GHSR MODULATION BY LEAP2 IN PERINATAL PHASES IMPACTS GLUCOSE OVERLOAD RESPONSIVENESS IN YOUNG RATS

Marcos  Divino Ferreira-Junior; Keilah  Valéria Naves Cavalcante; Ariel  Penha Carvalho da Mota; Maria  Eduarda Ribeiro da Silva; Isadora  Silva Rosa; Jose   Antonio Barbosa Lima Sobrinho; Carlos Henrique Xavier; Paulo  Matafome; Rodrigo  Mello Gomes

doi:10.4025/arqmudi.v27iESPECIAL.68227

GHSR MODULATION BY LEAP2 IN PERINATAL PHASES IMPACTS GLUCOSE OVERLOAD RESPONSIVENESS IN YOUNG RATS

Marcos Divino Ferreira-Junior
Keilah Valéria Naves Cavalcante
Ariel Penha Carvalho da Mota
Maria Eduarda Ribeiro da Silva
Isadora Silva Rosa
Jose Antonio Barbosa Lima Sobrinho
Carlos Henrique Xavier
Paulo Matafome
Rodrigo Mello Gomes

DOI: https://doi.org/10.4025/arqmudi.v27iESPECIAL.68227

Resumo

GHSr signaling is involved in the regulation of energy homeostasis. LEAP2, a recently
discovered peptide hormone, counteracts the effects of ghrelin. This study sought to evaluate
the effects of perinatal LEAP2 exposure in young rat offspring. For this, two protocols were
designed to assess the roles of GHSr antagonism during the pregnancy and during the
lactation. Sex-specific impacts on AUC and peak-responses of glucose tolerance tests were
presented. However, no differences were detected in the blood glucose of mixed meal fed
animals. In conclusion, perinatal LEAP2 exposure could impact the glucose-stimulated
insulin secretion in young rats.

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Referências

Broglio F, Arvat E, Benso A, Gottero C, Muccioli G, Papotti M, et al. Ghrelin, a
Natural GH Secretagogue Produced by the Stomach, Induces Hyperglycemia and

Reduces Insulin Secretion in Humans. J Clin Endocrinol Metab [Internet]. 2001
Oct;86(10):5083–5083. Available from: https://academic.oup.com/jcem/article-
lookup/doi/10.1210/jcem.86.10.8098
2. Bayle M, Péraldi‐Roux S, Gautheron G, Cros G, Oiry C, Neasta J. Liver‐Expressed
Antimicrobial Peptide 2 antagonizes the insulinostatic effect of ghrelin in rat isolated
pancreatic islets. Fundam Clin Pharmacol [Internet]. 2022 Apr 8;36(2):375–7.
Available from: https://onlinelibrary.wiley.com/doi/10.1111/fcp.12722
3. Stark R, Feehan J, Mousa A, Andrews ZB, de Courten B. Liver‐expressed
antimicrobial peptide 2 is associated with improved pancreatic insulin secretion in
adults with overweight and obesity. Diabetes, Obes Metab [Internet]. 2023 May
19;25(5):1213–20. Available from: https://dom-pubs.pericles-
prod.literatumonline.com/doi/10.1111/dom.14968
4. Dezaki K, Kakei M, Yada T. Ghrelin Uses Gαi2 and Activates Voltage-Dependent K+
Channels to Attenuate Glucose-Induced Ca2+ Signaling and Insulin Release in Islet β-
Cells. Diabetes [Internet]. 2007 Sep 1;56(9):2319–27. Available from:
https://diabetesjournals.org/diabetes/article/56/9/2319/12703/Ghrelin-Uses-G-i2-and-
Activates-Voltage-Dependent
5. Dezaki K, Hosoda H, Kakei M, Hashiguchi S, Watanabe M, Kangawa K, et al.
Endogenous Ghrelin in Pancreatic Islets Restricts Insulin Release by Attenuating Ca2+
Signaling in β-Cells. Diabetes [Internet]. 2004 Dec 1;53(12):3142–51. Available from:
https://diabetesjournals.org/diabetes/article/53/12/3142/14492/Endogenous-Ghrelin-in-
Pancreatic-Islets-Restricts

Publicado

2023-05-11

Como Citar

Divino Ferreira-Junior M, Valéria Naves Cavalcante K, Penha Carvalho da Mota A, Eduarda Ribeiro da Silva M, Silva Rosa I, Antonio Barbosa Lima Sobrinho J, Henrique Xavier C, Matafome P, Mello Gomes R. GHSR MODULATION BY LEAP2 IN PERINATAL PHASES IMPACTS GLUCOSE OVERLOAD RESPONSIVENESS IN YOUNG RATS. arqmudi [Internet]. 11º de maio de 2023 [citado 6º de setembro de 2025];27(ESPECIAL1). Disponível em: https://periodicos.uem.br/ojs/index.php/ArqMudi/article/view/68227

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Edição

v. 27 n. ESPECIAL1 (2023): 1st International Symposium of DOHaD & Pandemic: Lessons from COVID-19

Seção

4. Pharmacological and non-pharmacological interventions during critical phases

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