Targeting mitochondria as a potential therapeutic strategy against chemoresistance in cancer - 26/02/23
, Gurjit Kaur Bhatti b , Ravindresh Chhabra c , P. Hemachandra Reddy d, e, f, g, h, ⁎ , Jasvinder Singh Bhatti a, ⁎ Abstract |
The importance of mitochondria is not only limited to energy generation but also in several physical and chemical processes critical for cell survival. Mitochondria play an essential role in cellular apoptosis, calcium ion transport and cellular metabolism. Mutation in the nuclear and mitochondrial genes, altered oncogenes/tumor suppressor genes, and deregulated signalling for cell viability are major reasons for cancer progression and chemoresistance. The development of drug resistance in cancer patients is a major challenge in cancer treatment as the resistant cells are often more aggressive. The drug resistant cells of numerous cancer types exhibit the deregulation of mitochondrial function. The increased biogenesis of mitochondria and its dynamic alteration contribute to developing resistance. Further, a small subpopulation of cancer stem cells in the heterogeneous tumor is primarily responsible for chemoresistance and has an attribute of mitochondrial dysfunction. This review highlights the critical role of mitochondrial dysfunction in chemoresistance in cancer cells through the processes of apoptosis, autophagy/mitophagy, and cancer stemness. Mitochondria-targeted therapeutic strategies might help reduce cancer progression and chemoresistance induced by various cancer drugs.
Il testo completo di questo articolo è disponibile in PDF.Abbreviations : ABC transporters, ATP, Caspase, CCA, CSCs, Cyt c, ECM, EGFR, EMT, ETC, HIF1-α, MAPK, MMPs, microRNA, mtDNA, nDNA, OXPHOS, PDGF, PI3K, ROS, TCA, TGF-β, TICs, VEGF
Keywords : Cancer chemoresistance, Mitochondrial dysfunction, Apoptosis, Autophagy, Mitochondrial dynamics, Mitochondrial biogenesis, Stemness
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Vol 160
Articolo 114398- aprile 2023 Ritorno al numero
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