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W280244527 endingPage "9" @default.
W280244527 startingPage "1" @default.
W280244527 abstract "Bone marrow-derived mesenchymal stem and stromal cells (MSCs) are promising candidates for cell-based therapies in diverse conditions including tissue engineering. Advancement of these therapies relies on the ability to direct MSCs toward specific cell phenotypes. Despite identification of applied forces that affect self-maintenance, proliferation, and differentiation of MSCs, mechanisms underlying the integration of mechanically induced signaling cascades and interpretation of mechanical signals by MSCs remain elusive. During the past decade, many researchers have demonstrated that external applied forces can activate osteogenic signaling pathways in MSCs, including Wnt, Ror2, and Runx2. Besides, recent advances have highlighted the critical role of internal forces due to cell-matrix interaction in MSC function. These internal forces can be achieved by the materials that cells reside in through its mechanical properties, such as rigidity, topography, degradability, and substrate patterning. MSCs can generate contractile forces to sense these mechanical properties and thereby perceive mechanical information that directs broad aspects of MSC functions, including lineage commitment. Although many signaling pathways have been elucidated in material-induced lineage specification of MSCs, discovering the mechanisms by which MSCs respond to such cell-generated forces is still challenging because of the highly intricate signaling milieu present in MSC environment. However, bioengineers are bridging this gap by developing platforms to control mechanical cues with improved throughput and precision, thereby enabling further investigation of mechanically induced MSC functions. In this review, we discuss the most recent advances that how applied forces and cell-generated forces may be engineered to determine MSC fate, and overview a subset of the operative signal transduction mechanisms and experimental platforms that have emerged in MSC mechanobiology research. Our main goal is to provide an up-to-date view of MSC mechanobiology that is relevant to both mechanical loading and mechanical properties of the environment, and introduce these emerging platforms for tissue engineering use." @default.
W280244527 created "2016-06-24" @default.
W280244527 creator A5029573546 @default.
W280244527 creator A5041295808 @default.
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W280244527 creator A5062584735 @default.
W280244527 creator A5065963458 @default.
W280244527 creator A5086946220 @default.
W280244527 date "2015-07-01" @default.
W280244527 modified "2023-10-14" @default.
W280244527 title "Mechanobiology of mesenchymal stem cells: Perspective into mechanical induction of MSC fate" @default.
W280244527 cites W1503166381 @default.
W280244527 cites W1744096777 @default.
W280244527 cites W1967181926 @default.
W280244527 cites W1967188390 @default.
W280244527 cites W1968672793 @default.
W280244527 cites W1970902059 @default.
W280244527 cites W1974686435 @default.
W280244527 cites W1977946489 @default.
W280244527 cites W1978604814 @default.
W280244527 cites W1980773309 @default.
W280244527 cites W1983376840 @default.
W280244527 cites W1989526357 @default.
W280244527 cites W1990149568 @default.
W280244527 cites W1993640536 @default.
W280244527 cites W1994423139 @default.
W280244527 cites W1995528629 @default.
W280244527 cites W1999765951 @default.
W280244527 cites W2000957726 @default.
W280244527 cites W2001108592 @default.
W280244527 cites W2008324315 @default.
W280244527 cites W2009276350 @default.
W280244527 cites W2009688266 @default.
W280244527 cites W2015979204 @default.
W280244527 cites W2017536526 @default.
W280244527 cites W2017602449 @default.
W280244527 cites W2020451860 @default.
W280244527 cites W2021053451 @default.
W280244527 cites W2022229181 @default.
W280244527 cites W2022746045 @default.
W280244527 cites W2027156617 @default.
W280244527 cites W2029991360 @default.
W280244527 cites W2030214519 @default.
W280244527 cites W2036795046 @default.
W280244527 cites W2037383678 @default.
W280244527 cites W2040788343 @default.
W280244527 cites W2041048532 @default.
W280244527 cites W2042714728 @default.
W280244527 cites W2044769151 @default.
W280244527 cites W2050794411 @default.
W280244527 cites W2053908471 @default.
W280244527 cites W2056010558 @default.
W280244527 cites W2056071002 @default.
W280244527 cites W2057439428 @default.
W280244527 cites W2059716736 @default.
W280244527 cites W2061435194 @default.
W280244527 cites W2064341334 @default.
W280244527 cites W2067064279 @default.
W280244527 cites W2068941617 @default.
W280244527 cites W2069527111 @default.
W280244527 cites W2069977719 @default.
W280244527 cites W2070439333 @default.
W280244527 cites W2075875199 @default.
W280244527 cites W2077899763 @default.
W280244527 cites W2083670461 @default.
W280244527 cites W2084136724 @default.
W280244527 cites W2093021491 @default.
W280244527 cites W2094049785 @default.
W280244527 cites W2094669780 @default.
W280244527 cites W2097444304 @default.
W280244527 cites W2100454719 @default.
W280244527 cites W2101904950 @default.
W280244527 cites W2107888653 @default.
W280244527 cites W2110947634 @default.
W280244527 cites W2113547540 @default.
W280244527 cites W2115276252 @default.
W280244527 cites W2116922398 @default.
W280244527 cites W2124610625 @default.
W280244527 cites W2125810992 @default.
W280244527 cites W2130804510 @default.
W280244527 cites W2131631451 @default.
W280244527 cites W2132375258 @default.
W280244527 cites W2134208433 @default.
W280244527 cites W2135069791 @default.
W280244527 cites W2135073071 @default.
W280244527 cites W2136514207 @default.
W280244527 cites W2139035695 @default.
W280244527 cites W2143202985 @default.
W280244527 cites W2146635117 @default.
W280244527 cites W2149706291 @default.
W280244527 cites W2152198035 @default.
W280244527 cites W2152392358 @default.
W280244527 cites W2158938188 @default.
W280244527 cites W2159556274 @default.
W280244527 cites W2165673443 @default.
W280244527 cites W2331369555 @default.
W280244527 doi "https://doi.org/10.1016/j.actbio.2015.04.008" @default.