Amygdaloid lesion-induced obesity: relation to sexual behavior, olfaction, and the ventromedial hypothalamus

King, Bruce M.

doi:10.1152/ajpregu.00199.2006

Cited by 54 publications

(37 citation statements)

References 203 publications

(283 reference statements)

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“…Both brain regions have been strongly implicated in energy balance, so the MeA and LPB may be two distinct central pathways that converge on the PVN and VMN to manage both feeding behavior and metabolic systems. Lesions to the MeA produce hyperphagia and obesity, especially in females (31). Moreover, the MeA is also a glucose-sensing area of the brain that may respond to states of hypoglycemia, further strengthening a connection with the wellcharacterized glucostatic role of the VMN (62).…”

Section: Discussionmentioning

confidence: 97%

Intrahypothalamic pituitary adenylate cyclase-activating polypeptide regulates energy balance via site-specific actions on feeding and metabolism

Resch

Maunze

Gerhardt

et al. 2013

American Journal of Physiology-Endocrinology and Metabolism

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Resch JM, Maunze B, Gerhardt AK, Magnuson SK, Phillips KA, Choi S. Intrahypothalamic pituitary adenylate cyclase-activating polypeptide regulates energy balance via site-specific actions on feeding and metabolism. Am J Physiol Endocrinol Metab 305: E1452-E1463, 2013. First published October 22, 2013; doi:10.1152/ajpendo.00293.2013.-Numerous studies have demonstrated that both the hypothalamic paraventricular nuclei (PVN) and ventromedial nuclei (VMN) regulate energy homeostasis through behavioral and metabolic mechanisms. Receptors for pituitary adenylate cyclase-activating polypeptide (PACAP) are abundantly expressed in these nuclei, suggesting PACAP may be critical for the regulation of feeding behavior and body weight. To characterize the unique behavioral and physiological responses attributed to select hypothalamic cell groups, PACAP was site-specifically injected into the PVN or VMN. Overall food intake was significantly reduced by PACAP at both sites; however, meal pattern analysis revealed that only injections into the PVN produced significant reductions in meal size, duration, and total time spent eating. PACAP-mediated hypophagia in both the PVN and VMN was abolished by PAC1R antagonism, whereas pretreatment with a VPACR antagonist had no effect. PACAP injections into the VMN produced unique changes in metabolic parameters, including significant increases in core body temperature and spontaneous locomotor activity that was PAC1R dependent whereas, PVN injections of PACAP had no effect. Finally, PACAP-containing afferents were identified using the neuronal tracer cholera toxin subunit B (CTB) injected unilaterally into the PVN or VMN. CTB signal from PVN injections was colocalized with PACAP mRNA in the medial anterior bed nucleus of the stria terminalis, VMN, and lateral parabrachial nucleus (LPB), whereas CTB signal from VMN injections was highly colocalized with PACAP mRNA in the medial amygdala and LPB. These brain regions are known to influence energy homeostasis perhaps, in part, through PACAP projections to the PVN and VMN.feeding; activity; temperature; hypothalamus; rat PITUITARY ADENYLATE CYCLASE-ACTIVATING polypeptide (PACAP) is a key regulator of several hypothalamic systems, including stress (1), osmoregulation (17), thermoregulation (21), and body weight (27). PACAP was first discovered to influence energy homeostasis through inhibition of feeding in mice following a single intracerebroventricular (icv) injection of the peptide (39). These results combined with reports of dietspecific alterations of PACAP mRNA expression in the hypothalamic ventromedial nuclei (VMN) suggest that PACAP is responsive to nutritional status and directly tied to metabolic systems linked to energy expenditure (27,40). In addition to reducing food intake, icv administration of PACAP modulates autonomic nerve activity (55) as well as hepatic glucose production (60). As a ligand, PACAP binds to three different G protein-coupled receptors, the PAC1 receptor (PAC1R), and the receptors originally discovered as targets...

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Section: Discussionmentioning

confidence: 97%

Intrahypothalamic pituitary adenylate cyclase-activating polypeptide regulates energy balance via site-specific actions on feeding and metabolism

Resch

Maunze

Gerhardt

et al. 2013

American Journal of Physiology-Endocrinology and Metabolism

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“…In male rats, 17β-estradiol, but not the nonaromatizable androgen 5α-dihydrotesterone, significantly reverses the volume decrement of the left, but not right, posterodorsal nucleus of the medial amygdala (MePD) induced by castration (Cooke et al, 2003). The MePD has a high density of both ERα & ERβ receptors and plays a key role in integrating olfactory and neuroendocrine information (King, 2006). However, the mechanisms responsible for these effects are unlikely due to a simple left:right difference in estrogen receptor distribution, since the relative amount of ER mRNA-expression appears not to differ on the two sides of the brain (Shughrue and Merchenthaler, 2001).…”

Section: Discussionmentioning

confidence: 99%

Estrogen replacement therapy induces functional asymmetry on an odor memory/discrimination test

2008

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The secondary afferents of the olfactory system largely project to the ipsilateral cortex without synapsing in the thalamus, making unilateral olfactory testing a useful probe of ipsilateral hemispheric activity. In light of evidence that lateralized performance on some perceptual tasks may be influenced by estrogen, we assessed left:right nostril differences in two measures of olfactory function in 14 post-menopausal women receiving estrogen replacement therapy (ERT) and 48 postmenopausal women receiving no such therapy. Relative to women not taking ERT, those receiving ERT exhibited better performance in the left nostril and poorer performance in the right nostril on an odor memory/discrimination test. Similar laterality effects were not observed for an odor detection threshold test employing phenyl ethyl alcohol. These results suggest that estrogen influences the lateralization of an odor memory/discrimination task and that hormone replacement therapy in the menopause may be an excellent paradigm for understanding lateralizing effects of hormones on some sensory processes.

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“…We also injected AAV-Cre into the medial amygdala because, like the PVH, it has neurons that are SIM1 + , glutamatergic, and Mc4r-expressing (2, 10, 11, 27). Of relevance, the medial amygdala is heavily connected to the hypothalamus, has previously been associated with obesity (30,31), and MC4Rs in this site have been proposed to affect feeding (22). Finally, we also tested two SIM1 − sites, the nucleus of the solitary tract (NTS) and the lateral parabrachial nucleus (L-PBN), because they have glutamatergic and Mc4r-expressing neurons, and importantly, injections of MC3/4 receptor agonists into these sites affect energy balance (10,11,23,27).…”

Section: Aav-cre Injections To Determine the Role Of Mc4rs On Pvh Neumentioning

confidence: 99%

MC4R-expressing glutamatergic neurons in the paraventricular hypothalamus regulate feeding and are synaptically connected to the parabrachial nucleus

Shah

Vong

Olson

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

198

195

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Activation of melanocortin-4 receptors (MC4Rs) restrains feeding and prevents obesity; however, the identity, location, and axonal projections of the neurons bearing MC4Rs that control feeding remain unknown. Reexpression of MC4Rs on single-minded 1 (SIM1) + neurons in mice otherwise lacking MC4Rs is sufficient to abolish hyperphagia. Thus, MC4Rs on SIM1 + neurons, possibly in the paraventricular hypothalamus (PVH) and/or amygdala, regulate food intake. It is unknown, however, whether they are also necessary, a distinction required for excluding redundant sites of action. Hence, the location and nature of obesity-preventing MC4R-expressing neurons are unknown. Here, by deleting and reexpressing MC4Rs from cre-expressing neurons, establishing both necessity and sufficiency, we demonstrate that the MC4R-expressing neurons regulating feeding are SIM1 + , located in the PVH, glutamatergic and not GABAergic, and do not express oxytocin, corticotropin-releasing hormone, vasopressin, or prodynorphin. Importantly, these excitatory MC4R-expressing PVH neurons are synaptically connected to neurons in the parabrachial nucleus, which relays visceral information to the forebrain. This suggests a basis for the feeding-regulating effects of MC4Rs.M elanocortins, working through melanocortin-4 receptors (MC4Rs), regulate energy balance (1-3). Proopiomelanocortin (POMC)-expressing neurons release the MC4R agonist α-melanocyte-stimulating hormone (α-MSH) and promote negative energy balance, whereas agouti-related protein (AgRP)-expressing neurons, releasing the antagonist AgRP, do the opposite. Consistent with these roles, optogenetic (4) and chemogenetic (5) stimulation of POMC neurons causes hypophagia and weight loss. Conversely, optogenetic (4) or chemogenetic (6) stimulation of AgRP neurons produces hyperphagia and weight gain, with prolonged effects being mediated by AgRP through its action on MC4Rs (7). Importantly, the α-MSH/MC4R pathway also operates in humans, as evidenced by massive obesity in individuals lacking either α-MSH or MC4Rs (8, 9).Despite the established importance of MC4Rs (3), the neural mechanisms by which they regulate energy balance, and in particular feeding, are still unknown. In a prior study, we investigated the role of MC4Rs in the paraventricular hypothalamus (PVH), specifically on SIM1 (single-minded 1)-expressing neurons (2). The impetus for focusing on the PVH included the following: (i) MC4R expression is dense in the PVH (10-12), (ii) it receives strong input from AgRP and POMC neurons (13, 14), (iii) injection of MC3/4R ligands into the PVH affects feeding (14-16), (iv) PVH-directed lesions cause obesity (17, 18), and most importantly, (v) haploinsufficiency of SIM1, a transcription factor required for PVH development, results in obesity (19,20). Accordingly, using transgenic approaches, we restored Mc4r expression selectively in SIM1 neurons in mice that otherwise lack MC4Rs (2). Of note, restoration in SIM1 neurons rescued ∼60% of the obesity and 100% of the hyperphagia of MC4R-null mice, ...

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Amygdaloid lesion-induced obesity: relation to sexual behavior, olfaction, and the ventromedial hypothalamus

Cited by 54 publications

References 203 publications

Intrahypothalamic pituitary adenylate cyclase-activating polypeptide regulates energy balance via site-specific actions on feeding and metabolism

Intrahypothalamic pituitary adenylate cyclase-activating polypeptide regulates energy balance via site-specific actions on feeding and metabolism

Estrogen replacement therapy induces functional asymmetry on an odor memory/discrimination test

MC4R-expressing glutamatergic neurons in the paraventricular hypothalamus regulate feeding and are synaptically connected to the parabrachial nucleus

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