Proteomics (Wiley)
Wiley: PROTEOMICS: Table of Contents
DiaPASEF proteotype analysis indicates changes in cell growth and metabolic switch induced by caspase‐9 inhibition in chondrogenic cells
Abstract
Caspase-9 is the major apical caspase responsible for triggering the intrinsic apoptotic pathway. Our previous study indicated that specific inhibition of caspase-9 caused microscopically evident alterations in appearance of the primary chondrogenic cultures which cannot be explained by decrease in apoptosis. To describe a complex molecular background of this effect, proteomics analysis of control and caspase-9 inhibitor-treated chondrogenic cultures was performed. Proteins were extracted, identified and quantified using LC-MS in both data dependent and data independent acquisition (DIA) mode. While directDIA analysis of diaPASEF data obtained using timsTOF Pro LC-MS system revealed 7849 protein groups (Qvalue<0.01), a parallel analysis of iTRAQ-2DLC-MS3 and conventional DIA-MS data identified only 5146 and 4098 protein groups, respectively, showing diaPASEF a superior method for the study. The detailed analysis of diaPASEF data disclosed 236/551 significantly down-/up- regulated protein groups after caspase-9 inhibition, respectively (|log2FC|>0.58, Qvalue<0.05). Classification of downregulated proteins revealed changes in extracellular matrix organization, collagen metabolism, and muscle system processes. Moreover, deregulations suggest a switch from glycolytic to lipid based metabolism in the inhibited cells. No essential changes were found in the proteins involved in apoptosis. The data indicate new non-apoptotic participation of caspases in chondrocyte homeostasis with potential applications in cartilage pathophysiology.
This article is protected by copyright. All rights reserved
Petr Lapcik,
Barbora Vesela,
David Potesil,
Katerina Dadakova,
Martina Zapletalova,
Petr Benes,
Pavel Bouchal,
Eva Matalova
March 25, 2023
https://analyticalsciencejournals.onlinelibrary.wiley.com/doi/10.1002/pmic.202200408?af=R