Doxorubicin and other drugs are commonly used as
chemotherapy agents to treat cancer. However, several biochemical pathways
including p-glycoprotein mediated pathways can lead to multi-drug resistance.
These cancers can be targeted by their phosphatidylinositol-3-kinase (PI3K) to direct
delivery of drugs to the cancers. Researchers at Chinese Academy of Sciences, Fujian
Agriculture and Forestry University, and St. John's University utilized PLGA-SH
(cat# AI025) from PolySciTech division of Akina, Inc. (www.polyscitech.com) to create multifunctional
gold-polymer nanoparticles to deliver doxorubicin to cancer cells in a targeted
manner. This research holds promise to provide for treatment of multi-drug
resistant cancers. Read more: Lin, Ruikun, Lei Zhang, Biwei Ye, Yanan Wang,
Yi-Dong Li, Hsu Jason, Wenzhen Liu et al. "A multi-functional nano-system
combining PI3K-110α/β inhibitor overcomes P-glycoprotein mediated MDR and
improves anti-cancer efficiency." Cancer Letters (2023): 216181. https://www.sciencedirect.com/science/article/pii/S0304383523001325
“Highlights: MDR limit chemotherapy against cancers, and nano-systems
that can target P110α or P110β and inhibit MDR were not reported. BAY-1082439
can inhibit P110 subunits, attenuate P-gp-mediated MDR in cancers but is poorly
soluble and unstable in blood. ·Here we constructed a multi-functional
drug-loading nano-system PBDF for inhibiting the MDR KB cells overexpressing
P-gp. BAY1082439@PLGA-SH, DOX@PLGA-SH NPs, and SH-PEG-FA were grafted to gold
nanorods and PBDF was established. BBDF NPs inhibited proliferation of MDR
KB-C2 cancer cells and KB-C2 tumor growth, and reduced metastasis of KB-C2
cells. Abstract: P-glycoprotein (P-gp/ABCB1)-mediated multidrug resistance
(MDR) in cancers severely limit chemotherapeutic efficacy. We recently reported
that phosphatidylinositol-3-kinase (PI3K) 110α and 110β subunits can be novel
targets for reversal of P-gp mediated MDR in cancers, and BAY-1082439 as an
inhibitor specific for PI3K 110α and 110β subunits could reverse P-gp-mediated
MDR by downregulating P-gp expression in cancer cells. However, BAY-1082439 has
very low solubility, short half-life and high in-vivo clearance rate. Till now,
nano-system with the functions to target PI3K P110α and P110β and reverse P-gp
mediated MDR in cancers has not been reported. In our study, a tumor targeting
drug delivery nano-system PBDF was established, which comprised doxorubicin
(DOX) and BAY-1082439 respectively encapsulated by biodegradable PLGA-SH
nanoparticles (NPs) that were grafted to gold nanorods (Au NRs) modified with
FA-PEG-SH, to enhance the efficacy to reverse P-gp mediated MDR and to target
tumor cells, further, to enhance the efficiency to inhibit MDR tumors
overexpressing P-gp. In-vitro experiments indicated that PBDF NPs greatly
enhanced uptake of DOX, improved the activity to reverse MDR, inhibited the
cell proliferation, and induced S-phase arrest and apoptosis in KB-C2 cells, as
compared with free DOX combining free BAY-1082439. In-vivo experiments further
demonstrated that PBDF NPs improved the anti-tumor ability of DOX and inhibited
development of KB-C2 tumors. Notably, the metastasis of KB-C2 cells in livers
and lungs of nude mice were inhibited by treatment with PBDF NPs, which showed
no obvious in-vitro or in-vivo toxicity. Keywords: Multi-drug resistance (MDR)
in cancer Phosphatidylinositol-3-kinase (PI3K) 110 subunits P-glycoprotein
(P-gp/ABCB1) Multifunctional nano-system Tumor targeting”
Video: https://youtu.be/lQ3NAcGprCI
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