![]() In this study, we performed molecular docking experiments to understand the interactions between compounds 17 and 18 and E. Only compound 17 was found to be the most active against all fungal strains with a MIC value of 15.62 μg/ml. Compound 18 showed maximum potency against all Gram‐positive and Gram‐negative bacterial strains with a minimum inhibitory concentration (MIC) value in the range of 7.81–62.50 μg/ml. Structures of the synthesized compounds were established on the basis of spectral data and they were screened for their antimicrobial activity. This is an eco‐friendly and swift reaction method for a synthetic approach to diverse benzimidazoles. Condense logarithms radical series#In an attempt to design a greener approach for the synthesis of a potent class of antimicrobials, 1,2‐phenylenediamine derivatives were reacted with various 1/2‐carboxylic acid‐substituted naphthalene derivatives to generate a series of naphthyl‐substituted benzimidazole derivatives (11–19) using polyphosphoric acid as catalyst under microwave irradiation and conventional synthesis method. ![]() AKT/MCL-1 axis inhibition attenuated radiation-induced resistance, providing a potential target to reverse radiation therapy-induced radioresistance. Intracellular ROS and AKT activation form a positive feedback loop in the process of MCL-1 protein synthesis, which in turn induces stemness and radioresistance. We showed that repeated ionizing radiation resulted in persistently enhanced reactive oxygen species (ROS) production at a higher basal level, further promoting protein kinase B (AKT) signaling activation. Upregulated MCL-1 levels were caused by increased stability and more importantly, enhanced protein synthesis. Radiation-induced stemness largely depends on the accumulation of the antiapoptotic myeloid cell leukemia 1 (MCL-1) protein. Upon exposure to radiation, a subpopulation of NPC cells gradually developed resistance to radiation and displayed cancer stem-cell characteristics. Therefore, we mimicked the treatment process in NPC cells in vitro. However, although radiotherapy is a strong tool to kill cancer cells, paradoxically it also promotes aggressive phenotypes. Radiotherapy is the most important treatment strategy for NPC. ![]() Worldwide, nasopharyngeal carcinoma (NPC) is a rare head and neck cancer however, it is a common malignancy in southern China. The data suggest that DMA-influenced repertoire of repair proteins, which are an indispensable part of the cell, interplay with each other to reduce DNA damage and maintain the genomic integrity of the cell. In addition, the DNA damage response genes, HSP70, HSPD1, PRDX1, PRX, CALR, NPM, UBC, and SET showed differential regulation in DMA, DMA + radiation and radiation-treated cells. MAP kinase, WNT signaling and p53 pathways were found to be activated in DMA-treated cells. Our findings revealed treatment with DMA significantly reduced γ-H2AX, 53BP1 and Rad51 foci formation after irradiation. DMA has been shown to act as a potent radiation protector, yielding significant levels of protection, i.e., 20.9% in HEK cells and 21.2% in U87 cells. This study assessed the DNA damage response and whole genome expression profile in two mammalian cell lines (HEK and U87) in response to (5-2- benzimidazole) DMA and ionizing radiation. Radiation-induced DNA damage initiates a series of overlapping responses that include DNA damage recognition and repair, induction of cell cycle checkpoints, senescence and/or apoptosis. Condense logarithms radical free#Both ligands afford a 2-fold protection by altering DNA structure as well as through direct free radical quenching in bulk solution in comparison to the parent ligand, which acts only through quenching of free radicals. Molecules binding to the chromatin alter gene expression, whereas in this study both the ligands have not shown any profound effect on the nucleosome assembly and gene expression in vitro and in vivo. ![]() Both the ligands also quenched free radicals in isolated free radical system suggesting their dual mode of action against radiation-induced damage to DNA. The bisubstituted analogs of Hoechst 33342 are found to be better free radical scavengers and protect DNA against radiation-induced damage at a lower concentration than the parent molecule. The mammalian cells were incubated with 100 microM concentration of DMA and TBZ and irradiated at 5 Gy both the ligands showed nuclei condensation suggesting a probable mechanism to protect DNA from radiation damage. In the present study, benzimidazoles DMA and TBZ showed marked radioprotection through drug-induced compaction of chromatin and direct quenching of free radicals generated by radiation. The complexing of histones with DNA and the resulting condensation of chromatin protects mammalian cell, from radiation-induced strand breakage. ![]()
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