To date, only few a types of nanomedicines have been made available for clinical use even in the most common liposomal delivery systems, due to significant constraints, including poor targeting of specific cells, hindered penetration, and accelerated clearance. Various intricate designs have been generated and show improvements, while also bringing new problems. Biological cells, possessing advantages like low immunogenicity, long circulation time, receptors integration, and innate targeting capability. Herein, liposomes are innovatively functionalized with a stem cell membrane through a facile approach. The biomimetic vesicles achieve controlled release, exhibit better stability, longer circulation time, and targeted delivery. Loading with curcumin leads to enhanced survival rate of ischemic stroke mice with a single injection (from ≈30% to over 90%). The versatility of the method is verified by differently charged liposomes modification and erythrocyte membrane derived vesicles preparation. Overall, the cell membrane derived biomimetic vesicles achieve targeted delivery and versatility prepared by a facile approach, as well as effortless preparation.
There is evidence to suggest that the primary tumor induces the formation of a pre-metastatic niche in distal organs by stimulating the production of pro-metastatic factors. Given the fundamental role of the pre-metastatic niche in the development of metastases, interruption of its formation would be a promising strategy to take early action against tumor metastasis. Here we report an enzyme-activated assembled peptide FR17 that can serve as a “flame-retarding blanket” in the pre-metastatic niche specifically to extinguish the “fire” of tumor-supportive microenvironment adaption. We show that the in-situ assembled peptide nano-blanket inhibits fibroblasts activation, suppressing the remodeling of the metastasis-supportive host stromal tissue, and reversing vascular destabilization and angiogenesis. Furthermore, we demonstrate that the nano-blanket prevents the recruitment of myeloid cells to the pre-metastatic niche, regulating the immune-suppressive microenvironment. We show that FR17 administration effectively inhibits the formation of the pulmonary pre-metastatic niche and postoperative metastasis, offering a therapeutic strategy against pre-metastatic niche formation.
Background
The incidence of gallbladder carcinoma (GBM) in China has increased in recent years. Here, the functional mechanism of lncRNA TTN-AS1 in GBC was preliminary elucidated.
Methods
The expression levels of lncRNA TTN-AS1, miR-107, and HMGA1 in tissues and cell lines were assessed by RT-qPCR. Cell proliferation was measured by MTT assays. Cell invasion and migration abilities were evaluated by Transwell assays. The relationship between miR-107 and lncRNA TTN-AS1 or HMGA1 was confirmed by luciferase reporter assay.
Results
Upregulation of lncRNA TTN-AS1 and downregulation of miR-107 were detected in GBC. Furthermore, the expressions between TTN-AS1 and miR-107 were mutually inhibited in GBC. Functionally, lncRNA TTN-AS1 promoted cell viability and motility in GBC by sponging miR-107. In addition, miR-107 directly targets HMGA1. And HMGA1 can be positively regulated by lncRNA TTN-AS1 in GBC. Furthermore, HMGA1 promoted GBC progression by interacting with lncRNA TTN-AS1/miR-107 axis.
Conclusion
LncRNA TTN-AS1 acted as a tumor promoter in GBC by sponging miR-107 and upregulating HMGA1.
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