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https://www.selleckchem.com/products/seclidemstat.html Modulation of tumor microenvironment (TME) has been indicated as an approach to improve efficacy of cancer therapy. Here, we proposed a nano co-delivery based combination therapy of paclitaxel (PTX) and silybin (SB) which can employ the synergistic effects through chemotherapy sensitization and microenvironment modulation. A dextran-based amphiphilic polymer (Dex-DOCA) was successfully developed for in vivo co-delivery and thus "synchronizing" the biodistribution, transport and release of PTX and SB. Resultantly, Dex-DOCA exhibited an excellent encapsulating efficiency for both PTX and SB with adjustable loading ratio for an optimal synergistic antitumor activity. Moreover, the co-loaded nanoparticles efficiently discharged the two drugs at the prospective dosage ratio specifically in acid endo/lysosome mimic environments. The results of in vitro cytotoxicity and cell apoptosis assays further confirmed the SB sensitized PTX potency. Finally, in vivo investigation demonstrated that the co-loaded nanoparticles could effectively accumulate in tumor sites by passive targeting, and inhibit tumor growth through an enhanced intratumoral penetration (resulted from stromal components eradication and tumor vessels normalization associated TME modulation), as well as a sensitization effect of SB on PTX cytotoxic chemotherapy. In egress routes of malignancy, cancer cells are constantly subjected to shear stress imposed by blood/lymph flow. Increasing evidence points toward the regulatory roles of shear stress in tumor cell adhesion and motility. Although it is known that integrin endocytic trafficking governs focal adhesion (FA) turnover and cell migration, the effect and biological consequences of low shear stress (LSS) on integrin trafficking remain unclear. Here, we identified the critical role of integrin β1 trafficking and caveolin-1 (Cav-1) mediated endocytosis in LSS-induced cell directional migration. LSS altered th
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