Retinaldehyde represses adipogenesis and diet-induced obesity

Ziouzenkova, Ouliana; Orasanu, Gabriela; Sharlach, Molly; Akiyama, Taro E.; Berger, Joel P.; Viereck, Jason; Hamilton, James A.; Tang, Guangwen; Dolnikowski, Gregory G.; Vogel, Silke; Duester, Gregg; Plutzky, Jorge

doi:10.1038/nm1587

Cited by 342 publications

(415 citation statements)

References 45 publications

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“…Many components of the RA signalling pathway are upregulated in the hypothalamus of long day‐acclimatized rodents including the retinoic X receptor (RXR) which can heterodimerize with either the TH receptor or the RA related receptor (Helfer et al, 2012; Ross et al, 2005; Ross et al, 2004; Shearer et al, 2010; Shearer et al, 2012b). Finally, the importance of Raldh1 in energy balance is highlighted in the finding that Raldh1 −/− mice are highly resistant to diet‐induced obesity (Ziouzenkova et al, 2007). This phenotype was ascribed to an excess of retinaldehyde in adipose tissue due to a lack of Raldh1.…”

Section: Discussionmentioning

confidence: 99%

Thyroid hormone activation of retinoic acid synthesis in hypothalamic tanycytes

Stoney

Helfer

Rodrigues

et al. 2015

Glia

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Thyroid hormone (TH) is essential for adult brain function and its actions include several key roles in the hypothalamus. Although TH controls gene expression via specific TH receptors of the nuclear receptor class, surprisingly few genes have been demonstrated to be directly regulated by TH in the hypothalamus, or the adult brain as a whole. This study explored the rapid induction by TH of retinaldehyde dehydrogenase 1 (Raldh1), encoding a retinoic acid (RA)‐synthesizing enzyme, as a gene specifically expressed in hypothalamic tanycytes, cells that mediate a number of actions of TH in the hypothalamus. The resulting increase in RA may then regulate gene expression via the RA receptors, also of the nuclear receptor class. In vivo exposure of the rat to TH led to a significant and rapid increase in hypothalamic Raldh1 within 4 hours. That this may lead to an in vivo increase in RA is suggested by the later induction by TH of the RA‐responsive gene Cyp26b1. To explore the actions of RA in the hypothalamus as a potential mediator of TH control of gene regulation, an ex vivo hypothalamic rat slice culture method was developed in which the Raldh1‐expressing tanycytes were maintained. These slice cultures confirmed that TH did not act on genes regulating energy balance but could induce Raldh1. RA has the potential to upregulate expression of genes involved in growth and appetite, Ghrh and Agrp. This regulation is acutely sensitive to epigenetic changes, as has been shown for TH action in vivo. These results indicate that sequential triggering of two nuclear receptor signalling systems has the capability to mediate some of the functions of TH in the hypothalamus. GLIA 2016;64:425–439

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Section: Discussionmentioning

confidence: 99%

Thyroid hormone activation of retinoic acid synthesis in hypothalamic tanycytes

Stoney

Helfer

Rodrigues

et al. 2015

Glia

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“…Indeed, it is well known that vitamin A derivatives are strong repressors of adipocyte differentiation. This was established long ago for RA [42], and a recent article elegantly demonstrated that physiological concentration of retinal represses adipogenesis in vitro and in vivo [85] through inhibition of RXRa (retinoid X receptor a) and PPARc-activation by their respective ligands (Fig. 2).…”

Section: Adipocyte Differentiationmentioning

confidence: 90%

“…Bovine marbling (which is the presence of a high amount of fat in muscle) is enhanced in the cattle by diets low in carotenoids, so that marbling development is inversely correlated with serum vitamin A levels [39]. In rodents, the administration of RA (reviewed in [6]) or retinal [85] reduces body weight and body fat, and increases insulin sensitivity. Long-term vitamin A supplementation (as retinyl palmitate) has been shown to associate with a mild reduction of adiposity in rats [41] and has certain counterbalancing effect on the development of diet-induced obesity in mice [15].…”

Section: Carotenoid/retinoid Pathway and Lipid Metabolismmentioning

confidence: 99%

“…Since BCMO1 and BCDO2 are expressed in adipocytes [29], the possibility exists that the cleavage products could be found in adipocytes. In fact, retinal, which can be produced via BCMO1 cleavage, has been detected in adipose tissue [85]. RAs resulting from oxidation of retinal by RALDHs are also quantifiable in adipose tissue in vivo [52], especially all-trans RA; whereas evidence of the existence of 9-cis RA in vivo is still lacking [35,52,68].…”

Section: Effect Of B-carotene and Its Metabolites On Adipose Tissue Bmentioning

confidence: 99%

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β-Carotene conversion products and their effects on adipose tissue

et al. 2009

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Recent epidemiological data suggest that b-carotene may be protective against metabolic diseases in which adipose tissue plays a key role. Adipose tissue constitutes the major b-carotene storage tissue and its functions have been shown to be modulated in response to b-carotene breakdown products, especially retinal produced after cleavage by b-carotene 15,15 0 -monooxygenase (BCMO1), and retinoic acid arising from oxidation of retinal. However, the possibility exists that b-carotene in its intact form can also affect adipocyte function. Development of a knock out model and identification of a loss-offunction mutation have pointed out BCMO1 as being probably the sole enzyme responsible for provitamin A conversion into retinal in mammals. The utilisation of BCMO1 -/-mice should provide insights on b-carotene effect on its own in the future. In humans, intervention studies have highlighted the huge interindividual variation of b-carotene conversion efficiency, possibly due to genetic polymorphisms, which might impact on response to b-carotene. This brief review discusses the processes involved in b-carotene conversion and the effect of cleavage products on body fat and adipose tissue function.

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“…Quantifying how manipulation of retinoid metabolism effects the flux of retinoids through metabolic paths and/or effects availability of substrate for RA production will provide insight into retinoid homeostasis and metabolism, and thereby function. Dysfunctions in retinoid homeostasis have been linked to dyslipidemia, diabetes, obesity, cancer, and Alzheimer's Disease (33)(34)(35)(36)(37)(38)(39)(40).…”

Section: Introductionmentioning

confidence: 99%

HPLC/UV quantitation of retinal, retinol, and retinyl esters in serum and tissues

Kane

Folias

Napoli

2008

Analytical Biochemistry

154

160

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We report robust HPLC/UV methods for quantifying retinyl esters (RE), retinol (ROL) and retinal (RAL) applicable to diverse biological samples, with lower limits of detection of 0.7 pmol, 0.2 pmol, and 0.2 pmol, respectively, and linear ranges >3 orders of magnitude. These assays function well with small, complex biological samples (10-20 mg tissue). Coefficients of variation range from: intra-day, 5.9-10.0%; inter-day, 5.9-11.0%. Quantification of endogenous RE, ROL, and RAL in mouse serum and tissues (liver, kidney, adipose, muscle, spleen, testis, skin, brain, and brain regions) reveals utility. Ability to discriminate spatial concentrations of ROL and RE is illustrated with C57BL/6 mouse brain loci (hippocampus, cortex, olfactory bulb, thalamus, cerebellum, and striatum.) We also developed a method to distinguish isomeric forms of ROL to investigate precursors of retinoic acid. The ROL isomer assay has limits of detection between 3.5-4.5 pmol and a similar linear range and % CV as the ROL/RE and RAL assays. The assays described here provide for sensitive and rigorous quantification of endogenous RE, ROL, and RAL to elucidate retinoid homeostasis in disease states, such as Alzheimer's disease, type 2 diabetes, obesity, and cancer.

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Retinaldehyde represses adipogenesis and diet-induced obesity

Cited by 342 publications

References 45 publications

Thyroid hormone activation of retinoic acid synthesis in hypothalamic tanycytes

Thyroid hormone activation of retinoic acid synthesis in hypothalamic tanycytes

β-Carotene conversion products and their effects on adipose tissue

HPLC/UV quantitation of retinal, retinol, and retinyl esters in serum and tissues

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