, 50 where it significantly impacts adipokine gene regulation.…”

Section: Discussionsupporting

confidence: 86%

Tissue-specific effects of valsartan onrstnandfiafgene expression in theob/obmouse

Imran

Brown

Wilkinson

2010

Diabetes and Vascular Disease Research

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The RAS is a novel target in the study of diabetes, and clinical trials have indicated that ARBs, such as valsartan, may exert some of their clinical effects through an influence on adipose tissue. We studied the effect of valsartan on adipokine genes resistin (rstn) and fasting-induced adipose factor (fiaf) using obese and diabetic ob/ob mice. In addition to visceral and subcutaneous fat, rstn and fiaf mRNA levels were also measured in several other tissues known to express these adipokines, including the pituitary, cerebral cortex and hypothalamus. The significant findings were that (a) fiaf gene expression was elevated two-to fourfold in visceral and subcutaneous fat from ob/ob mice, compared with lean controls; (b) the increase in fiaf mRNA in subcutaneous, but not visceral, fat from ob/ob mice was returned to lean control levels following 2 weeks of valsartan treatment; (c) fiaf expression was reduced in the hypothalamus, but not in the cortex or pituitary, of ob/ob mice; (d) rstn expression was greatly reduced in visceral fat from ob/ob mice, compared with lean controls, but this was unaffected by valsartan; and (e) rstn expression was unchanged in all other tissues from ob/ob mice, with or without valsartan treatment.

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Section: Discussionsupporting

confidence: 86%

Tissue-specific effects of valsartan onrstnandfiafgene expression in theob/obmouse

Imran

Brown

Wilkinson

2010

Diabetes and Vascular Disease Research

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“…(1) complements our own previously published studies where we quantified fiaf mRNA in cultured hypothalamic neurons (5,6). Moreover, we provided evidence for the CCAAT/enhancer binding protein ␣-dependent regulation of hypothalamic-derived fiaf (6), a transcription factor implicated in the regulation of proinflammmatory processes within the central nervous system.…”

supporting

confidence: 76%

Comment on: Kim et al. (2010) Hypothalamic Angptl4/Fiaf Is a Novel Regulator of Food Intake and Body Weight. Diabetes;59:2772–2780

et al. 2011

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T he article by Kim et al. (1) outlines a detailed series of experiments that purport to establish angiopoietin-like protein 4(Angptl4)/fastinginduced adipose factor (Fiaf) as a novel hypothalamic regulator of food intake and body weight in the mouse. Although the results of this study are impressive, we note that all previous publications on the regulation of fiaf in the murine brain were overlooked. For example, in our ongoing studies of adipokine gene expression in the nervous system (2), we provided the first evidence that fiaf mRNA was readily detectable, by RT-PCR and by Northern analysis, in the mouse hypothalamus, cortex, and pituitary gland (3) as well as in the rat brain following traumatic brain injury (TBI) (4). However, in contrast to the findings of Kim et al.(1), we failed to observe an effect of fasting on mouse hypothalamic fiaf mRNA (3), though the fastinginduced increase in adipose fiaf expression is in agreement with their observations. The reasons for the conflicting results in hypothalamus could be due to the use of nonidentical fasting periods, methodological discrepancy including brain dissection, and how fiaf expression was measured, or the use of different mouse strains of varying ages. Further, the evidence for FIAF immunofluorescence localized to hypothalamic neurons provided by Kim et al.(1) complements our own previously published studies where we quantified fiaf mRNA in cultured hypothalamic neurons (5,6). Moreover, we provided evidence for the CCAAT/enhancer binding protein ␣-dependent regulation of hypothalamic-derived fiaf (6), a transcription factor implicated in the regulation of proinflammmatory processes within the central nervous system. Additionally, fiaf gene expression was inducible in the central nervous system by lipopolysaccharide both in vitro and in vivo (7), as well as by hypoxia/ischemia (8) and TBI (4), equally suggesting a role for centrally-derived FIAF in brain injury and repair.In conclusion, although we think that the report by Kim et al. (1) is an important contribution to the literature on brain-derived adipokines, we believe these results should have been considered in the context of previously published investigations. ACKNOWLEDGMENTS

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“…Further, the chronic use of VPA also results in visceral weight gain, because it is still used in patients suffering from epilepsy (36,42,43) or having manic episodes during bipolar disorders (44). We have shown that one of the mechanisms by which glucocorticoids mediate this effect is through the up-regulation of C/ebp␣ via direct transcriptional activation of the promoter and regulation of the transcriptional activity of C/EBP␤ (13)(14)(15).…”

Section: Discussionmentioning

confidence: 99%

“…On the other hand, several studies show the opposite, where TSA and the antiepileptic drug valproic acid (VPA) favor adipogenesis (13,36,and reviewed in Ref. 37).…”

mentioning

confidence: 99%

Inactivation of Histone Deacetylase 1 (HDAC1) But Not HDAC2 Is Required for the Glucocorticoid-Dependent CCAAT/Enhancer-Binding Protein α (C/EBPα) Expression and Preadipocyte Differentiation

Kuzmochka¹,

Abdou

Haché

et al. 2014

Endocrinology

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Several drugs currently used in the management of mood disorders, epilepsy (ie, valproic acid), or the control of inflammation (ie, corticosteroids) have been shown to promote visceral obesity in humans by increasing the number of newly formed adipocytes. Valproic acid is classified as a nonspecific histone deacetylase (HDAC) inhibitor, along with trichostatin A and butyric acid. In vitro experiments have demonstrated that such molecules greatly enhance the rate of preadipocyte differentiation, similarly to the effect of corticosteroids. The glucocorticoid receptor stimulates adipogenesis in part by enhancing the transcription of C/ebpa through the titration, and subsequent degradation, of HDAC1 from the C/ebpα promoter. There is, however, controversy in the literature as to the role of HDACs during adipogenesis. In this study, we sought to demonstrate, using 2 different strategies, the definite role of HDAC1 in adipogenesis. By using small interference RNA-mediated knockdown of HDAC1 and by generating an enzymatically inactive HDAC1D181A by site-directed mutagenesis, we were able to show that HDAC1, but not HDAC2, suppresses glucocorticoid receptor-potentiated preadipocyte differentiation by decreasing CCAAT/enhancer-binding protein (C/ebp)α and Pparγ expression levels at the onset of differentiation. Finally, we demonstrate that HDAC1D181A acts as a dominant negative mutant of HDAC1 during adipogenesis by modulating C/EBPβ transcriptional activity on the C/ebpα promoter.

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Valproic Acid and CEBPα-Mediated Regulation of Adipokine Gene Expression in Hypothalamic Neurons and 3T3-L1 Adipocytes

Cited by 30 publications

References 100 publications

Tissue-specific effects of valsartan onrstnandfiafgene expression in theob/obmouse

Tissue-specific effects of valsartan onrstnandfiafgene expression in theob/obmouse

Comment on: Kim et al. (2010) Hypothalamic Angptl4/Fiaf Is a Novel Regulator of Food Intake and Body Weight. Diabetes;59:2772–2780

Inactivation of Histone Deacetylase 1 (HDAC1) But Not HDAC2 Is Required for the Glucocorticoid-Dependent CCAAT/Enhancer-Binding Protein α (C/EBPα) Expression and Preadipocyte Differentiation

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