Activation of α<sub>2</sub>-adrenergic receptors blunts epinephrine-induced lipolysis in subcutaneous adipose tissue during a hyperinsulinemic euglycemic clamp in men

Štich, Vladimír; Pelikánová, T; Wohl, Petr; Sengenès, Coralie; Zakaroff-Girard, Alexia; Lafontan, Max; Berlan, Michel

doi:10.1152/ajpendo.00502.2002

Cited by 35 publications

(62 citation statements)

References 25 publications

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“…Instead, inhibition of ␣-AR signaling may underlie the lipolytic effect of CST given its ability to prevent phenylephrine from activating PLC. Existing literature indicates that ␣-AR signaling inhibits lipolysis, whereas ␣-AR blockade potentiates the lipolytic effect of ␤-AR signaling (29,30,63,64). Acting like an ␣-AR antagonist, CST enhanced the lipolytic effect of ␤-AR agonists (Fig.…”

Section: Discussionmentioning

confidence: 95%

Catestatin (Chromogranin A352–372) and Novel Effects on Mobilization of Fat from Adipose Tissue through Regulation of Adrenergic and Leptin Signaling

Bandyopadhyay

Gentile

et al. 2012

Journal of Biological Chemistry

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Background: Mice lacking the neurosecretory protein Chromogranin A are obese, presumably because of resistance to catecholamines and leptin. Results: Catestatin (CST) reduces adiposity, an effect likely mediated by restoring leptin sensitivity and modulating adrenergic signaling. Conclusion: CST promotes lipolysis by blocking ␣-AR signaling and stimulating fatty acid oxidation. Significance: We propose CST as a candidate antiobesity agent.

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Section: Discussionmentioning

confidence: 95%

Catestatin (Chromogranin A352–372) and Novel Effects on Mobilization of Fat from Adipose Tissue through Regulation of Adrenergic and Leptin Signaling

Bandyopadhyay

Gentile

et al. 2012

Journal of Biological Chemistry

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“…The 50 % suppression of NEFA (palmitate) release is achieved with a concentration of free insulin of about 12 pmol/l (Jensen et al 1989). In addition, hyperinsulinaemia induces a reduction in the lipolysis-stimulating action of catecholamines (Stich et al 2003). Furthermore, insulin stimulates re-esterification of NEFA released from the adipocyte (stimulating the uptake of glucose and formation of glycerol-6-phosphate).…”

Section: Postprandial Statementioning

confidence: 99%

Physiological regulation of NEFA availability: lipolysis pathway

Štich

Berlan

2004

Proc. Nutr. Soc.

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Plasma NEFA are an important energy substrate and, furthermore, play a key role in the induction of insulin resistance in the body. The availability of NEFA is determined predominantly by their mobilization from adipose tissue triacylglycerol stores by the process of lipolysis. Adipose tissue lipolysis in man is regulated by a number of hormonal and paracrine and/or autocrine signals. The main hormonal signals may be represented by catecholamines, insulin, growth hormone, natriuretic peptides and some adipocytokines. The absolute levels and relative importance and contribution of these signals vary in different physiological situations, with diet and physical exercise being the main physiological variables that affect the hormonal signalling. Thus, modulations in hormonal signals induce an increase in NEFA mobilization in the post-absorptive state and during an acute bout of exercise, and suppress NEFA mobilization in the postprandial state. In addition, hormonal regulation is modified by long-term interventions in energy balance, such as dietary restriction and/or physical training, and is disturbed in some pathological states, such as obesity or diabetes. The question that remains is whether disturbances in lipolysis regulation in obese and diabetic subjects may be ‘corrected’ by the long-term interventions in diet and physical activity.

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“…We also demonstrated that insulin was unable to modulate the lipolytic effect of ANP, even after relatively long-term treatment. Hyperinsulinemia impairs ␤-AR-dependent lipid-mobilizing effects in humans (Stich et al, 2003). Resistance to the antilipolytic action of insulin is an important characteristic of the ANP pathway that could have major pathophysiological importance.…”

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confidence: 99%

Functional and Pharmacological Characterization of the Natriuretic Peptide-Dependent Lipolytic Pathway in Human Fat Cells

Moro

Galitzky²,

Sengenès³

et al. 2003

J Pharmacol Exp Ther

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A lipolytic pathway involving natriuretic peptides has recently been discovered in human fat cells. Its functional characteristics and the interactions of the atrial natriuretic peptide (ANP)-induced effects with adrenergic and insulin pathways were studied. Characterization of the action of ANP antagonists, i.e., A71915, anantin, S-28-Y (Ser-28-Tyr, a synthesized peptide), and HS-142-1 (a microbial polysaccharide), was performed. Lipolytic assays and intracellular cGMP and cAMP determinations were performed on isolated fat cells. Cell membranes were used for binding studies. At low concentrations ANP and isoproterenol [␤-adrenergic receptor (␤-AR) agonist] exerted additive lipolytic effects. The ␣ 2 -AR pathway did not interfere with that of ANP. Lipolytic effects of ANP were unaltered by a 2-h pretreatment of fat cells with insulin, whereas ␤-AR-induced lipolysis was reduced. Homologous desensitization occurred for ANP-dependent lipolytic pathways. Dendroapsis natriuretic peptide exhibited a similar maximal effect but a 10-fold higher lipolytic potency than ANP and mini-ANP (the shortest form of ANP). The antagonist A71915 exhibited competitive antagonistic properties with a pA 2 value of 7.51. Anantin displayed noncompetitive antagonism and exerted an inhibitory action on basal and ␤-adrenergic receptor-induced lipolytic response. S-28-Y exhibited antagonist potencies toward ANPinduced lipolysis and behaved as a partial lipolytic agonist with a lower pD 2 value (7.4 Ϯ 0.2) than ANP (9.4 Ϯ 0.3). HS-142-1 exerted the weakest antagonistic effects. The results demonstrate that ANP-dependent effects do not interfere with ␤-and ␣ 2 -adrenergic pathways in human fat cells. They are unaffected by insulin pretreatments of fat cells but undergo desensitization. In the search of potent and specific natriuretic peptide receptor-A antagonist, in the human fat cell, A71915 was the only reliable one found.Natriuretic peptides ANP, BNP, and C-type natriuretic peptide (NPs) are a family of peptides that exert potent diuretic, natriuretic, and vasodilator activities (Athanassopoulos and Dennis, 1991; Levin et al., 1998). They are synthesized as preprohormones in the mammalian heart, stored as prohormones, and then released into the plasma after cardiomyocyte stretch. ANP sequence comprises 28 amino acids with a Cys 7 -Cys 23 bridge, which enables binding to atrial natriuretic peptide receptors (NPRs) (Levin et al., 1998). ANP binds with high affinity to human fat cell membranes, and we have recently demonstrated that NPs are potent lipolytic agents in human and in nonhuman primate fat cells only (Sengenes et al., 2000(Sengenes et al., , 2002a. Among the members of the NP family, the relative order of lipolytic potencies is ANP Ͼ BNP Ͼ C-type natriuretic peptide. The lipolytic activity of ANP and BNP is mediated by specific fat cell-plasma membrane receptors (NPR-A) bearing a guanylyl cyclase activity. They operate via a cGMP-dependent pathway and independently of phosphodiesterase-3B inhibition (Sengenes et al., 2000)....

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Activation of α₂-adrenergic receptors blunts epinephrine-induced lipolysis in subcutaneous adipose tissue during a hyperinsulinemic euglycemic clamp in men

Cited by 35 publications

References 25 publications

Catestatin (Chromogranin A352–372) and Novel Effects on Mobilization of Fat from Adipose Tissue through Regulation of Adrenergic and Leptin Signaling

Catestatin (Chromogranin A352–372) and Novel Effects on Mobilization of Fat from Adipose Tissue through Regulation of Adrenergic and Leptin Signaling

Physiological regulation of NEFA availability: lipolysis pathway

Functional and Pharmacological Characterization of the Natriuretic Peptide-Dependent Lipolytic Pathway in Human Fat Cells

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Activation of α2-adrenergic receptors blunts epinephrine-induced lipolysis in subcutaneous adipose tissue during a hyperinsulinemic euglycemic clamp in men

Cited by 35 publications

References 25 publications

Catestatin (Chromogranin A352–372) and Novel Effects on Mobilization of Fat from Adipose Tissue through Regulation of Adrenergic and Leptin Signaling

Catestatin (Chromogranin A352–372) and Novel Effects on Mobilization of Fat from Adipose Tissue through Regulation of Adrenergic and Leptin Signaling

Physiological regulation of NEFA availability: lipolysis pathway

Functional and Pharmacological Characterization of the Natriuretic Peptide-Dependent Lipolytic Pathway in Human Fat Cells

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Activation of α₂-adrenergic receptors blunts epinephrine-induced lipolysis in subcutaneous adipose tissue during a hyperinsulinemic euglycemic clamp in men