Oncogene addiction: Difference between revisions

Oncogene addiction refers to the phenomenon where the survival and proliferation of a cancer cell are dependent on a single oncogene or a few oncogenes despite the presence of multiple genetic alterations. This concept has significant implications for cancer therapy, as targeting the critical oncogene(s) can lead to tumor regression and potentially, a therapeutic breakthrough. The term was first proposed by Bernard Weinstein in the early 2000s, highlighting a potential vulnerability in cancer cells that could be exploited for treatment.

Overview[edit]

Cancer cells typically harbor numerous genetic and epigenetic alterations that drive their malignant behavior. However, the concept of oncogene addiction suggests that among these numerous alterations, the malignant phenotype of cancer cells, including their ability to grow and survive, is disproportionately dependent on one or a few oncogenes. This dependency creates a therapeutic window where targeting the addicted oncogene can lead to a dramatic clinical response, often with the regression of the tumor and improved survival rates for patients.

Mechanisms[edit]

The mechanisms underlying oncogene addiction are complex and multifaceted, involving changes at the genetic, epigenetic, transcriptional, and post-translational levels. Some proposed mechanisms include:

- Synthetic lethality: where the inhibition of the addicted oncogene leads to cell death only in the presence of other genetic alterations. - Oncogenic shock: a rapid induction of cell death or senescence upon the inhibition of the oncogene. - Network rewiring: cancer cells may rewire their signaling networks around the addicted oncogene, making them particularly vulnerable to its inhibition.

Clinical Implications[edit]

The concept of oncogene addiction has profound implications for the development of targeted cancer therapies. Drugs that specifically inhibit the activity of addicted oncogenes can, in theory, selectively kill cancer cells while sparing normal cells, leading to fewer side effects. Examples of successful targeted therapies exploiting oncogene addiction include imatinib for chronic myeloid leukemia (CML) targeting the BCR-ABL fusion protein, and trastuzumab for HER2-positive breast cancer.

Challenges and Future Directions[edit]

Despite the promise of targeting oncogene addiction in cancer therapy, several challenges remain. These include the development of resistance to targeted therapies, the identification of the addicted oncogene(s) in heterogeneous tumors, and the need for combination therapies to prevent or overcome resistance. Future research is focused on better understanding the molecular basis of oncogene addiction, developing more effective and selective inhibitors, and identifying biomarkers to predict response to targeted therapies.

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