In the present study, a highly stable luteinizing-hormone-releasing hormone (LHRH)-conjugated PEGylated poly(lactic-co-glycolic acid) (PLGA) nanoparticles were developed for the successful treatment of prostate cancers. We have demonstrated that a unique combination of targeted drug delivery and controlled drug release is effective against prostate cancer therapy. The docetaxel (DTX)/PLGA-LHRH micelles possessed a uniform spherical shape with an average diameter of ~170 nm. The micelles exhibited a controlled drug release for up to 96 h which can minimize the non-specific systemic spread of toxic drugs during circulation while maximizing the efficiency of tumor-targeted drug delivery. The LHRH-conjugated micelles showed enhanced cellular uptake and exhibited significantly higher cytotoxicity against LNCaP cancer cells. We have showed that PLGA-LHRH induced greater caspase-3 activity indicating its superior apoptosis potential. Consistently, LHRH-conjugated micelles induced threefold and twofold higher G2/M phase arrest than compared to free DTX or PLGA NP-treated groups. Overall, results indicate that use of LHRH-conjugated nanocarriers may potentially be an effective nanocarrier to effectively treat prostate cancer.
MicroRNAs (miRNAs) have been discovered to play critical role in regulating prostate cancer (PC) progression. The function role of miR-629 in tumor progression of PC has not been studied. Here, we found that miR-629 was markedly up-regulated in PC determined using the cancer genome atlas (TCGA) dataset, clinical tissues, and cell lines. Functional analysis (MTT assays, colony formation assays, soft agar growth assay and BrdU incorporation assay) indicated that overexpression of miR-629 drastically promoted, while miR-629-in significantly suppressed cell proliferation. LATS2 was predicted as a direct target of miR-629, and was confirmed by western blot and dual luciferase assay. Through down-regulation of large tumor suppressor 2(LATS2) by overexpression of miR-629, decreased the p21 mRNA and protein, while enhance the Cyclin D3 mRNA and protein, suggesting promoting cell proliferation process. Additionally, knockdown of LATS2 reversed the inhibitory effect by miR-629-in in PC. Our study indicated that miR-629 might serve as new promising target for PC treatment.
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