Agnieszka Borowik scite author profile

A novel nano-formulation of the anticancer drug cisplatin (Cis) with C 60 fullerene (C 60 +Cis complex) was developed, demonstrating enhanced cytotoxic activity towards tumor cell lines in vitro n comparison to Cis alone. The enhanced proapoptotic activity of the novel complexes was found to be tightly connected with their unique capability to circumvent cancer drug resistance in vitro, as revealed by investigation of human leukemia cells HL-60 together with their sublines resistant towards doxorubicin (HL-60/adr, multidrug resistance protein-1=MRP-1=ABCC1 overexpressing) and vincristine (HL-60/vinc, P-glycoprotein=P-gp=ABCB1 overexpressing). The enhanced anticancer activity of the developed С 60 +Cis complexes was also confirmed in vivo on male C57BL/6J mice bearing Lewis lung carcinoma, effectively inhibiting tumor growth and formation of metastases in comparison to free single Cis. For better understanding of molecular mechanisms underlying the potential ability of the С 60 +Cis complexes to circumvent cancer drug resistance, a molecular docking study was conducted. This analysis demonstrated the potential capability of C 60 fullerene to form van der Waals interactions with potential binding sites of P-gp, MRP-1and MRP-2 (ABCC2) molecules, with maximum affinity to MRP-2. The observed phenomenon might indicate the mechanism how the C 60 +Cis complex bypasses drug resistance of cancer cells by direct binding to ABC transporter proteins. Additionally, the results of Ames mutagenicity test demonstrated that immobilization of Cis on С 60 fullerene significantly diminishes mutagenic activity of Cis and may reduce the probability of secondary neoplasms induction. Concluding, the synthesized C 60 +Cis complex effectively induces cancer cell death in vitro and inhibits tumor growth in vivo, circumventing cancer cell resistance to chemotherapy due to the specific affinity of C 60 fullerene towards ABC-transporter proteins. The obtained results indicate the C 60 +Cis complex as a promising novel chemotherapeutic agentespecially for treatment of drug-resistant tumors.

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Does C60 fullerene act as a transporter of small aromatic molecules?

Borowik

Prylutskyy

Kawelski³

et al. 2018

Colloids and Surfaces B: Biointerfaces

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Senolytic treatment reduces cell senescence and necroptosis in Sod1 knockout mice that is associated with reduced inflammation and hepatocellular carcinoma

et al. 2022

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The goal of this study was to test the role cellular senescence plays in the increased inflammation, chronic liver disease, and hepatocellular carcinoma seen in mice null for Cu/Zn‐Superoxide dismutase (Sod1KO). To inhibit senescence, wildtype (WT) and Sod1KO mice were given the senolytics, dasatinib, and quercetin (D + Q) at 6 months of age when the Sod1KO mice begin exhibiting signs of accelerated aging. Seven months of D + Q treatment reduced the expression of p16 in the livers of Sod1KO mice to WT levels and the expression of several senescence‐associated secretory phenotype factors (IL‐6, IL‐1β, CXCL‐1, and GDF‐15). D + Q treatment also reduced markers of inflammation in livers of the Sod1KO mice, for example, cytokines, chemokines, macrophage levels, and Kupffer cell clusters. D + Q treatment had no effect on various markers of liver fibrosis in the Sod1KO mice but reduced the expression of genes involved in liver cancer and dramatically reduced the incidence of hepatocellular carcinoma. Surprisingly, D + Q also reduced markers of necroptosis (phosphorylated and oligomerized MLKL) in the Sod1KO mice to WT levels. We also found that inhibiting necroptosis in the Sod1KO mice with necrostatin‐1s reduced the markers of cellular senescence (p16, p21, and p53). Our study suggests that an interaction occurs between cellular senescence and necroptosis in the liver of Sod1KO mice. We propose that these two cell fates interact through a positive feedback loop resulting in a cycle amplifying both cellular senescence and necroptosis leading to inflammaging and age‐associated pathology in the Sod1KO mice.

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Pentoxifylline as a modulator of anticancer drug doxorubicin. Part II: Reduction of doxorubicin DNA binding and alleviation of its biological effects

et al. 2016

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The Impact of Surface Functionalization on the Biophysical Properties of Silver Nanoparticles

et al. 2019

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Among metal-based nanoparticles, silver nanoparticles (AgNPs) are particularly appealing because of their stability, functionality, and documented antimicrobial properties. AgNPs also offer the possibility of different surface modifications. In this work, we functionalized AgNPs with thiobarbituric acid or 11-mercaptoundecanoic acid residues to improve the nanoparticles’ biological activities. Subsequently, we assessed the physicochemical properties of newly synthesized AgNPs using a wide range of biophysical methodologies, including UV/vis and fluorescence spectroscopy, atomic force and scanning electron microscopy, and dynamic light scattering and isothermal titration calorimetry. Next, we examined the effect of nanoparticles functionalization on AgNPs mutagenicity and toxicity. Our study revealed that AgNPs’ surface modification affects nanoparticles aggregation, and also impacts nanoparticles’ interaction with model acridine mutagen ICR-191. AgNPs coated with MUA showed the most interesting interactions with tested ICR-191, slightly modulating its toxicity properties by decreasing the viability in treated cells.

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