Obesity is an alarming chronic health crisis that currently affects 39.8% of the adult population (2015-2016) in the United States. Obese individuals present a challenging public health problem because they are at increased risk for several life-threatening and costly co-morbidities including diabetes, metabolic syndrome, cardiovascular disease, and cancer. Because the financial and health burdens of obesity are so pernicious, a more mechanistic appreciation of the feeding behavior(s) that contribute to obesity is critical to understanding the etiology of this disease and for identifying druggable targets. One feeding behavior that contributes to obesity is overconsumption of highly palatable food. Highly palatable food, including high-fat food, is an important driver of obesity and has demonstrated reinforcement value in rodents. Reinforcement is mediated in part by the nucleus accumbens shell (NAcSh), a key neuroanatomical substrate that regulates hedonic feeding. Another substrate governing food intake is the paraventricular nucleus of the hypothalamus (PVN). The PVN regulates food intake at the level of physiological energy requirements, and facilitates homeostatic feeding behavior. PVN neurons project to the NAcSh (PVN?NAcSh) and orchestrate social reward, but their role in motivation for high-fat food remains unknown. Preliminary data indicate that the neurotransmitter Glutamate (Glu) plays an integral role in PVN?NAcSh transmission. Pharmacogenetic stimulation of PVN?NAcSh neurons results in robust and sustained presynaptic Glu release in the NAcSh. Additionally, administration of Glu agonists directly to the NAcSh decrease feeding, while administration of Glu antagonists evoke an immediate and sustained increase in consumption behavior. Despite considerable evidence of Glu involvement in consumption behavior, the role of Glu in motivation for high fat food has not been explored. We propose that Glu signaling within PVN?NAcSh neurons is a critical neuromodulator of motivation for high-fat food. The objectives of this proposal are to (1) establish the neuroanatomical basis for Glu signaling in PVN?NAcSh and (2) manipulate presynaptic Glu release in PVN?NAcSh to test specific hypotheses concerning the role of Glu in the regulation of motivation for high-fat food. Completion of these objectives will provide the applicant with training in new concepts and methodologies, including the neurobiology of obesity, the design and interpretation of behavioral experiments, principles and methods of neuropharmacology, and the application of genetic technology. The outcomes of these studies will have a sustained, powerful impact on our field by identifying a key regulatory role for Glu transmission in PVN?NAcSh mediated motivation for highfat food, which will critically advance efforts to improve treatment outcomes in obesity and metabolic dysregulation.

Public Health Relevance

New and effective approaches are needed to identify targets for treating obesity and related disorders characterized by excessive food intake, especially high-fat food. This preclinical behavioral research project will explore and validate a new pathway in the brain thought to be involved in causing an urge for excess highfat food intake, leading to obesity and such resulting health problems as diabetes, cardiovascular disease, and even some cancers. The results of this project should shed light upon the food-craving biology of the brain, and ultimately lead to new ways to treat obesity and to correct metabolic dysregulation.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
3R01DK106229-04S1
Application #
10027208
Study Section
Program Officer
Hyde, James F
Project Start
2020-02-01
Project End
2021-03-31
Budget Start
2020-02-01
Budget End
2020-03-31
Support Year
4
Fiscal Year
2020
Total Cost
Indirect Cost
Name
University of Texas Med Br Galveston
Department
Pharmacology
Type
Schools of Medicine
DUNS #
800771149
City
Galveston
State
TX
Country
United States
Zip Code
77555
Price, Amanda E; Brehm, Victoria D; Hommel, Jonathan D et al. (2018) Pimavanserin and Lorcaserin Attenuate Measures of Binge Eating in Male Sprague-Dawley Rats. Front Pharmacol 9:1424
Sampson, Catherine M; Kasper, James M; Felsing, Daniel E et al. (2018) Small-Molecule Neuromedin U Receptor 2 Agonists Suppress Food Intake and Decrease Visceral Fat in Animal Models. Pharmacol Res Perspect 6:e00425
Scala, Federico; Nenov, Miroslav N; Crofton, Elizabeth J et al. (2018) Environmental Enrichment and Social Isolation Mediate Neuroplasticity of Medium Spiny Neurons through the GSK3 Pathway. Cell Rep 23:555-567
Kasper, J M; Milton, A J; Smith, A E et al. (2018) Cognitive deficits associated with a high-fat diet and insulin resistance are potentiated by overexpression of ecto-nucleotide pyrophosphatase phosphodiesterase-1. Int J Dev Neurosci 64:48-53
Hommel, Jonathan D (2018) Neurocognitive and developmental perspectives of obesity. Int J Dev Neurosci 64:1
McCue, D L; Kasper, J M; Hommel, J D (2017) Regulation of motivation for food by neuromedin U in the paraventricular nucleus and the dorsal raphe nucleus. Int J Obes (Lond) 41:120-128