Ines G. Carcedo scite author profile

Colon cancer is the third most common cancer in the world, with drug resistance and metastasis being the major challenges to effective treatments. To overcome this, combination therapy with different chemotherapeutics is a common practice. In this study, we demonstrated that paclitaxel (PTX) together with BEZ235 exhibited a synergetic inhibition effect on colon cancer cell growth. Furthermore, nanoemulsion (NE)-loaded PTX and BEZ235 were more effective than the free drug, and a combination treatment of both NE drugs increased the efficiency of the treatments. BEZ235 pretreatment before adding PTX sensitized the cancer cells further, suggesting a synergistic inhibition effect through the phosphatidylinositol-3-kinases/protein kinase B/mammalian target of rapamycin pathway. The 50% inhibitory concentrations for BEZ235 were 127.1 nM and 145.0 nM and for PTX 9.7 nM and 9.5 nM for HCT-116 and HT-29 cells, respectively. When loaded with NE the 50% inhibitory concentrations for BEZ235 decreased to 52.6 nM and 55.6 nM and for PTX to 1.9 nM and 2.3 nM for HCT-116 and HT-29 cells, respectively. Combination treatment with 10 nM NE-BEZ235 and 0.6 nM and 1.78 nM NE-PTX could kill 50% of HCT-116 and HT-29, respectively. The cell death caused by the treatment was through apoptotic cell death, which coincided with decreased expression of anti-apoptotic protein B-cell lymphoma 2. Our data indicate that the combination therapy of PTX with the phosphatidylinositol-3-kinases/protein kinase B/mammalian target of rapamycin dual inhibitor BEZ235 using NE delivery may hold promise for a more effective approach for colon cancer treatment.

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Calcium-bisphosphonate Nanoparticle Platform as a Prolonged Nanodrug and Bone-Targeted Delivery System for Bone Diseases and Cancers

Lin

Villacanas

Zou

et al. 2021

ACS Appl. Bio Mater.

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Bone and bone-related diseases are the major cause of mobility hindrance and mortality in humans and there is no effective and safe treatment for most of them, especially, for bone and bone metastatic cancers. Bisphosphonates (BPs) are a group of small-molecule drugs for treating osteoporosis and bone cancers but have a very short half-life in circulation, requiring high doses and long-term repeat use that can cause severe side effects. Previous attempts of using nanoparticles to deliver BPs have issues of drug loading capacity and endosome escape/drug release. The present study reports the direct synthesis of BP nanoparticles by precipitating bone-favorable calcium ions and a third-generation BP, risedronate (Ca-RISNPs), to achieve high drug loading, endosomal release, and strong bone-targeting properties. The Ca-RISNPs are monodispersed with high stability at physiological pH but readily dissociate at endosomal pH conditions. They demonstrate strong penetration ability and uniform distribution in human bone and cartilage tissues and the superior drug and DNA (plasmid and oligo double strand DNA) delivery capacity in bone cells. These NPs also exhibit high specificity in killing tumor-associated macrophages (TAMs) and inhibit TAM-induced tumor cell migration. Collectively, our data indicate that this BP nanodrug platform has a great potential in managing bone-related diseases and cancers as a prolonged BP nanodrug and simultaneously as the bone-targeted drug delivery system.

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Ines G. Carcedo

Synergistic inhibition of colon cancer cell growth with nanoemulsion-loaded paclitaxel and PI3K/mTOR dual inhibitor BEZ235 through apoptosis

Calcium-bisphosphonate Nanoparticle Platform as a Prolonged Nanodrug and Bone-Targeted Delivery System for Bone Diseases and Cancers

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