CRISPR/Cas9 gene editing: a new approach for overcoming drug resistance in cancer

Vaghari‐Tabari, Mostafa; Hassanpour, Parisa; Sadeghsoltani, Fatemeh; Malakoti, Faezeh; Alemi, Forough; Qujeq, Durdi; Asemi, Zatollah; Yousefi, Bahman

doi:10.1186/s11658-022-00348-2

Cited by 55 publications

(40 citation statements)

References 194 publications

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“…Studies on cellular and animal models have shown that the CRISPR/Cas9 technique can be effective in treating cancers [ 320 ]. For this reason, several clinical trials are underway to evaluate the efficiency of this technology in treating cancers [ 321 , 322 ]. While no treatment is available using this system, a recent study showed that decreasing MYCN copy number by using MYCN-A3 alkylating agent can down-regulate MYCN expression and suppress NB growth in vitro and in a xenograft mouse model [ 323 ].…”

Section: Mycn As Therapeutic Targetmentioning

confidence: 99%

MYCN Impact on High-Risk Neuroblastoma: From Diagnosis and Prognosis to Targeted Treatment

Bartolucci

Montemurro

Raieli³

et al. 2022

Cancers

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Among childhood cancers, neuroblastoma is the most diffuse solid tumor and the deadliest in children. While to date, the pathology has become progressively manageable with a significant increase in 5-year survival for its less aggressive form, high-risk neuroblastoma (HR-NB) remains a major issue with poor outcome and little survivability of patients. The staging system has also been improved to better fit patient needs and to administer therapies in a more focused manner in consideration of pathology features. New and improved therapies have been developed; nevertheless, low efficacy and high toxicity remain a staple feature of current high-risk neuroblastoma treatment. For this reason, more specific procedures are required, and new therapeutic targets are also needed for a precise medicine approach. In this scenario, MYCN is certainly one of the most interesting targets. Indeed, MYCN is one of the most relevant hallmarks of HR-NB, and many studies has been carried out in recent years to discover potent and specific inhibitors to block its activities and any related oncogenic function. N-Myc protein has been considered an undruggable target for a long time. Thus, many new indirect and direct approaches have been discovered and preclinically evaluated for the interaction with MYCN and its pathways; a few of the most promising approaches are nearing clinical application for the investigation in HR-NB.

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Section: Mycn As Therapeutic Targetmentioning

confidence: 99%

MYCN Impact on High-Risk Neuroblastoma: From Diagnosis and Prognosis to Targeted Treatment

Bartolucci

Montemurro

Raieli³

et al. 2022

Cancers

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“…To further enhance our understanding of the evolution of drug resistance in cancer, technologies, such as CRISPR/Cas, clonal tracing, or spatial analyses, can be applied to experimental evolution. The CRISPR/Cas system can be used to characterize potentially different mechanisms of resistance against a drug [ 73 ]. For instance, this could be applied to the Ewing’s sarcoma experiment described above.…”

Section: Predicting Drug Sensitivity To Improve Treatment Planningmentioning

confidence: 99%

Evolution-Informed Strategies for Combating Drug Resistance in Cancer

Lin‐Rahardja

Weaver

Scarborough

et al. 2023

IJMS

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The ever-changing nature of cancer poses the most difficult challenge oncologists face today. Cancer’s remarkable adaptability has inspired many to work toward understanding the evolutionary dynamics that underlie this disease in hopes of learning new ways to fight it. Eco-evolutionary dynamics of a tumor are not accounted for in most standard treatment regimens, but exploiting them would help us combat treatment-resistant effectively. Here, we outline several notable efforts to exploit these dynamics and circumvent drug resistance in cancer.

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“…Gene editing can also serve as a therapeutic tool for reducing chemoresistance by knocking in or knocking out associated genes. Gene editing as an approach to overcome drug resistance has been thoroughly reviewed elsewhere [ 224 ]. Briefly, total removal of a gene correlated to resistance would provide more of a long-term response in comparison to RNAi-based therapies and has been shown to provide therapeutic benefits in ovarian cancer.…”

Section: Clinical Relevance and Future Directionsmentioning

confidence: 99%

Mechanisms of Drug Resistance in Ovarian Cancer and Associated Gene Targets

Alatise

Gardner

Alexander-Bryant

2022

Cancers

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In the United States, over 100,000 women are diagnosed with a gynecologic malignancy every year, with ovarian cancer being the most lethal. One of the hallmark characteristics of ovarian cancer is the development of resistance to chemotherapeutics. While the exact mechanisms of chemoresistance are poorly understood, it is known that changes at the cellular and molecular level make chemoresistance challenging to treat. Improved therapeutic options are needed to target these changes at the molecular level. Using a precision medicine approach, such as gene therapy, genes can be specifically exploited to resensitize tumors to therapeutics. This review highlights traditional and novel gene targets that can be used to develop new and improved targeted therapies, from drug efflux proteins to ovarian cancer stem cells. The review also addresses the clinical relevance and landscape of the discussed gene targets.

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CRISPR/Cas9 gene editing: a new approach for overcoming drug resistance in cancer

Cited by 55 publications

References 194 publications

MYCN Impact on High-Risk Neuroblastoma: From Diagnosis and Prognosis to Targeted Treatment

MYCN Impact on High-Risk Neuroblastoma: From Diagnosis and Prognosis to Targeted Treatment

Evolution-Informed Strategies for Combating Drug Resistance in Cancer

Mechanisms of Drug Resistance in Ovarian Cancer and Associated Gene Targets

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