第43卷第11期
               ·1594 ·                           南 京    医 科 大 学 学         报                        2023年11月


                   in vascular smooth muscle cells and fibroblasts［J］. Ann  lar smooth muscle cells［J］. Biochem Biophys Res Com⁃
                   Biomed Eng，2011，39（6）：1608-1619                   mun，1996，224（3）：808-814
             ［23］ 任长辉，刘      肖，康红艳，等. 剪切力条件下血管内皮细               ［35］ SAKAMOTO N，OHASHI T，SATO M. Effect of fluid
                   胞与平滑肌细胞的相互作用［J］. 医用生物力学，2015，                     shear stress on migration of vascular smooth muscle cells
                   30（2）：185-191                                     in cocultured model［J］. Ann Biomed Eng，2006，34（3）：
             ［24］ HAN X B，SAKAMOTO N，TOMITA N，et al. Influence of    408-415
                   TGF⁃β1 expression in endothelial cells on smooth muscle  ［36］ LIU Y，LI W，YE C S，et al. Gambogic acid induces G0/
                   cell phenotypes and MMP production under shear stress  G1 cell cycle arrest and cell migration inhibition via sup⁃
                   in a co⁃culture model［J］. Cytotechnology，2019，71（2）：  pressing PDGF receptor β tyrosine phosphorylation and
                   489-496                                           Rac1 activity in rat aortic smooth muscle cells［J］. J
             ［25］ QI Y X，JIANG J，JIANG X H，et al. PDGF⁃BB and TGF⁃   Atheroscler Thromb，2010，17（9）：901-913
                   {beta}1 on cross⁃talk between endothelial and smooth mus⁃  ［37］ CHEN J B，ZHOU Y，LIU S Y，et al. Biomechanical sig⁃
                   cle cells in vascular remodeling induced by low shear  nal communication in vascular smooth muscle cells［J］. J
                   stress［J］. PNAS，2011，108（5）：1908-1913             Cell Commun Signal，2020，14（4）：357-376
             ［26］ KANG H，AHN D H，PAK J H，et al. Magnobovatol inhi⁃  ［38］ VEETURI S S，PATEL T R，BAIG A A，et al. Hemody⁃
                   bits smooth muscle cell migration by suppressing PDGF⁃  namic analysis shows high wall shear stress is associated
                   Rβ phosphorylation and inhibiting matrix metalloprotein⁃  with intraoperatively observed thin wall regions of intra⁃
                   ase⁃2 expression［J］. Int J Mol Med，2016，37（5）：1239-  cranial aneurysms［J］. J Cardiovasc Dev Dis，2022，9
                   1246                                             （12）：424
             ［27］ ZENG X，XUE C D，LI Y J，et al. A mathematical model  ［39］ FUKUI W，UJIHARA Y，NAKAMURA M，et al. Direct
                   for intracellular NO and ROS dynamics in vascular endo⁃  visualization of interstitial flow distribution in aortic walls
                   thelial cells activated by exercise ⁃ induced wall shear  ［J］. Sci Rep，2022，12（1）：5381
                   stress［J］. Math Biosci，2023，359：109009       ［40］ RIZZO V. Enhanced interstitial flow as a contributing fac⁃
             ［28］ WANG L，CHENG C K，YI M，et al. Targeting endotheli⁃  tor in neointima formation：（shear）stressing vascular wall
                   al dysfunction and inflammation［J］. J Mol Cell Cardiol，  cell types other than the endothelium［J］. Am J Physiol
                   2022，168：58-67                                    Heart Circ Physiol，2009，297（4）：H1196-1197
             ［29］ JI R R，CHENG Y H，YUE J M，et al. MicroRNA expres⁃  ［41］ JENSEN L F，BENTZON J F，ALBARRÁN⁃JUÁREZ J.
                   sion signature and antisense⁃mediated depletion reveal an  The phenotypic responses of vascular smooth muscle cells
                   essential role of microRNA in vascular neointimal lesion  exposed to mechanical cues［J］. Cells，2021，10（9）：2209
                   formation［J］. Circ Res，2007，100（11）：1579-1588  ［42］ LIU B，WANG X，JIANG L，et al. Extracellular fluid flow
             ［30］ KIM Y，YU N，JANG Y E，et al. Conserved miR⁃370⁃3p/   induces shallow quiescence through physical and bio⁃
                   BMP ⁃ 7 axis regulates the phenotypic change of human  chemical cues［J］. Front Cell Dev Biol，2022，10：792719
                   vascular smooth muscle cells［J］. Sci Rep，2023，13（1）：  ［43］ KIM M H，HARRIS N R，KORZICK D H，et al. Control of
                   2404                                              the arteriolar myogenic response by transvascular fluid fil⁃
             ［31］ HUANG M X，PIAO H L，WANG Y，et al. Circ_0022920      tration［J］. Microvasc Res，2004，68（1）：30-37
                   maintains the contractile phenotype of human aortic vas⁃  ［44］ KANG H Y，LIU J J，SUN A Q，et al. Vascular smooth
                   cular smooth muscle cells via sponging microRNA ⁃ 650  muscle cell glycocalyx mediates shear stress⁃induced con⁃
                   and promoting transforming growth factor beta receptor 1  tractile responses via a Rho kinase（ROCK）⁃myosin light
                   expression in angiotensin Ⅱ ⁃ induced models for aortic  chain phosphatase（MLCP）pathway［J］. Sci Rep，2017，7：
                   dissection［J］. J Am Heart Assoc，2023，12（7）：e027425  42092
             ［32］ TARBELL J M，SHI Z D，DUNN J，et al. Fluid mecha⁃  ［45］ SHI Z D，JI X Y，QAZI H，et al. Interstitial flow promotes
                   nics，arterial disease，and gene expression［J］. Annu Rev  vascular fibroblast，myofibroblast，and smooth muscle cell
                   Fluid Mech，2014，46：591-614                        motility in 3D collagen I via upregulation of MMP⁃1［J］.
             ［33］ JADLI A S，BALLASY N N，GOMES K P，et al. Attenua⁃    Am J Physiol Heart Circ Physiol，2009，297（4）：H1225-
                   tion of smooth muscle cell phenotypic switching by angio⁃  H1234
                   tensin 1⁃7 protects against thoracic aortic aneurysm［J］.  ［46］ SIGNORELLI F，SELA S，GESUALDO L，et al. Hemody⁃
                   Int J Mol Sci，2022，23（24）：15566                   namic stress，inflammation，and intracranial aneurysm de⁃
             ［34］ ALSHIHABI S N，CHANG Y S，FRANGOS J A，et al.         velopment and rupture：a systematic review［J］. World
                   Shear stress⁃induced release of PGE2 and PGI2 by vascu⁃  Neurosurg，2018，115：234-244