Abstract
A better understanding of the molecular events responsible for the development of drug resistance in cancer cells has emerged in recent years. It is now established that tumor cells can acquire drug resistance by alterations of pathways involved in the regulation of apoptosis and that failure to activate this pathway in cancer cells may confer resistance to chemotherapy. This resistance to drug-induced apoptosis is likely to play an important role in tumors that are refractory to chemotherapy. The identification of points in the apoptotic pathway at which dysregulation occurs opens up new therapeutic opportunities in situations where conventional cytotoxic chemotherapy approaches fail. Although these gene therapy-based strategies are still in their infancy they will likely lead to more effective treatments for human cancers. This review will focus on gene therapy strategies developed to specifically target the apoptic pathway and how these strategies can affect the sensitivity of tumor cells to chemotherapy.
Call for Papers in Thematic Issues
Epigenetic Mechanisms in Human Diseases and Gene Therapy
Epigenetic mechanisms including DNA methylation, histone post-translational modifications, non-coding RNAs and chromatin remodeling play crucial roles in gene expression. Aberrant epigenetic changes are often correlated with human diseases and metabolic disorders. Since gene expression can be activated/inactivated by reversible epigenetic mechanisms, increasing studies have been focused on epigenetic regulation in ...read more
Gene- and Cell-Based Therapeutics in Prostate Cancer: Emerging Opportunities and Challenges
Prostate cancer is the second most frequently diagnosed cancer in men worldwide and remains a leading cause of cancer mortality. While advances in androgen receptor–targeted therapies, radioligand treatment, and immunotherapy have improved outcomes, resistance and disease progression continue to present major challenges. Recent breakthroughs in gene and cell therapies — ...read more
Programmed Cell Death Genes in Oncology: Pioneering Therapeutic and Diagnostic Frontiers
Programmed cell death (PCD) is recognized as a pivotal biological mechanism with far-reaching effects in the realm of cancer therapy. This complex process encompasses a variety of cell death modalities, including apoptosis, autophagic cell death, pyroptosis, and ferroptosis, each of which contributes to the intricate landscape of cancer development and ...read more
The Now and Future of Gene Transfer Technologies
Gene and cell therapies rely on a gene delivery system which is safe and effective. Both viral and non-viral vector systems are available with specific pros and cons. The choice of a vector system is largely dependent on the application which is a balance between target tissue/disease and safety, efficacy ...read more
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