Merry L Lindsey1, Rugmani Padmanabhan Iyer2, Rogelio Zamilpa3, Andriy Yabluchanskiy2, Kristine Y DeLeon-Pennell2, Michael E Hall4, Abdullah Kaplan2, Fouad A Zouein2, Dustin Bratton2, Elizabeth R Flynn2, Presley L Cannon2, Yuan Tian2, Yu-Fang Jin5, Richard A Lange6, Dorota Tokmina-Roszyk7, Gregg B Fields7, Lisandra E de Castro Brás8. 1. Mississippi Center for Heart Research, Department of Physiology and Biophysics, University of Mississippi Medical Center, Jackson, Mississippi; San Antonio Cardiovascular Proteomics Center, University of Texas Health Science Center, San Antonio, Texas; Research Service, G.V. (Sonny) Montgomery Veterans Affairs Medical Center, Jackson, Mississippi. 2. Mississippi Center for Heart Research, Department of Physiology and Biophysics, University of Mississippi Medical Center, Jackson, Mississippi; San Antonio Cardiovascular Proteomics Center, University of Texas Health Science Center, San Antonio, Texas. 3. San Antonio Cardiovascular Proteomics Center, University of Texas Health Science Center, San Antonio, Texas. 4. Division of Cardiology and Department of Physiology and Biophysics, University of Mississippi Medical Center, Jackson, Mississippi. 5. San Antonio Cardiovascular Proteomics Center, University of Texas Health Science Center, San Antonio, Texas; Department of Electrical and Computer Engineering, University of Texas at San Antonio, San Antonio, Texas. 6. San Antonio Cardiovascular Proteomics Center, University of Texas Health Science Center, San Antonio, Texas; Paul L. Foster School of Medicine, Texas Tech University Health Science Center, El Paso, Texas. 7. San Antonio Cardiovascular Proteomics Center, University of Texas Health Science Center, San Antonio, Texas; Florida Atlantic University, Department of Chemistry and Biochemistry, Jupiter, Florida. 8. Mississippi Center for Heart Research, Department of Physiology and Biophysics, University of Mississippi Medical Center, Jackson, Mississippi; San Antonio Cardiovascular Proteomics Center, University of Texas Health Science Center, San Antonio, Texas; Department of Physiology, Brody School of Medicine, East Carolina University, Greenville, North Carolina. Electronic address: decastrobrasl14@ecu.edu.
Abstract
BACKGROUND: Proteolytically released extracellular matrix (ECM) fragments, matricryptins, are biologically active and play important roles in wound healing. Following myocardial infarction (MI), collagen I, a major component of cardiac ECM, is cleaved by matrix metalloproteinases (MMPs). OBJECTIVES: This study identified novel collagen-derived matricryptins generated post-MI that mediate remodeling of the left ventricle (LV). METHODS: Recombinant collagen Ia1 was used in MMPs cleavage assays, the products were analyzed by mass spectrometry for identification of cleavage sites. C57BL6/J mice were given MI and animals were treated either with vehicle control or p1158/59 matricryptin. Seven days post-MI, LV function and parameters of LV remodeling were measured. Levels of p1158/59 were also measured in plasma of MI patients and healthy controls. RESULTS: In situ, MMP-2 and -9 generate a collagen Iα1 C-1158/59 fragment, and MMP-9 can further degrade it. The C-1158/59 fragment was identified post-MI, both in human plasma and mouse LV, at levels that inversely correlated to MMP-9 levels. We synthesized a peptide beginning at the cleavage site (p1158/59, amino acids 1159 to 1173) to investigate its biological functions. In vitro, p1158/59 stimulated fibroblast wound healing and robustly promoted angiogenesis. In vivo, early post-MI treatment with p1158/59 reduced LV dilation at day 7 post-MI by preserving LV structure (p < 0.05 vs. control). The p1158/59 stimulated both in vitro and in vivo wound healing by enhancing basement membrane proteins, granulation tissue components, and angiogenic factors. CONCLUSIONS: Collagen Iα1 matricryptin p1158/59 facilitates LV remodeling post-MI by regulating scar formation through targeted ECM generation and stimulation of angiogenesis.
BACKGROUND: Proteolytically released extracellular matrix (ECM) fragments, matricryptins, are biologically active and play important roles in wound healing. Following myocardial infarction (MI), collagen I, a major component of cardiac ECM, is cleaved by matrix metalloproteinases (MMPs). OBJECTIVES: This study identified novel collagen-derived matricryptins generated post-MI that mediate remodeling of the left ventricle (LV). METHODS: Recombinant collagen Ia1 was used in MMPs cleavage assays, the products were analyzed by mass spectrometry for identification of cleavage sites. C57BL6/J mice were given MI and animals were treated either with vehicle control or p1158/59 matricryptin. Seven days post-MI, LV function and parameters of LV remodeling were measured. Levels of p1158/59 were also measured in plasma of MI patients and healthy controls. RESULTS: In situ, MMP-2 and -9 generate a collagen Iα1 C-1158/59 fragment, and MMP-9 can further degrade it. The C-1158/59 fragment was identified post-MI, both in human plasma and mouseLV, at levels that inversely correlated to MMP-9 levels. We synthesized a peptide beginning at the cleavage site (p1158/59, amino acids 1159 to 1173) to investigate its biological functions. In vitro, p1158/59 stimulated fibroblast wound healing and robustly promoted angiogenesis. In vivo, early post-MI treatment with p1158/59 reduced LV dilation at day 7 post-MI by preserving LV structure (p < 0.05 vs. control). The p1158/59 stimulated both in vitro and in vivo wound healing by enhancing basement membrane proteins, granulation tissue components, and angiogenic factors. CONCLUSIONS: Collagen Iα1 matricryptin p1158/59 facilitates LV remodeling post-MI by regulating scar formation through targeted ECM generation and stimulation of angiogenesis.
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