Abstract
ObjectiveMelanocortin 2 receptor accessory protein 2 (MRAP2) has a critical role in energy homeostasis. Although MRAP2 has been shown to regulates a number of GPCRs involved in metabolism, the key neurons responsible for the phenotype of gross obesity in MRAP2 deficient animals are unclear. Furthermore, to date, all the murine MRAP2 models involve the prenatal deletion of MRAP2. MethodsTo target Melanocortin 4 receptor (MC4R)-expressing neurons in the hypothalamic paraventricular nucleus (PVN), we performed stereotaxic surgery using AAV to selectively overexpress MRAP2 postnatally in adult Mc4r-cre mice. We assessed energy homeostasis, glucose metabolism, core body temperature, and response to MC3R/MC4R agonist MTII. ResultsMc4r-crePVN-MRAP2 female mice on a standard chow diet had less age-related weight gain and improved glucose/insulin profile compared to control Mc4r-crePVN-GFP mice. These changes were associated with a reduction in food intake and increased energy expenditure. In contrast, Mc4r-crePVN-MRAP2 male mice showed no improvement on a chow diet, but improvement of energy and glucose metabolism was observed following high fat diet (HFD) feeding. In addition, an increase in core body temperature was found in both females fed on standard chow diet and males fed on HFD. Mc4r-crePVN-MRAP2 female and male mice showed increased neuronal activation in the PVN compared to controls, with further increase in neuronal activation post MTII treatment in females. ConclusionsOur data indicate a site-specific role for MRAP2 in PVN MC4R-expressing neurons in potentiating MC4R neuronal activation at baseline conditions in the regulation of food intake and energy expenditure.
Highlights
Melanocortin 2 receptor accessory protein 2 (MRAP2) is predominantly expressed in the hypothalamus, in particular within the paraventricular nucleus (PVN), a region known to express Melanocortin 4 receptor (MC4R) and with a critical role in energy homeostasis [1,2,3]
Mc4r-crePVN-MRAP2 female mice fed on a standard chow diet showed lower body weight (n=11 per group; Figure 1A) starting at 3 weeks from the viral injections compared with Mc4r-crePVN-GFP controls
The lower body weight was due to a significant reduction of fat mass (4.49±0.61g n=11; Figure 1B) in Mc4r-crePVN-MRAP2 female mice compared to female controls (7.80±0.51 g Mc4r-crePVN-GFP female mice; n=11) evidenced after 4 weeks post viral injections
Summary
MRAP2 is predominantly expressed in the hypothalamus, in particular within the paraventricular nucleus (PVN), a region known to express MC4R and with a critical role in energy homeostasis [1,2,3]. MRAP2’s critical role in the control of energy homeostasis has been linked to action on MC4R signaling [4, 6]. Data point to a MC4R dependent function, Mrap2-/- mice do not fully phenocopy the Mc4r-/- mice. The paradoxical observation that while Mrap2-/- mice become obese without detectable changes in food intake or energy balance, Mc4r-/- mice have hyperphagia and reduced energy expenditure (EE) [8, 9]. Mrap2-/- mice remain responsive to treatment with MTII, a MC3R/MC4R agonist, while the anorexic response to MTII is abolished in Mc4r-/- mice, suggesting at least some preservation of MCR function centrally [4, 10]
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