C Crescioli1, N Sturli, M Sottili, P Bonini, A Lenzi, L Di Luigi. 1. Department of Movement, Human and Health Sciences, Section of Health Sciences, University of Rome "Foro Italico", 00135 Rome, Italy. clara.crescioli@uniroma4.it.
Abstract
BACKGROUND: Phosphodiesterase type 5 inhibitors (PDE5i), widely used to treat male erectile dysfunction, seem to counteract insulin resistance (IR) in animals and humans. IR, primarily manifest in peripheral tissues and particularly in skeletal muscle, is due to impaired insulin signal transduction. Investigators have been focusing onto intracellular defects responsible for IR to identify suitable pharmacological tools targeted toward the specific defects. Albeit some effects of PDE5i have been reported onto animal muscular tissues or cells, whether and how they might affect metabolic processes directly in human skeletal muscle still remains unclear. AIM: We aimed to investigate in human fetal skeletal muscle cells (Hfsmc) the effect of tadalafil, one of PDE5i, onto some intracellular factors involved in response to insulin, such as ras-raf mitogen activated protein kinase (MAPK), phosphatidylinositol 3-kinase/protein kinase B (PKB/Akt), glycogen synthase kinase 3β (GSK-3β), and the transcriptional factor c-Myc; proliferation rate; lactate (lact) and free fatty acid (ffa) release; activity of citrate synthase (CS) and succinate dehydrogenase (SDH), both enzymes of Kreb's cycle; PDE5 gene expression. MATERIALS AND METHODS: Western blot analysis, enzyme-linked immunosorbent assay, enzymatic assays, cell count, MTT assay and Real Time PCR were performed in Hfsmc with and without tadalafil. RESULTS: In Hfsmc tadalafil affected the insulin-related intracellular cascade, by increasing MAPK, PKB/Akt, GSK-3β phosphorylation and c-Myc expression. ffa release and CS activity also significantly increased, with no changes in SDH activity and lact release. CONCLUSIONS: Tadalafil, like insulin, targeted part of the machinery dedicated to energy management and metabolic control in human skeletal muscle cells.
BACKGROUND: Phosphodiesterase type 5 inhibitors (PDE5i), widely used to treat male erectile dysfunction, seem to counteract insulin resistance (IR) in animals and humans. IR, primarily manifest in peripheral tissues and particularly in skeletal muscle, is due to impaired insulin signal transduction. Investigators have been focusing onto intracellular defects responsible for IR to identify suitable pharmacological tools targeted toward the specific defects. Albeit some effects of PDE5i have been reported onto animal muscular tissues or cells, whether and how they might affect metabolic processes directly in human skeletal muscle still remains unclear. AIM: We aimed to investigate in human fetal skeletal muscle cells (Hfsmc) the effect of tadalafil, one of PDE5i, onto some intracellular factors involved in response to insulin, such as ras-raf mitogen activated protein kinase (MAPK), phosphatidylinositol 3-kinase/protein kinase B (PKB/Akt), glycogen synthase kinase 3β (GSK-3β), and the transcriptional factor c-Myc; proliferation rate; lactate (lact) and free fatty acid (ffa) release; activity of citrate synthase (CS) and succinate dehydrogenase (SDH), both enzymes of Kreb's cycle; PDE5 gene expression. MATERIALS AND METHODS: Western blot analysis, enzyme-linked immunosorbent assay, enzymatic assays, cell count, MTT assay and Real Time PCR were performed in Hfsmc with and without tadalafil. RESULTS: In Hfsmc tadalafil affected the insulin-related intracellular cascade, by increasing MAPK, PKB/Akt, GSK-3β phosphorylation and c-Myc expression. ffa release and CS activity also significantly increased, with no changes in SDH activity and lact release. CONCLUSIONS:Tadalafil, like insulin, targeted part of the machinery dedicated to energy management and metabolic control in human skeletal muscle cells.
Authors: Julio E Ayala; Deanna P Bracy; Brianna M Julien; Jeffrey N Rottman; Patrick T Fueger; David H Wasserman Journal: Diabetes Date: 2007-01-17 Impact factor: 9.461
Authors: F Marampon; C Antinozzi; C Corinaldesi; G B Vannelli; E Sarchielli; S Migliaccio; L Di Luigi; A Lenzi; C Crescioli Journal: Endocrine Date: 2017-08-07 Impact factor: 3.633
Authors: Guglielmo Duranti; Roberta Ceci; Paolo Sgrò; Stefania Sabatini; Luigi Di Luigi Journal: Cell Stress Chaperones Date: 2017-03-11 Impact factor: 3.667
Authors: Roberta Ceci; Guglielmo Duranti; Paolo Sgrò; Massimiliano Sansone; Laura Guidetti; Carlo Baldari; Stefania Sabatini; Luigi Di Luigi Journal: Eur J Appl Physiol Date: 2014-11-09 Impact factor: 3.078
Authors: Antonio Aversa; Simona Fittipaldi; Davide Francomano; Viviana M Bimonte; Emanuela A Greco; Clara Crescioli; Luigi Di Luigi; Andrea Lenzi; Silvia Migliaccio Journal: Endocrine Date: 2017-01-30 Impact factor: 3.633
Authors: Silvia Giannattasio; Anna Citarella; Sofia Trocchianesi; Tiziana Filardi; Susanna Morano; Andrea Lenzi; Elisabetta Ferretti; Clara Crescioli Journal: Front Mol Biosci Date: 2022-05-31
Authors: Luigi Di Luigi; Francesco Botrè; Stefania Sabatini; Massimiliano Sansone; Monica Mazzarino; Laura Guidetti; Carlo Baldari; Andrea Lenzi; Daniela Caporossi; Francesco Romanelli; Paolo Sgrò Journal: Endocrine Date: 2014-02-15 Impact factor: 3.633
Authors: C Antinozzi; F Marampon; C Corinaldesi; E Vicini; P Sgrò; G B Vannelli; A Lenzi; C Crescioli; L Di Luigi Journal: J Endocrinol Invest Date: 2017-05-15 Impact factor: 4.256