Cancer cell repopulation after therapy: which is the mechanism?
“Approaches targeted to prevent this post-therapy cancer cell repopulation should be uncovered to prevent tumor relapse and thus increase overall survival from this devastating disease.” Credit: 2023 Prakash and Telleria “Approaches targeted to prevent this post-therapy cancer cell repopulation should be uncovered to prevent tumor relapse and thus increase overall survival from this devastating disease.” […]
“Approaches targeted to prevent this post-therapy cancer cell repopulation should be uncovered to prevent tumor relapse and thus increase overall survival from this devastating disease.”
Credit: 2023 Prakash and Telleria
“Approaches targeted to prevent this post-therapy cancer cell repopulation should be uncovered to prevent tumor relapse and thus increase overall survival from this devastating disease.”
BUFFALO, NY- June 23, 2023 – A new research perspective was published in Oncoscience (Volume 10) on June 1, 2023, entitled, “Cancer cell repopulation after therapy: which is the mechanism?”
The past two decades have brought great progress in the treatment of cancer as patients with the disease live longer having access to better diagnosis and therapeutic approaches. However, the disease remains incurable. One of the reasons for the high resilience of this disease is that cancer cells hide and escape from therapies thus leading to cancer recurrence. The process whereby cells escape therapy is referred to as cancer cell repopulation.
Cancer cell repopulation after therapy is a phenomenon that leads to therapeutic failure with the consequent relapse of the disease. The process is understudied and mechanisms need to be uncovered. In this new perspective, researchers Rewati Prakash and Carlos M. Telleria from McGill University and McGill University Health Centre discuss the issue of cancer cell repopulation after chemo- and radio-therapies.
The researchers compiled evidence alleging that the repopulation of cancer cells can be originated from either cancer stem cells resistant to therapy, cancer cells that in response to therapy become polyploid and thereafter germinate into near-diploid rapid proliferating cells, and/or cells that respond to treatment undergoing senescence as a transient mechanism to survive, followed by the reinitiation of the cell cycle.
“Perhaps the better approach to eliminate cancer cell repopulation is a combination treatment involving first chemoradiation-induced transitory senescence, followed by senolytic therapies as recently discussed by Wang and colleagues [42].”
Continue reading: DOI: https://doi.org/10.18632/oncoscience.577
Correspondence to: Carlos M. Telleria
Email: carlos.telleria@mcgill.ca
Keywords: cancer cell repopulation, cancer stem cells, polyploidy, neosis, transitory senescence
About Oncoscience:
Oncoscience is a peer-reviewed, open-access, traditional journal covering the rapidly growing field of cancer research, especially emergent topics not currently covered by other journals. This journal has a special mission: Freeing oncology from publication cost. It is free for the readers and the authors.
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Journal
Oncoscience
DOI
10.18632/oncoscience.577
Method of Research
Commentary/editorial
Subject of Research
Cells
Article Title
Cancer Cell Repopulation After Therapy: Which is the Mechanism?
Article Publication Date
1-Jun-2023
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