ENPP1 Affects Insulin Action and Secretion: Evidences from In Vitro Studies

The aim of this study was to deeper investigate the mechanisms through which ENPP1, a negative modulator of insulin receptor (IR) activation, plays a role on insulin signaling, insulin secretion and eventually glucose metabolism. ENPP1 cDNA (carrying either K121 or Q121 variant) was transfected in H...

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Autores principales: Di Paola, Rosa, Caporarello, Nunzia, Marucci, Antonella, Dimatteo, Claudia, Iadicicco, Claudia, Del Guerra, Silvia, Prudente, Sabrina, Sudano, Dora, Miele, Claudia, Parrino, Cristina, Piro, Salvatore, Beguinot, Francesco, Marchetti, Piero, Trischitta, Vincenzo, Frittitta, Lucia
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3088669/
https://www.ncbi.nlm.nih.gov/pubmed/21573217
http://dx.doi.org/10.1371/journal.pone.0019462
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author Di Paola, Rosa
Caporarello, Nunzia
Marucci, Antonella
Dimatteo, Claudia
Iadicicco, Claudia
Del Guerra, Silvia
Prudente, Sabrina
Sudano, Dora
Miele, Claudia
Parrino, Cristina
Piro, Salvatore
Beguinot, Francesco
Marchetti, Piero
Trischitta, Vincenzo
Frittitta, Lucia
author_facet Di Paola, Rosa
Caporarello, Nunzia
Marucci, Antonella
Dimatteo, Claudia
Iadicicco, Claudia
Del Guerra, Silvia
Prudente, Sabrina
Sudano, Dora
Miele, Claudia
Parrino, Cristina
Piro, Salvatore
Beguinot, Francesco
Marchetti, Piero
Trischitta, Vincenzo
Frittitta, Lucia
author_sort Di Paola, Rosa
collection PubMed
description The aim of this study was to deeper investigate the mechanisms through which ENPP1, a negative modulator of insulin receptor (IR) activation, plays a role on insulin signaling, insulin secretion and eventually glucose metabolism. ENPP1 cDNA (carrying either K121 or Q121 variant) was transfected in HepG2 liver-, L6 skeletal muscle- and INS1E beta-cells. Insulin-induced IR-autophosphorylation (HepG2, L6, INS1E), Akt-Ser(473), ERK1/2-Thr(202)/Tyr(204) and GSK3-beta Ser(9) phosphorylation (HepG2, L6), PEPCK mRNA levels (HepG2) and 2-deoxy-D-glucose uptake (L6) was studied. GLUT 4 mRNA (L6), insulin secretion and caspase-3 activation (INS1E) were also investigated. Insulin-induced IR-autophosphorylation was decreased in HepG2-K, L6-K, INS1E-K (20%, 52% and 11% reduction vs. untransfected cells) and twice as much in HepG2-Q, L6-Q, INS1E-Q (44%, 92% and 30%). Similar data were obtained with Akt-Ser(473), ERK1/2-Thr(202)/Tyr(204) and GSK3-beta Ser(9) in HepG2 and L6. Insulin-induced reduction of PEPCK mRNA was progressively lower in untransfected, HepG2-K and HepG2-Q cells (65%, 54%, 23%). Insulin-induced glucose uptake in untransfected L6 (60% increase over basal), was totally abolished in L6-K and L6-Q cells. GLUT 4 mRNA was slightly reduced in L6-K and twice as much in L6-Q (13% and 25% reduction vs. untransfected cells). Glucose-induced insulin secretion was 60% reduced in INS1E-K and almost abolished in INS1E-Q. Serum deficiency activated caspase-3 by two, three and four folds in untransfected INS1E, INS1E-K and INS1E-Q. Glyburide-induced insulin secretion was reduced by 50% in isolated human islets from homozygous QQ donors as compared to those from KK and KQ individuals. Our data clearly indicate that ENPP1, especially when the Q121 variant is operating, affects insulin signaling and glucose metabolism in skeletal muscle- and liver-cells and both function and survival of insulin secreting beta-cells, thus representing a strong pathogenic factor predisposing to insulin resistance, defective insulin secretion and glucose metabolism abnormalities.
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spelling pubmed-30886692011-05-13 ENPP1 Affects Insulin Action and Secretion: Evidences from In Vitro Studies Di Paola, Rosa Caporarello, Nunzia Marucci, Antonella Dimatteo, Claudia Iadicicco, Claudia Del Guerra, Silvia Prudente, Sabrina Sudano, Dora Miele, Claudia Parrino, Cristina Piro, Salvatore Beguinot, Francesco Marchetti, Piero Trischitta, Vincenzo Frittitta, Lucia PLoS One Research Article The aim of this study was to deeper investigate the mechanisms through which ENPP1, a negative modulator of insulin receptor (IR) activation, plays a role on insulin signaling, insulin secretion and eventually glucose metabolism. ENPP1 cDNA (carrying either K121 or Q121 variant) was transfected in HepG2 liver-, L6 skeletal muscle- and INS1E beta-cells. Insulin-induced IR-autophosphorylation (HepG2, L6, INS1E), Akt-Ser(473), ERK1/2-Thr(202)/Tyr(204) and GSK3-beta Ser(9) phosphorylation (HepG2, L6), PEPCK mRNA levels (HepG2) and 2-deoxy-D-glucose uptake (L6) was studied. GLUT 4 mRNA (L6), insulin secretion and caspase-3 activation (INS1E) were also investigated. Insulin-induced IR-autophosphorylation was decreased in HepG2-K, L6-K, INS1E-K (20%, 52% and 11% reduction vs. untransfected cells) and twice as much in HepG2-Q, L6-Q, INS1E-Q (44%, 92% and 30%). Similar data were obtained with Akt-Ser(473), ERK1/2-Thr(202)/Tyr(204) and GSK3-beta Ser(9) in HepG2 and L6. Insulin-induced reduction of PEPCK mRNA was progressively lower in untransfected, HepG2-K and HepG2-Q cells (65%, 54%, 23%). Insulin-induced glucose uptake in untransfected L6 (60% increase over basal), was totally abolished in L6-K and L6-Q cells. GLUT 4 mRNA was slightly reduced in L6-K and twice as much in L6-Q (13% and 25% reduction vs. untransfected cells). Glucose-induced insulin secretion was 60% reduced in INS1E-K and almost abolished in INS1E-Q. Serum deficiency activated caspase-3 by two, three and four folds in untransfected INS1E, INS1E-K and INS1E-Q. Glyburide-induced insulin secretion was reduced by 50% in isolated human islets from homozygous QQ donors as compared to those from KK and KQ individuals. Our data clearly indicate that ENPP1, especially when the Q121 variant is operating, affects insulin signaling and glucose metabolism in skeletal muscle- and liver-cells and both function and survival of insulin secreting beta-cells, thus representing a strong pathogenic factor predisposing to insulin resistance, defective insulin secretion and glucose metabolism abnormalities. Public Library of Science 2011-05-05 /pmc/articles/PMC3088669/ /pubmed/21573217 http://dx.doi.org/10.1371/journal.pone.0019462 Text en Di Paola et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Di Paola, Rosa
Caporarello, Nunzia
Marucci, Antonella
Dimatteo, Claudia
Iadicicco, Claudia
Del Guerra, Silvia
Prudente, Sabrina
Sudano, Dora
Miele, Claudia
Parrino, Cristina
Piro, Salvatore
Beguinot, Francesco
Marchetti, Piero
Trischitta, Vincenzo
Frittitta, Lucia
ENPP1 Affects Insulin Action and Secretion: Evidences from In Vitro Studies
title ENPP1 Affects Insulin Action and Secretion: Evidences from In Vitro Studies
title_full ENPP1 Affects Insulin Action and Secretion: Evidences from In Vitro Studies
title_fullStr ENPP1 Affects Insulin Action and Secretion: Evidences from In Vitro Studies
title_full_unstemmed ENPP1 Affects Insulin Action and Secretion: Evidences from In Vitro Studies
title_short ENPP1 Affects Insulin Action and Secretion: Evidences from In Vitro Studies
title_sort enpp1 affects insulin action and secretion: evidences from in vitro studies
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3088669/
https://www.ncbi.nlm.nih.gov/pubmed/21573217
http://dx.doi.org/10.1371/journal.pone.0019462
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