Nanotherapeutic approach to tackle chemotherapeutic resistance of cancer stem cells

Estimates indicate that cancer will become the leading cause of mortality worldwide in the future. Tumorigenesis is a complex process that involves self-sufficiency in signs of growth, insensitivity to anti-growth signals, prevention of apoptosis, unlimited replication, sustained angiogenesis, tissu...

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Veröffentlicht in:Life sciences (1973) 2021-08, Vol.279, p.119667-119667, Article 119667
Hauptverfasser: Oliveira, Bruna Stefane Alves de, de Assis, Ana Carolina Correa, Souza, Natália Melo, Ferreira, Luiz Fernando Romanholo, Soriano, Renato Nery, Bilal, Muhammad, Iqbal, Hafiz M.N.
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Sprache:eng
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Zusammenfassung:Estimates indicate that cancer will become the leading cause of mortality worldwide in the future. Tumorigenesis is a complex process that involves self-sufficiency in signs of growth, insensitivity to anti-growth signals, prevention of apoptosis, unlimited replication, sustained angiogenesis, tissue invasion, and metastasis. Cancer stem cells (CSCs) have an important role in tumor development and resistance. Here we will approach phenotypic plasticity capacity, highly efficient DNA repair systems, anti-apoptotic machinery, sustained stemness features, interaction with the tumor microenvironment, and Notch, Wnt, and Hedgehog signaling pathways. The researches about CSCs as a target in cancer treatment has been growing. Many different options have pointed beneficial results, such as pathways and CSC-surface markers targeting. Besides its limitations, nanotherapeutics have emerged as a potential strategy in this context since they aim to improve pharmacokinetics, biodistribution, and reduce the side effects observed in traditional treatments. Nanoparticles have been studied in this field, mostly for drug delivery and a multitherapy approach. Another widely researched approaches in this area are related to heat therapy, such as photothermal therapy, photodynamic therapy and magnetic hyperthermia, besides molecular targeting. This review will contemplate the most relevant studies that have shown the effects of nanotherapeutics. In conclusion, although the studies analyzed are mostly preclinical, we believe that there is strong evidence that nanoparticles can increase the chances of a better prognosis to cancer in the future. It is also essential to transpose these findings to the clinic to confirm and better understand the role of nanotherapeutics in this context. [Display omitted] •Chemotherapeutic resistance of cancer stem cells is a challenging issue.•Nano-engineered constructs based immunotherapeutic as a promising strategy to battle against cancer.•Photothermal therapy, photodynamic therapy, magnetic hyperthermia, and molecular targeting are reviewed.•Nanostructure materials-based nanomedicine, or drug vehicles have revolutionized the biomedical settings.•The advent of nanoscience impacted the concept of the modern immunotherapeutic paradigm.
ISSN:0024-3205
1879-0631
DOI:10.1016/j.lfs.2021.119667