Fluid shear-induced mechanical signaling in MC3T3-E1 osteoblasts requires cytoskeleton-integrin interactions |
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Authors: | Pavalko Fredrick M; Chen Neal X; Turner Charles H; Burr David B; Atkinson Simon; Hsieh Yeou-Fang; Qiu Jinya; Duncan Randall L |
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Abstract: | Mechanical stimulation of bone induces new bone formation invivo and increases the metabolic activity and gene expression ofosteoblasts in culture. We investigated the role of the actin cytoskeleton and actin-membrane interactions in the transmission ofmechanical signals leading to altered gene expression in cultured MC3T3-E1 osteoblasts. Application of fluid shear to osteoblasts causedreorganization of actin filaments into contractile stress fibers andinvolved recruitment of 1-integrins and -actinin tofocal adhesions. Fluid shear also increased expression of two proteinslinked to mechanotransduction in vivo, cyclooxygenase-2 (COX-2) and theearly response gene product c-fos. Inhibition of actin stress fiberdevelopment by treatment of cells with cytochalasin D, by expression ofa dominant negative form of the small GTPase Rho, or by microinjectioninto cells of a proteolytic fragment of -actinin that inhibits -actinin-mediated anchoring of actin filaments to integrins at theplasma membrane each blocked fluid-shear-induced gene expression inosteoblasts. We conclude that fluid shear-induced mechanical signalingin osteoblasts leads to increased expression of COX-2 and c-Fos througha mechanism that involves reorganization of the actin cytoskeleton.Thus Rho-mediated stress fiber formation and the -actinin-dependentanchorage of stress fibers to integrins in focal adhesions may promotefluid shear-induced metabolic changes in bone cells. |
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