Lianwu Fu1, Chih-Chang Wei2, Pamela C Powell3, Wayne E Bradley4, Sarfaraz Ahmad5, Carlos M Ferrario5, James F Collawn6, Louis J Dell'Italia7. 1. Birmingham Veteran Affairs Medical Center, University of Alabama at Birmingham, Birmingham, AL, United States; Department of Cell, Developmental and Integrative Biology, University of Alabama at Birmingham, Birmingham, AL, United States. 2. Birmingham Veteran Affairs Medical Center, University of Alabama at Birmingham, Birmingham, AL, United States; Division of Cardiovascular Disease, Department of Medicine, University of Alabama at Birmingham, Birmingham, AL, United States. 3. Birmingham Veteran Affairs Medical Center, University of Alabama at Birmingham, Birmingham, AL, United States. 4. Division of Cardiovascular Disease, Department of Medicine, University of Alabama at Birmingham, Birmingham, AL, United States. 5. Division of Surgical Sciences, Wake Forest University School of Medicine, Winston-Salem, NC, United States. 6. Department of Cell, Developmental and Integrative Biology, University of Alabama at Birmingham, Birmingham, AL, United States. 7. Birmingham Veteran Affairs Medical Center, University of Alabama at Birmingham, Birmingham, AL, United States; Division of Cardiovascular Disease, Department of Medicine, University of Alabama at Birmingham, Birmingham, AL, United States; Department of Cell, Developmental and Integrative Biology, University of Alabama at Birmingham, Birmingham, AL, United States. Electronic address: louis.dellitalia@va.gov.
Abstract
BACKGROUND: Previous work has identified mast cells as the major source of chymase largely associated with a profibrotic phenotype. We recently reported increased fibroblast autophagic procollagen degradation in a rat model of pure volume overload (VO). Here we demonstrate a connection between increased fibroblast chymase production and autophagic digestion of procollagen in the pure VO of aortocaval fistula (ACF) in the rat. METHODS AND RESULTS: Isolated LV fibroblasts taken from 4 and 12week ACF Sprague-Dawley rats have significant increases in chymase mRNA and chymase activity. Increased intracellular chymase protein is documented by immunocytochemistry in the ACF fibroblasts compared to cells obtained from age-matched sham rats. To implicate VO as a stimulus for chymase production, we show that isolated adult rat LV fibroblasts subjected to 24h of 20% cyclical stretch induces chymase mRNA and protein production. Exogenous chymase treatment of control isolated adult cardiac fibroblasts demonstrates that chymase is internalized through a dynamin-dependent mechanism. Chymase treatment leads to an increased formation of autophagic vacuoles, LC3-II production, autophagic flux, resulting in increased procollagen degradation. Chymase inhibitor treatment reduces cyclical stretch-induced autophagy in isolated cardiac fibroblasts, demonstrating chymase's role in autophagy induction. CONCLUSION: In a pure VO model, chymase produced in adult cardiac fibroblasts leads to autophagic degradation of newly synthesized intracellular procollagen I, suggesting a new role of chymase in extracellular matrix degradation. Published by Elsevier Ltd.
BACKGROUND: Previous work has identified mast cells as the major source of chymase largely associated with a profibrotic phenotype. We recently reported increased fibroblast autophagic procollagen degradation in a rat model of pure volume overload (VO). Here we demonstrate a connection between increased fibroblast chymase production and autophagic digestion of procollagen in the pure VO of aortocaval fistula (ACF) in the rat. METHODS AND RESULTS: Isolated LV fibroblasts taken from 4 and 12week ACF Sprague-Dawley rats have significant increases in chymase mRNA and chymase activity. Increased intracellular chymase protein is documented by immunocytochemistry in the ACF fibroblasts compared to cells obtained from age-matched sham rats. To implicate VO as a stimulus for chymase production, we show that isolated adult rat LV fibroblasts subjected to 24h of 20% cyclical stretch induces chymase mRNA and protein production. Exogenous chymase treatment of control isolated adult cardiac fibroblasts demonstrates that chymase is internalized through a dynamin-dependent mechanism. Chymase treatment leads to an increased formation of autophagic vacuoles, LC3-II production, autophagic flux, resulting in increased procollagen degradation. Chymase inhibitor treatment reduces cyclical stretch-induced autophagy in isolated cardiac fibroblasts, demonstrating chymase's role in autophagy induction. CONCLUSION: In a pure VO model, chymase produced in adult cardiac fibroblasts leads to autophagic degradation of newly synthesized intracellular procollagen I, suggesting a new role of chymase in extracellular matrix degradation. Published by Elsevier Ltd.
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