Abstract
Neuropeptide Y (NPY) plays an important role in the regulation of energy homeostasis in the level of central and sympathetic nervous systems (SNSs). Genetic silencing of peripheral Y2-receptors have anti-obesity effects, but it is not known whether pharmacological blocking of peripheral Y2-receptors would similarly benefit energy homeostasis. The effects of a peripherally administered Y2-receptor antagonist were studied in healthy and energy-rich conditions with or without excess NPY. Genetically obese mice overexpressing NPY in brain noradrenergic nerves and SNS (OE-NPYDβH) represented the situation of elevated NPY levels, while wildtype (WT) mice represented the normal NPY levels. Specific Y2-receptor antagonist, BIIE0246, was administered (1.3 mg/kg/day, i.p.) for 2 or 4.5 weeks to OE-NPYDβH and WT mice feeding on chow or Western diet. Treatment with Y2-receptor antagonist increased body weight gain in both genotypes on chow diet and caused metabolic disturbances (e.g., hyperinsulinemia and hypercholesterolemia), especially in WT mice. During energy surplus (i.e., on Western diet), blocking of Y2-receptors induced obesity in WT mice, whereas OE-NPYDβH mice showed reduced fat mass gain, hepatic glycogen and serum cholesterol levels relative to body adiposity. Thus, it can be concluded that with normal NPY levels, peripheral Y2-receptor antagonist has no potential for treating obesity, but oppositely may even induce metabolic disorders. However, when energy-rich diet is combined with elevated NPY levels, e.g., stress combined with an unhealthy diet, Y2-receptor antagonism has beneficial effects on metabolic status.
Highlights
Neuropeptide Y (NPY), a 36-amino-acid neurotransmitter, plays a well-known role in the regulation of energy homeostasis aiming at energy storage during negative energy balance (Billington et al, 1991; Zarjevski et al, 1993; Sainsbury et al, 1997)
We elucidated whether pharmacological blockage of peripheral Y2-receptors with BIIE0246 would have beneficial effects on energy metabolism in a situation of excess energy and/or NPY, usually associated with obesity (Shi et al, 2013)
This study confirms the finding that blocking of Y2-receptors has beneficial effects on fat deposition and the metabolic status, but only when energy-rich environment is combined with excess NPY
Summary
Neuropeptide Y (NPY), a 36-amino-acid neurotransmitter, plays a well-known role in the regulation of energy homeostasis aiming at energy storage during negative energy balance (Billington et al, 1991; Zarjevski et al, 1993; Sainsbury et al, 1997). Y2-Receptor Antagonist Treatment in Obesity the paraventricular nucleus (PVN), which are responsible for regulation of feeding (Chronwall et al, 1985). Knock-out of germline Y2-receptors has been shown to reduce body weight and adiposity both on regular chow and on highfat diet (Soloveva et al, 1997; Sainsbury et al, 2006), and to improve glucose and cholesterol metabolism of genetically obese and type 2 diabetic ob/ob mice (Naveilhan et al, 2002; Sainsbury et al, 2002). Mice with an adult-onset knock-down of peripheral Y2-receptors are resistant to diet-induced obesity (DIO) and have improved glucose clearance (Shi et al, 2011). Treatment with a peripheral Y2-receptor antagonist has been shown to improve the metabolic status of diabetic rats by decreasing serum cholesterol and triglyceride levels (Liu et al, 2013). Inhibition of adipose tissue Y2-receptors has been shown to prevent NPYinduced growth of fat mass in vivo and pre-adipocyte (3T3-L1) differentiation in vitro (Kuo et al, 2007; Rosmaninho-Salgado et al, 2012)
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