Stiffening cancer cells boosts car t-cell therapy in mice

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Researchers have found that making cancer cells stiffer can enhance the effectiveness of car t-cell therapy against aggressive tumors. In experiments with mice, the approach led to complete tumor disappearance in some cases. The findings were presented recently at a conference in London.

Cancer cells are often softer than healthy ones due to higher cholesterol levels in their membranes. This softness may help them evade immune attacks. Scientists at the Swiss Federal Technology Institute of Lausanne tested whether stiffening these cells could improve immunotherapy outcomes.

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Microscopic view of enhanced natural killer cells attacking cancer cells due to a drug developed by McGill researchers.
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McGill researchers use reversible drug approach to boost natural killer cells against hard-to-treat cancers

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Researchers at McGill University report a drug-based method to temporarily enhance natural killer (NK) cells—an immune cell type—by inhibiting two proteins, improving the cells’ ability to attack several aggressive cancers in preclinical experiments.

3D-printed structures could speed up car t-cell therapy

Researchers have developed 3D-printed gels that mimic lymph nodes to improve the production of CAR T-cells for cancer treatment. The approach increased success rates and sped up cell growth compared with standard methods. It may help lower costs and expand access to the therapy worldwide.

Protein found to limit CAR T-cell therapy effectiveness

Ti AI ṣe iroyin

A protein called NFIL3 has been identified as a key factor in reducing the long-term performance of CAR T cells used in cancer treatment. Researchers showed that disabling this protein allows the engineered cells to remain active longer and fight tumors more effectively in laboratory models.

Health

Study identifies SLAMF6 as a self-activating brake on anti-cancer T cells, pointing to a new immunotherapy target

Europe

CAR-T therapy achieves complete remission of three autoimmune diseases in German woman

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UCLA scientists reverse liver damage in mice by removing zombie cells

Engineered phages redirect vaccine immunity to eradicate tumors in mice

Researchers have used genetically modified phages to harness pre-existing vaccine immunity and destroy cancer cells in mice. The approach eradicated tumors in 44 percent of treated animals with no recurrence after a year.

Scientists find MYC protein helps cancers resist chemotherapy

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A new study reveals that the MYC protein does more than drive tumor growth. It also repairs DNA damage in cancer cells, allowing some tumors to survive chemotherapy and radiation.

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CAR-T cell therapy shows early promise for HIV control

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Rebooting stem cells builds bigger muscles in aged mice

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Canadian researchers uncover brain cells fueling glioblastoma growth

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