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The combination of baicalin with knockdown of miR148a gene suppresses cell viability and proliferation and induces the apoptosis and autophagy of human glioblastoma multiforme T98G and U87MG cells
CONCLUSION: The siRNA-induced miR148a mRNA knockdown in combination with baicalin may offer a novel therapeutic strategy to more effective control the growth of human GBM cells. Thus, knockdown of this gene in combination with baicalin inhibits proliferation (cell cycle arrest in S phase in T98G but not in U87MG cells), induces apoptosis and regulates autophagy in T98G and U87MG cells, but further studies urgently needed to confirm a positive phenomenon for the treatment of GBM.PMID:35761505 | DOI:10.2174/1389201023666220627144100
Source: Current Pharmaceutical Biotechnology - June 28, 2022 Category: Biotechnology Authors: Monika Paul-Samojedny Emilia Liduk Ma łgorzata Kowalczyk Paulina Borkowska Aleksandra Zieli ńska Renata Suchanek-Raif Jan Kowalski Source Type: research

KLF16 suppresses human glioma cell proliferation and tumourigenicity by targeting TFAM.
CONCLUSIONS: KLF16 is a key regulator of glioma cell proliferation by directly targeting TFAM. PMID: 29374989 [PubMed - as supplied by publisher]
Source: Artificial Cells, Nanomedicine and Biotechnology - January 31, 2018 Category: Biotechnology Tags: Artif Cells Nanomed Biotechnol Source Type: research

Functional Assays for Specific Targeting and Delivery of RNA Nanoparticles to Brain Tumor
Cumulative progress in nanoparticle development has opened a new era of targeted delivery of therapeutics to cancer cells and tissue. However, developing proper detection methods has lagged behind resulting in the lack of precise evaluation and monitoring of the systemically administered nanoparticles. RNA nanoparticles derived from the bacteriophage phi29 DNA packaging motor pRNA have emerged as a new generation of drugs for cancer therapy. Multifunctional RNA nanoparticles can be fabricated by bottom-up self-assembly of engineered RNA fragments harboring targeting (RNA aptamer or chemical ligand), therapeutic (siRNA, miR...
Source: Springer protocols feed by Biotechnology - April 25, 2015 Category: Biotechnology Source Type: news

Nucleic-Acid Delivery Using Lipid Nanocapsules.
In conclusion, LNCs are very good candidates to deliver nucleic acids to cells in the course of anti-cancer therapies. PMID: 27033510 [PubMed - as supplied by publisher]
Source: Current Pharmaceutical Biotechnology - March 31, 2016 Category: Biotechnology Authors: Lagarce F, Passirani C Tags: Curr Pharm Biotechnol Source Type: research

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