L Ambid scite author profile

Lipolysis is stimulated by different hormones, depending on the species, but is also regulated by antilipolytic modulators, such as catecholamines (alpha 2-agonists), neuropeptide Y (NPY), adenosine, and prostaglandin E1 (PGE1), for which species-specific variations are poorly described. Comparison of the efficiency of these antilipolytic systems showed that PGE1 or phenylisopropyladenosine was able to totally inhibit lipolysis activation in nine mammalian species. However, the antilipolytic responses to clonidine or UK-14304 were fully developed in hamster and rabbit but blunted in the adipocytes of jerboa, rat, guinea pig, garden dormouse, and dormouse. A powerful antilipolytic effect of NPY was found only in the garden dormouse. Only human and dog adipocytes exhibited antilipolytic responses to alpha 2-adrenergic and NPY stimulation. These observations were explained by differences in alpha 2-adrenergic and NPY/peptide YY receptor number. Thus, inhibitory regulation of lipolysis in white adipocytes seems to be composed of two systems: a constitutive one that is related to paracrine mediators (adenosine, prostaglandins) and a regulatory one including neuroendocrine messengers such as catecholamines and NPY.

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Cellular changes during cold acclimatation in adipose tissues

Cousin

Viguerie

Kassis

et al. 1996

J. Cell. Physiol.

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Cold exposure is a well-known physiological stimulus that activates the sympathetic nervous system and induces brown adipose tissue (BAT) hyperplasia. The effects of cold exposure or cold acclimatation have been extensively studied in interscapular BAT (IBAT). However, it has been recently shown that studied adipocytes are present in adipose deposits considered as white fat such as periovarian (PO) fat pad. We have investigated the kinetic of brown precursor recruitment in adipose tissues using DNA measurement and specific marker expression. In IBAT, cold exposure induces proliferation of precursor cells and differentiation into preadipocytes characterized by the expression of A2COL6, a marker specific to early steps of the differentiation process. A chronic stimulation of the tissue is necessary to observe the full effect. In PO fat pad, no proliferation can be detected, whereas differentiation of brown preadipocytes and maybe phenotypic conversion of white adipocytes seems to be promoted. In conclusion, these data demonstrated that 1) the same stimulus (cold exposure) does not induce the same response in terms of preadipocyte proliferation and differentiation in periovarian and brown adipose tissues, although both contain brown adipocytes, and 2) preadipocyte recruitment in adipose tissues after cold exposure depends on the predominant type of fat cells.

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Brown fat and nonshivering thermogenesis in the gray mouse lemur (Microcebus murinus)

Génin

Nibbelink

Galand

et al. 2003

American Journal of Physiology-Regulatory, Integrative and Comp

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The gray mouse lemur Microcebus murinus is a rare example of a primate exhibiting daily torpor. In captive animals, we examined the metabolic rate during arousal from torpor and showed that this process involved nonshivering thermogenesis (NST). Under thermoneutrality (28°C), warming-up from daily torpor (body temperature <33°C) involved a rapid (<5 min) increase of O2 consumption that was proportional to the depth of torpor ( n = 8). The injection of a β-adrenergic agonist (isoproterenol) known to elicit NST induced a dose-dependent increase in metabolic rate ( n = 8). Moreover, maximum thermogenesis was increased by cold exposure. For the first time in this species, anatomic and histological examination using an antibody against uncoupling protein (UCP) specifically demonstrated the presence of brown fat. With the use of Western blotting with the same antibody, we showed a likely increase in UCP expression after cold exposure, suggesting that NST is also used to survive low ambient temperatures in this tropical species.

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Evidence for a direct effect of melatonin on mitochondrial genome expression of Siberian hamster brown adipocytes

Prunet-Marcassus

Ambid

Viguerie

et al. 2001

Journal of Pineal Research

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Photoperiod variations are known to participate in the regulation of energy balance in different rodent species via melatonin, a neurosecretory product synthesized by the pineal gland during the night. A direct effect of melatonin on adipose tissue has been suggested since binding sites for the indole have been described on brown adipocytes. The aim of this study was to investigate a genetic effect of melatonin on isolated Siberian hamster brown adipocytes using differential display RT-PCR (DDRT-PCR). Brown adipose cells were isolated from brown adipose tissue and treated for 3 hr with 0.1 and 10 microM melatonin. Total RNA was extracted and DDRT-PCR experiments were performed. A differential band, which disappeared after melatonin treatment, was detected. After confirmation and cloning, the corresponding cDNA fragment B18 was sequenced. B18 had 85 and 81% similarity with a portion of rat and mouse cytochrome b mRNA, respectively, suggesting that B18 corresponds to hamster cytochrome b. This hypothesis was confirmed by the close parallel between the changes in mRNA content, detected by B18, and by cytochrome b mRNA content, detected by a rat probe. Cytochrome b mRNA is encoded by the mitochondrial genome, suggesting a similar effect of melatonin on the whole mitochondrial transcripts. Indeed, 3 hr of treatment with melatonin (10 nM and 0.1 microM) decreased by 44% mitochondrial transcript contents. This work constitutes the first evidence of a direct biological effect of melatonin on Siberian hamster brown adipocytes.

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L Ambid

Antilipolytic effects of alpha 2-adrenergic agonists, neuropeptide Y, adenosine, and PGE1 in mammal adipocytes

Cellular changes during cold acclimatation in adipose tissues

Brown fat and nonshivering thermogenesis in the gray mouse lemur (Microcebus murinus)

Evidence for a direct effect of melatonin on mitochondrial genome expression of Siberian hamster brown adipocytes

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