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Stem-like T cells could improve immunotherapy treatments
Targeting stem-like T cells within certain lymph nodes could improve the number of cancer patients that respond to immunotherapy treatments.
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Immunooncology
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RN7SL1 RNA shown to activate T cells to fight against cancer
A new study found that the RNA RN7SL1 can activate T cells to seek out cancer cells, potentially improving cellular treatments.
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Drug Target Review update: exclusive report, online summit and more!
Hear about the latest Drug Target Review updates from Deputy Editor Victoria Rees who discusses our new report on AI & Informatics, the Cell & Gene Therapy Advancements online summit and much more!
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High-intensity focused ultrasound therapy moves closer to the clinic
Researchers are investigating how high-intensity focused ultrasound (HIFU) can work on a cellular level to treat a range of cancers.
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Existing drug may improve immune response to leukaemia treatment
Researchers identified the inhibitor JQ1 as a potential drug to improve immune response to CAR T-cell therapies in leukaemia patients.
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Enzyme discovery could fight against cancer and viral infections
A new study has identified a vital enzyme, known as APOBEC3A, that could lead to new treatments against cancers and viral infections.
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New nanotechnology could combat colorectal cancer and melanoma
A nanotherapeutic delivery system displayed high efficacy against metastatic tumours in mice, potentially improving chemotherapy treatments.
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Triple drug combination shows promise for pancreatic cancer treatment
MIT researchers have shown that a combination of three drugs can eliminate pancreatic tumours in mice, possibly leading to new therapies.
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Therapeutic target for aggressive cancers discovered through CRISPR
The RNA-modifying protein METTL1 could be targeted to treat some types of aggressive cancers, including brain, blood and kidney.
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Removal of RNA-binding protein improves leukaemia survival
Study shows that removing the protein IGF2BP3 slows cancer growth and increases chances of survival of rare types of leukaemia in mice.
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AKT degrader may become a new, effective treatment for many cancers
Researchers have discovered a therapeutic agent that is effective in vitro at disrupting a biological pathway that helps cancer survive.
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Inhibiting PIP4K enzymes could help immune system fight cancer
Researchers identified a potential therapeutic involving the inhibition of PIP4K enzymes which could enable the immune system to destroy tumour cells.
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Personalised organoid models may improve immunotherapy treatment
Researchers have used patient-specific tumour organoid models to improve immunotherapy treatments for appendiceal cancer.
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Lentiviral vectors: the key to cancer treatments that CAR T-cell therapy cannot reach?
Professor Christian Brechot explains why lentiviral vectors could serve as an effective tool for treating a wide range of cancers and could be used for vaccines.
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Protein activation discovery could widen access to cancer immunotherapy
The activation of the protein p53 was shown to boost immune responses against cancer tumours in mice in a new study, potentially widening access to immunotherapy.
