Acute hypothalamic administration of L-arginine increases feed intake in rats

Authors

  • Carlos Ricardo Maneck MALFATTI Universidade Estadual do Centro-Oeste
  • Luiz Augusto da SILVA Universidade Estadual do Centro-Oeste
  • Ricardo Aparecido PEREIRA Universidade Estadual do Centro-Oeste
  • Renan Garcia MICHEL Universidade Estadual do Centro-Oeste
  • André Luiz SNAK Universidade Estadual do Centro-Oeste
  • Fabio Seidel dos SANTOS Universidade Estadual do Centro-Oeste

Keywords:

Central nervous system, Eating, Feeding behavior

Abstract

Objective
This study investigated the chronic (oral) and acute (hypothalamic infusion) effects of L-arginine supplementation on feed intake, body composition, and behavioral changes in rats.

Methods
Twenty rats were divided into two groups treated orally for 60 days; one group received L-arginine (1 g/kg body weight) and one group received saline (1 mL/NaCl 0.9%). Daily consumption of water and food were evaluated, and weight monitored. After the oral treatment, the rats underwent stereotactic biopsy and a group was injected with 2 µL of L-arginine (0.5 mM) and another received an injection of saline (0.9% NaCl), in the hypothalamic route, through micro infusion. Immediately after micro infusion, the animal behavior was evaluated through tests in the open field. Food and water consumption were evaluated at 12 and 24 hours after the
micro infusion. Daily water consumption and weight gain evolution were evaluated. At the end of treatments, rats were euthanized and blood was collected for glucose, glycerol, and cholesterol evaluation, and histological analysis of vital organs.

Results
Oral supplementation with L-arginine increased water intake (11%, p<0.05) and promoted weight gain (3%, p<0.05). However, hypothalamic infusion promoted a significant increase in chow intake (30%, p<0.05) after 24 hours of L-arginine administration.

Conclusion
Chronic oral treatment with L-arginine was not effective on appetite modulation; however, an effect was observed when L-arginine was administered directly into the hypothalamus, suggesting a central regulation on appetite through nNOS sensitization. Chronic use of L-arginine did not cause substantial changes in anthropometric, biochemical, behavioral, or histological variables.

References

Mancuso C, Navarra P, Preziosi P. Roles of nitric oxide, carbon monoxide, and hydrogen sulfide in the regulation of the hypothalamic-pituitary adrenal axis. J Neurochemist. 2010; 113(3):563-75.

Prodam F, Genoni G, Bellone S, Longhi S, Agarla V, Bona G, et al. Effect of arginine infusion on ghrelin secretion in growth hormone sufficient and GH deficient children. Int J Endocrinol Metab. 2012; 10(2):470-4.

Salunke BP, Umathe SN, Chavan JG. Experimental evidence for involvement of nitric oxide in low frequency magnetic field induced obsessive compulsive disorder-like behavior. Pharmacol Biochem Behav. 2014; 122(1):273-8.

Morris Junior SM. Arginine: Beyond protein. Am J Clin Nutr. 2006; 83(2):508-12.

Haase L, Green E, Murphy C. Males and females show differential brain activation to taste when hungry and sated in gustatory and reward areas. Appetite. 2011; 57(2):421-34.

Lalitha V, Pal G, Parija S, Pal P, Sathishbabu M, Indumathy J. Effect of gender on food intake, adiposity and immunological responses following lesion of ventromedial hypothalamus in albino Wistar rats. Int J Clin Exp Physiol. 2014; 1(1):41-4.

Matarese G, Procaccini C, Menale C, Kim JG, Kim JD, Diano S, et al. Hunger-promoting hypothalamic neurons modulate effector and regulatory T-cell responses. Proc Nat Acad Sci. 2013; 110(15):6193-8.

Melega WP, Lacan G, Gorgulho AA, Behnke EJ, De Salles AAF. Hypothalamic deep brain stimulation reduces weight gain in an obesity-animal model. PLoS ONE. 2012; 7(1):e30672.

Borges BC, Antunes-Rodrigues J, Castro M, Bittencourt JC, Elias CF, Elias LL. Expression of hypothalamic neuropeptides and the desensitization of pituitary-adrenal axis and hypophagia in the endotoxin tolerance. Horm Behav. 2007; 52(4):508-19.

Sadler CJ, Wilding JPH. Reduced ventromedial hypothalamic neuronal nitric oxide synthase and increased sensitivity to NOS inhibition in dietary obese rats: Further evidence of a role for nitric oxide in the regulation of energy balance. Brain Res. 2004; 1016(2):222-8.

Tamagnini F, Barker G, Warburton EC, Burattini C, Aicardi G, Bashir ZI. Nitric oxide-dependent long term depression but not endocannabinoid mediated long-term potentiation is crucial for visual recognition memory. J Physiol. 2013; 591(Pt 16):3963-79.

Morley JE, Farr SA, Sell RL, Hileman SM, Banks WA. Nitric oxide is a central component in neuropeptide regulation of appetite. Peptides. 2011; 32(4):776-80.

Marcoli M, Cervetto C, Paluzzi P, Guarnieri S, Raiteri M, Maura G. Nitric oxide-evoked glutamate release and cGMP production in cerebellar slices: Control by presynaptic 5-HT1D receptors. Neurochem Int. 2006; 49(1):12-9.

Leshan RL, Greenwald-Yarnell M, Patterson CM, Gonzalez IE, Myers MG. Leptin action through hypothalamic nitric oxide synthase-1-expressing neurons controls energy balance. Nat Med. 2012; 18(5):820-3.

Wei T, Zhao X, Hou J, Ogata K, Sakaue T, Mori A, et al. The antioxidant ESeroS-GS inhibits NO production and prevents oxidative stress in astrocytes. Biochem Pharmacol. 2003; 66(1):83-91.

Selcher JC, Xu W, Hanson JE, Malenka RC, Madison DV. Glutamate receptor subunit GluA1 is necessary for long-term potentiation and synapse unsilencing, but not long-term depression in mouse hippocampus. Brain Res. 2012; 1435(0):8-14.

Kalra SP, Kalra PS. NPY and cohorts in regulating appetite, obesity and metabolic syndrome: Beneficial effects of gene therapy. Neuropeptides. 2004; 38(4):201-11.

Paxinos G, Watson C. The rat in stereotaxic coordinates. San Diego: Academic Press; 1986.

Tseng LF, Xu JY, Pieper GM. Increase of nitric oxide production by L-arginine potentiates i.c.v, administered l-endorphin-induced antinociception in the mouse. Eur J Pharmacol. 1992; 3(2-3); 212:301-3.

Xue J-J, Liu H-Y. Effects of intracerebroventricular microinjection of L-arginine on exercise capacity and expression of nitric oxide in rat hypothalamus. Zhongguo Ying Yong Sheng Li Xue Za Zhi. 2013; 29(2):158-61.

Lima JM, Silva AS, Alves NF, Porpino SK. L-Arginine increases endothelial nitric oxide production and reduces blood pressure of rest without changing the exercise pressor response. Motricidade. 2012; 8(3):19-29.

Farr SA, Banks WA, Kumar VB, Morley J. Orexin-A induced feeding is dependent on nitric oxide. Peptides. 2005; 26(5):759-65.

Weltman A, Pritzlaff CJ, Wideman L, Weltman JY, Blumer JL, Abbott RD, et al. Exercise-dependent growth hormone release is linked to markers of heightened central adrenergic outflow. J Appl Physiol. 2000; 89(2):629-35.

Gentilcore D, Visvanathan R, Russo A, Chaikomin R, Stevens JE, Wishart JM, et al. Role of nitric oxide mechanisms in gastric emptying of, and the blood pressure and glycemic responses to, oral glucose in healthy older subjects. Am J Physiol Gastrointest Liver. 2005; 288(6):1227-32.

Collier SR, Casey DP, Kanaley JA. Growth hormone responses to varying doses of oral arginine. Growth Horm. 2005; 15(2):136-9. 26. Yang SJ, Denbow DM. Interaction of leptin and nitric oxide on food intake in broilers and Leghorns. Physiol Behav. 2007; 92(4):651-7.

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Published

2023-03-31

How to Cite

Maneck MALFATTI, C. R. ., da SILVA, L. A. ., Aparecido PEREIRA, R. ., Garcia MICHEL, R., SNAK, A. L. ., & Seidel dos SANTOS, F. . (2023). Acute hypothalamic administration of L-arginine increases feed intake in rats. Brazilian Journal of Nutrition, 28(1). Retrieved from https://periodicos.puc-campinas.edu.br/nutricao/article/view/8192

Issue

Vol. 28 No. 1 (2015): Revista de Nutrição

Section

ORIGINAL ARTICLE

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Copyright (c) 2023 Carlos Ricardo Maneck MALFATTI, Luiz Augusto da SILVA, Ricardo Aparecido PEREIRA, Renan Garcia MICHEL, André Luiz SNAK, Fabio Seidel dos SANTOS

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This work is licensed under a Creative Commons Attribution 4.0 International License.

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