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HEALTHOCT 05, 2024

Reprogrammed Immune Response Could Hold Key to Cancer Cure

A PIECE BYJOVIĆ DRAGANA
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Groundbreaking research reveals that immune cells, once thought to promote cancer growth, can be reprogrammed to fight cancer. Neutrophils, a type of immune cell, can switch from supporting tumor development to attacking cancer cells, opening up new avenues for immunotherapy.

Recent studies are shedding new light on an immune response that was once thought to support cancer growth, but now appears to offer a potential cure. The research, published in Nature, explores how certain immune cells, specifically neutrophils, which were once believed to aid tumor growth, can be reprogrammed to attack and destroy cancer cells. This breakthrough may lead to the development of new therapies that harness the immune system’s natural defenses to fight cancer more effectively, offering hope for long-term remission and even cures.

Reprogramming the Immune System

The key finding in this research centers on reprogramming neutrophils—immune cells that usually respond to inflammation. These cells can sometimes support tumor growth by helping to create an environment conducive to cancer development. However, under certain conditions, neutrophils can be transformed into cancer-fighting agents. Scientists discovered that they can change their behavior to directly attack cancer cells and inhibit metastasis, reversing their typical role of aiding tumor progression.

Neutrophils and Cancer Progression

In many cancers, including lung and breast cancer, neutrophils are attracted to tumors by signals released by the cancer cells themselves. Once there, they can support tumor growth by enhancing blood vessel formation (angiogenesis), which helps supply nutrients to the tumor. The research, conducted by teams at EPFL (École Polytechnique Fédérale de Lausanne) and other institutions, found that by manipulating these signaling pathways, neutrophils can be switched from pro-tumor to anti-tumor agents. This discovery is particularly exciting because neutrophils are among the most abundant immune cells in the body, meaning the potential for therapeutic impact is immense.

The Role of Long-Term Memory in Immune Responses

The findings also explore how this immune response could provide long-term memory, meaning that once reprogrammed, the immune system might continue fighting cancer long after the initial treatment. This is similar to how vaccines work, where the immune system learns to recognize and fight off pathogens. If the immune system can remember cancer cells in the same way, it could prevent recurrence in patients, potentially offering a long-term cure.

A New Approach to Immunotherapy

This research adds to the growing body of evidence supporting immunotherapy, a treatment approach that enhances the body’s own immune system to fight cancer. Unlike traditional treatments such as chemotherapy or radiation, which can have severe side effects and are not always effective in preventing relapse, immunotherapy seeks to activate the patient’s immune system to target cancer cells specifically. By harnessing and enhancing the immune system’s natural defenses, these therapies may offer a more targeted and sustainable approach to cancer treatment.

Implications for Future Cancer Treatment

The implications of this discovery are far-reaching. By understanding how to reprogram neutrophils and other immune cells to fight cancer, scientists could develop new drugs or treatments that offer more effective ways to combat various forms of cancer. This breakthrough could also lead to new combinations of treatments, integrating immune reprogramming with existing therapies like checkpoint inhibitors, which are already being used in cancer immunotherapy.

Moving Forward

While these findings are promising, further research is needed to understand how to best apply these immune-reprogramming techniques in clinical settings. Early trials and preclinical studies will be crucial in determining the safety and efficacy of these treatments in humans. However, the potential to turn a formerly harmful immune response into a life-saving therapy is a significant step forward in the fight against cancer.

Conclusion

The discovery that the immune system’s response can be reprogrammed to fight cancer opens up exciting new possibilities for cancer treatment. By leveraging the body’s natural defenses, this approach could lead to more effective, long-term cancer treatments with fewer side effects. As scientists continue to explore this strategy, it may one day become a cornerstone of cancer therapy, offering hope for patients around the world.

You can explore the studies in detail here:

  1. Nature Study 1
  2. Nature Study 2
  3. EPFL News

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