Integrin Mediated Mechanotransduction in Renal Vascular Smooth Muscle Cells

Integrins are transmembrane heterodimeric proteins that link extracellular matrix (ECM) to cytoskeleton and have been shown to function as mechanotransducers in non-muscle cells. Synthetic integrin-binding peptide triggers Ca2+ mobilization and contraction in vascular smooth muscle cells (VSMCs) fro...

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Main Author: Balasubramanian, Lavanya
Format: Others
Published: Scholar Commons 2007
Subjects:
Online Access:https://scholarcommons.usf.edu/etd/614
https://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=1613&context=etd
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spelling ndltd-USF-oai-scholarcommons.usf.edu-etd-16132019-10-04T05:19:40Z Integrin Mediated Mechanotransduction in Renal Vascular Smooth Muscle Cells Balasubramanian, Lavanya Integrins are transmembrane heterodimeric proteins that link extracellular matrix (ECM) to cytoskeleton and have been shown to function as mechanotransducers in non-muscle cells. Synthetic integrin-binding peptide triggers Ca2+ mobilization and contraction in vascular smooth muscle cells (VSMCs) from rat afferent arteriole, indicating that interactions between ECM and integrins modulate vascular tone. RGD, an integrin binding peptide, triggered contraction in cultured VSMCs as observed by Electric Cell-Substrate Impedance Sensing technique. To examine whether integrins transduce extracellular mechanical stress into intracellular Ca2+ signaling events in VSMCs, unidirectional mechanical force was applied to freshly isolated renal VSMCs through paramagnetic beads coated with fibronectin (FN, natural ligand of α5β1 integrin in VSMCs). Pulling of fibronectin-coated beads with electromagnet triggered Ca2+ sparks, followed by global Ca2+ mobilization. Paramagnetic beads coated with low-density lipoprotein (LDL), whose receptors are not linked to cytoskeleton, were minimally effective in triggering Ca2+ sparks and global Ca2+ mobilization. Pre-incubation with ryanodine, cytochalasin-D, or colchicine substantially reduced the occurrence of Ca2+ sparks triggered by fibronectin-coated beads. Binding of VSMCs with antibodies specific to the extracellular domains of alpha5 and beta1 integrins triggered Ca2+ sparks simulating the effects of fibronectin-coated beads. Anti-β2- integrin antibody served as the negative control. Traction force microscopy studies showed that only the force transduced via integrins could potentially trigger cytoskeletal remodeling in cultured VSMCs. Atomic force microscopy revealed a significant increase in surface roughness in VSMCs when treated with RGD peptide though there was no difference in the maximum deflection of the force curves. Pre-incubation of microperfused afferent arterioles with ryanodine or integrin specific binding peptide inhibited pressure-induced myogenic constriction. In conclusion, integrins transduce mechanical force into intracellular Ca2+ signaling events in renal VSMCs. Integrin-mediated mechanotransduction is probably involved in myogenic response of afferent arterioles. Thus, integrins can potentially act as sensors for myogenic response phenomenon and affect the autoregulatory mechanism in the vasculature. 2007-10-30T07:00:00Z text application/pdf https://scholarcommons.usf.edu/etd/614 https://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=1613&context=etd default Graduate Theses and Dissertations Scholar Commons Calcium sparks Paramagnetic beads Myogenic response Fluorescence confocal microscopy Impedance sensing American Studies Arts and Humanities
collection NDLTD
format Others
sources NDLTD
topic Calcium sparks
Paramagnetic beads
Myogenic response
Fluorescence confocal microscopy
Impedance sensing
American Studies
Arts and Humanities
spellingShingle Calcium sparks
Paramagnetic beads
Myogenic response
Fluorescence confocal microscopy
Impedance sensing
American Studies
Arts and Humanities
Balasubramanian, Lavanya
Integrin Mediated Mechanotransduction in Renal Vascular Smooth Muscle Cells
description Integrins are transmembrane heterodimeric proteins that link extracellular matrix (ECM) to cytoskeleton and have been shown to function as mechanotransducers in non-muscle cells. Synthetic integrin-binding peptide triggers Ca2+ mobilization and contraction in vascular smooth muscle cells (VSMCs) from rat afferent arteriole, indicating that interactions between ECM and integrins modulate vascular tone. RGD, an integrin binding peptide, triggered contraction in cultured VSMCs as observed by Electric Cell-Substrate Impedance Sensing technique. To examine whether integrins transduce extracellular mechanical stress into intracellular Ca2+ signaling events in VSMCs, unidirectional mechanical force was applied to freshly isolated renal VSMCs through paramagnetic beads coated with fibronectin (FN, natural ligand of α5β1 integrin in VSMCs). Pulling of fibronectin-coated beads with electromagnet triggered Ca2+ sparks, followed by global Ca2+ mobilization. Paramagnetic beads coated with low-density lipoprotein (LDL), whose receptors are not linked to cytoskeleton, were minimally effective in triggering Ca2+ sparks and global Ca2+ mobilization. Pre-incubation with ryanodine, cytochalasin-D, or colchicine substantially reduced the occurrence of Ca2+ sparks triggered by fibronectin-coated beads. Binding of VSMCs with antibodies specific to the extracellular domains of alpha5 and beta1 integrins triggered Ca2+ sparks simulating the effects of fibronectin-coated beads. Anti-β2- integrin antibody served as the negative control. Traction force microscopy studies showed that only the force transduced via integrins could potentially trigger cytoskeletal remodeling in cultured VSMCs. Atomic force microscopy revealed a significant increase in surface roughness in VSMCs when treated with RGD peptide though there was no difference in the maximum deflection of the force curves. Pre-incubation of microperfused afferent arterioles with ryanodine or integrin specific binding peptide inhibited pressure-induced myogenic constriction. In conclusion, integrins transduce mechanical force into intracellular Ca2+ signaling events in renal VSMCs. Integrin-mediated mechanotransduction is probably involved in myogenic response of afferent arterioles. Thus, integrins can potentially act as sensors for myogenic response phenomenon and affect the autoregulatory mechanism in the vasculature.
author Balasubramanian, Lavanya
author_facet Balasubramanian, Lavanya
author_sort Balasubramanian, Lavanya
title Integrin Mediated Mechanotransduction in Renal Vascular Smooth Muscle Cells
title_short Integrin Mediated Mechanotransduction in Renal Vascular Smooth Muscle Cells
title_full Integrin Mediated Mechanotransduction in Renal Vascular Smooth Muscle Cells
title_fullStr Integrin Mediated Mechanotransduction in Renal Vascular Smooth Muscle Cells
title_full_unstemmed Integrin Mediated Mechanotransduction in Renal Vascular Smooth Muscle Cells
title_sort integrin mediated mechanotransduction in renal vascular smooth muscle cells
publisher Scholar Commons
publishDate 2007
url https://scholarcommons.usf.edu/etd/614
https://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=1613&context=etd
work_keys_str_mv AT balasubramanianlavanya integrinmediatedmechanotransductioninrenalvascularsmoothmusclecells
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