The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced Obesity

The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced Obesity

Thimet oligopeptidase (EC 3.4.24.15; EP24.15; THOP1) is a potential therapeutic target, as it plays key biological functions in processing biologically functional peptides. The structural conformation of THOP1 provides a unique restriction regarding substrate size, in that it only hydrolyzes peptide...

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Main Authors: Mayara C. F. Gewehr, Alexandre A. S. Teixeira, Bruna A. C. Santos, Luana A. Biondo, Fábio C. Gozzo, Amanda M. Cordibello, Rosangela A. S. Eichler, Patrícia Reckziegel, Renée N. O. Da Silva, Nilton B. Dos Santos, Niels O. S. Camara, Angela Castoldi, Maria L. M. Barreto-Chaves, Camila S. Dale, Nathalia Senger, Joanna D. C. C. Lima, Marilia C. L. Seelaender, Aline C. Inada, Eliana H. Akamine, Leandro M. Castro, Alice C. Rodrigues, José C. Rosa Neto, Emer S. Ferro
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Biomolecules
Subjects:
obesity
insulin resistance
diet-induced obesity
proteasome
proteases
peptidases
mass spectrometry
peptidome
Online Access:https://www.mdpi.com/2218-273X/10/2/321
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author Mayara C. F. Gewehr
Alexandre A. S. Teixeira
Bruna A. C. Santos
Luana A. Biondo
Fábio C. Gozzo
Amanda M. Cordibello
Rosangela A. S. Eichler
Patrícia Reckziegel
Renée N. O. Da Silva
Nilton B. Dos Santos
Niels O. S. Camara
Angela Castoldi
Maria L. M. Barreto-Chaves
Camila S. Dale
Nathalia Senger
Joanna D. C. C. Lima
Marilia C. L. Seelaender
Aline C. Inada
Eliana H. Akamine
Leandro M. Castro
Alice C. Rodrigues
José C. Rosa Neto
Emer S. Ferro
spellingShingle Mayara C. F. Gewehr
Alexandre A. S. Teixeira
Bruna A. C. Santos
Luana A. Biondo
Fábio C. Gozzo
Amanda M. Cordibello
Rosangela A. S. Eichler
Patrícia Reckziegel
Renée N. O. Da Silva
Nilton B. Dos Santos
Niels O. S. Camara
Angela Castoldi
Maria L. M. Barreto-Chaves
Camila S. Dale
Nathalia Senger
Joanna D. C. C. Lima
Marilia C. L. Seelaender
Aline C. Inada
Eliana H. Akamine
Leandro M. Castro
Alice C. Rodrigues
José C. Rosa Neto
Emer S. Ferro
The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced Obesity
Biomolecules
obesity
insulin resistance
diet-induced obesity
proteasome
proteases
peptidases
mass spectrometry
peptidome
author_facet Mayara C. F. Gewehr
Alexandre A. S. Teixeira
Bruna A. C. Santos
Luana A. Biondo
Fábio C. Gozzo
Amanda M. Cordibello
Rosangela A. S. Eichler
Patrícia Reckziegel
Renée N. O. Da Silva
Nilton B. Dos Santos
Niels O. S. Camara
Angela Castoldi
Maria L. M. Barreto-Chaves
Camila S. Dale
Nathalia Senger
Joanna D. C. C. Lima
Marilia C. L. Seelaender
Aline C. Inada
Eliana H. Akamine
Leandro M. Castro
Alice C. Rodrigues
José C. Rosa Neto
Emer S. Ferro
author_sort Mayara C. F. Gewehr
title The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced Obesity
title_short The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced Obesity
title_full The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced Obesity
title_fullStr The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced Obesity
title_full_unstemmed The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced Obesity
title_sort relevance of thimet oligopeptidase in the regulation of energy metabolism and diet-induced obesity
publisher MDPI AG
series Biomolecules
issn 2218-273X
publishDate 2020-02-01
description Thimet oligopeptidase (EC 3.4.24.15; EP24.15; THOP1) is a potential therapeutic target, as it plays key biological functions in processing biologically functional peptides. The structural conformation of THOP1 provides a unique restriction regarding substrate size, in that it only hydrolyzes peptides (optimally, those ranging from eight to 12 amino acids) and not proteins. The proteasome activity of hydrolyzing proteins releases a large number of intracellular peptides, providing THOP1 substrates within cells. The present study aimed to investigate the possible function of THOP1 in the development of diet-induced obesity (DIO) and insulin resistance by utilizing a murine model of hyperlipidic DIO with both C57BL6 wild-type (WT) and THOP1 null (THOP1<sup>&#8722;/&#8722;</sup>) mice. After 24 weeks of being fed a hyperlipidic diet (HD), THOP1<sup>&#8722;/&#8722;</sup> and WT mice ingested similar chow and calories; however, the THOP1<sup>&#8722;/&#8722;</sup> mice gained 75% less body weight and showed neither insulin resistance nor non-alcoholic fatty liver steatosis when compared to WT mice. THOP1<sup>&#8722;/&#8722;</sup> mice had increased adrenergic-stimulated adipose tissue lipolysis as well as a balanced level of expression of genes and microRNAs associated with energy metabolism, adipogenesis, or inflammation. Altogether, these differences converge to a healthy phenotype of THOP1<sup>&#8722;/&#8722;</sup> fed a HD. The molecular mechanism that links THOP1 to energy metabolism is suggested herein to involve intracellular peptides, of which the relative levels were identified to change in the adipose tissue of WT and THOP1<sup>&#8722;/&#8722;</sup> mice. Intracellular peptides were observed by molecular modeling to interact with both pre-miR-143 and pre-miR-222, suggesting a possible novel regulatory mechanism for gene expression. Therefore, we successfully demonstrated the previously anticipated relevance of THOP1 in energy metabolism regulation. It was suggested that intracellular peptides were responsible for mediating the phenotypic differences that are described herein by a yet unknown mechanism of action.
topic obesity
insulin resistance
diet-induced obesity
proteasome
proteases
peptidases
mass spectrometry
peptidome
url https://www.mdpi.com/2218-273X/10/2/321
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spelling doaj-cd23c3a4fd914795937480a86869742c2020-11-25T02:36:04ZengMDPI AGBiomolecules2218-273X2020-02-0110232110.3390/biom10020321biom10020321The Relevance of Thimet Oligopeptidase in the Regulation of Energy Metabolism and Diet-Induced ObesityMayara C. F. Gewehr0Alexandre A. S. Teixeira1Bruna A. C. Santos2Luana A. Biondo3Fábio C. Gozzo4Amanda M. Cordibello5Rosangela A. S. Eichler6Patrícia Reckziegel7Renée N. O. Da Silva8Nilton B. Dos Santos9Niels O. S. Camara10Angela Castoldi11Maria L. M. Barreto-Chaves12Camila S. Dale13Nathalia Senger14Joanna D. C. C. Lima15Marilia C. L. Seelaender16Aline C. Inada17Eliana H. Akamine18Leandro M. Castro19Alice C. Rodrigues20José C. Rosa Neto21Emer S. Ferro22Department of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Cell Biology and Development, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Cell Biology and Development, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilInstitute of Chemistry, State University of Campinas, 13083-862 Campinas, SP, BrazilInstitute of Chemistry, State University of Campinas, 13083-862 Campinas, SP, BrazilDepartment of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Pharmacology, Federal University of São Paulo, 04023-062 São Paulo, SP, BrazilDepartment of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Immunology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Immunology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Anatomy, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Anatomy, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Anatomy, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Cell Biology and Development, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Cell Biology and Development, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilBiosciences Institute, São Paulo State University, 11330-900 São Vicente, SP, BrazilDepartment of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Cell Biology and Development, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilDepartment of Pharmacology, Biomedical Sciences Institute, University of São Paulo, 05508-900 São Paulo, SP, BrazilThimet oligopeptidase (EC 3.4.24.15; EP24.15; THOP1) is a potential therapeutic target, as it plays key biological functions in processing biologically functional peptides. The structural conformation of THOP1 provides a unique restriction regarding substrate size, in that it only hydrolyzes peptides (optimally, those ranging from eight to 12 amino acids) and not proteins. The proteasome activity of hydrolyzing proteins releases a large number of intracellular peptides, providing THOP1 substrates within cells. The present study aimed to investigate the possible function of THOP1 in the development of diet-induced obesity (DIO) and insulin resistance by utilizing a murine model of hyperlipidic DIO with both C57BL6 wild-type (WT) and THOP1 null (THOP1<sup>&#8722;/&#8722;</sup>) mice. After 24 weeks of being fed a hyperlipidic diet (HD), THOP1<sup>&#8722;/&#8722;</sup> and WT mice ingested similar chow and calories; however, the THOP1<sup>&#8722;/&#8722;</sup> mice gained 75% less body weight and showed neither insulin resistance nor non-alcoholic fatty liver steatosis when compared to WT mice. THOP1<sup>&#8722;/&#8722;</sup> mice had increased adrenergic-stimulated adipose tissue lipolysis as well as a balanced level of expression of genes and microRNAs associated with energy metabolism, adipogenesis, or inflammation. Altogether, these differences converge to a healthy phenotype of THOP1<sup>&#8722;/&#8722;</sup> fed a HD. The molecular mechanism that links THOP1 to energy metabolism is suggested herein to involve intracellular peptides, of which the relative levels were identified to change in the adipose tissue of WT and THOP1<sup>&#8722;/&#8722;</sup> mice. Intracellular peptides were observed by molecular modeling to interact with both pre-miR-143 and pre-miR-222, suggesting a possible novel regulatory mechanism for gene expression. Therefore, we successfully demonstrated the previously anticipated relevance of THOP1 in energy metabolism regulation. It was suggested that intracellular peptides were responsible for mediating the phenotypic differences that are described herein by a yet unknown mechanism of action.https://www.mdpi.com/2218-273X/10/2/321obesityinsulin resistancediet-induced obesityproteasomeproteasespeptidasesmass spectrometrypeptidome

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