Fat and bone
http://www.100md.com
《细胞学杂志》
Too many fat cells make us round. But on a molecular level, roundness makes fat cells, based on results from Rowena McBeath, Christopher Chen, and colleagues (Johns Hopkins University, Baltimore, MD).
Fat cells derive from mesenchymal stem cells (MSCs), which are also the precursors of bone-depositing osteoblasts. Chen's group shows that the shape of an MSC determines which of these two cell types it will become.
MSCs that were spread out on a matrix formed osteoblasts, but round cells with only a small matrix-attached surface became fat cells. Changing the cell's surroundings after commitment did not alter the outcome, so the decision must be made at commitment, before differentiation.
Shape is detected via myosin- generated tension in the actin cytoskeleton. Levels of the RhoA GTPase effector ROCK, which activates myosin, were higher in spread than in round cells. Activating or inhibiting RhoA alone was even able to substitute for growth factors that induce osteoblasts or fat cells, respectively. It is not clear how shape is communicated, but perhaps spreading-induced lipid raft reorganization activates more RhoA.
Tension might be sensed at focal adhesions to determine which differentiation pathways are turned on. "Distortion may initiate an adaptive response from cells to become a tissue that would deal with these stresses," says Chen. "The pushes and pulls that cause changes in shape may be used as a signal to decide what the cells are supposed to become." It is also possible that there is more matrix where bone will be made, but this link has not been demonstrated.
Reference:
McBeath, R., et al. 2004. Dev. Cell. 6:483–495.(MSCs become fat cells (red) if RhoA is i)
娣団剝浼呮禒鍛返閸欏倽鈧喛绱濇稉宥嗙€幋鎰崲娴f洑绠e楦款唴閵嗕焦甯归懡鎰灗閹稿洤绱╅妴鍌涙瀮缁旂姷澧楅弶鍐ㄧ潣娴滃骸甯拋妞剧稊閺夊啩姹夐敍宀冨閹劏顓绘稉鐑橆劃閺傚洣绗夌€规粏顫﹂弨璺虹秿娓氭稑銇囩€硅泛鍘ょ拹褰掓鐠囦紮绱濈拠鐑藉仏娴犺埖鍨ㄩ悽浣冪樈闁氨鐓¢幋鎴滄粦閿涘本鍨滄禒顒佹暪閸掍即鈧氨鐓¢崥搴礉娴兼氨鐝涢崡鍐茬殺閹劎娈戞担婊冩惂娴犲孩婀扮純鎴犵彲閸掔娀娅庨妴锟�Fat cells derive from mesenchymal stem cells (MSCs), which are also the precursors of bone-depositing osteoblasts. Chen's group shows that the shape of an MSC determines which of these two cell types it will become.
MSCs that were spread out on a matrix formed osteoblasts, but round cells with only a small matrix-attached surface became fat cells. Changing the cell's surroundings after commitment did not alter the outcome, so the decision must be made at commitment, before differentiation.
Shape is detected via myosin- generated tension in the actin cytoskeleton. Levels of the RhoA GTPase effector ROCK, which activates myosin, were higher in spread than in round cells. Activating or inhibiting RhoA alone was even able to substitute for growth factors that induce osteoblasts or fat cells, respectively. It is not clear how shape is communicated, but perhaps spreading-induced lipid raft reorganization activates more RhoA.
Tension might be sensed at focal adhesions to determine which differentiation pathways are turned on. "Distortion may initiate an adaptive response from cells to become a tissue that would deal with these stresses," says Chen. "The pushes and pulls that cause changes in shape may be used as a signal to decide what the cells are supposed to become." It is also possible that there is more matrix where bone will be made, but this link has not been demonstrated.
Reference:
McBeath, R., et al. 2004. Dev. Cell. 6:483–495.(MSCs become fat cells (red) if RhoA is i)
|
瀵邦喕淇婇弬鍥╃彿
閸忚櫕鏁為惂鐐
鐠囧嫯顔戦崙鐘插綖
閹兼粎鍌ㄩ弴鏉戭樋
閹恒劌鐡ㄧ紒娆愭箙閸欙拷
閸旂姴鍙嗛弨鎯版
|