纳米载体
紫杉醇
卵巢癌
医学
癌症研究
免疫系统
药理学
脂质体
化疗
药品
药物输送
沙门氏菌
阿霉素
癌症
毒性
转移性乳腺癌
癌细胞
细菌
靶向给药
治疗效果
免疫疗法
治疗指标
免疫学
毒品携带者
体内
联合疗法
作者
Wei Duan,Chujie Li,Yang Xia,Xiyan Wang,Shihong Cheng,Jiahui Wu,Yang Liu
标识
DOI:10.1002/adhm.202505868
摘要
Ovarian cancer (OvCa) remains a leading cause of gynecological cancer mortality, particularly due to its aggressive peritoneal metastasis. Conventional treatments, including surgery and paclitaxel-based chemotherapy, are often limited by poor drug penetration into solid tumors, multidrug resistance, and the highly immunosuppressive tumor microenvironment. To overcome these challenges, we engineered a novel bacteria membrane-fused biomimetic paclitaxel liposome (PLip@DMV) by incorporating bacteria membrane-derived vesicles from attenuated Salmonella VNP20009. Administered via intraperitoneal injection, PLip@DMV not only delivered paclitaxel effectively but also leveraged the immunomodulatory properties of the Salmonella membrane. This led to significant antitumor immune activation within the metastatic tumor microenvironment, synergistically enhancing therapeutic efficacy and markedly prolonging the survival of tumor-bearing mice. Furthermore, the enhanced delivery efficiency and sustained-release characteristics of PLip@DMV resulted in significantly reduced systemic toxicity and tissue accumulation compared to free paclitaxel. Our findings demonstrate that PLip@DMV represents a more efficient, safer, and immunologically potentiated strategy for treating peritoneal metastatic ovarian cancer. This novel biomimetic nanocarrier holds significant promise for improving clinical outcomes in advanced OvCa.
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