The lab of Filippo Veglia, Ph.D., at The Wistar Institute has discovered a previously unknown mechanism for how aggressive ...

For decades, scientists have explored the potential of bacteria in fighting cancer, but safety and efficacy barriers have ...

A research team led by Prof. Liu Chenli from the Shenzhen Institutes of Advanced Technology of the Chinese Academy of Sciences (CAS) and Prof. Xiao Yichuan from the Shanghai Institute of Nutrition and ...

A research team has elucidated the mechanism behind bacterial cancer therapy using a genetically engineered bacterial strain.

点击蓝字关注我们【导读】肿瘤相关中性粒细胞（TANs）在肿瘤微环境（TME）中积极与抗体药物共轭物（ADCs）相互作用，但它们对ADC治疗反应的详细机制仍有待全面阐明。在这项研究中，团队探讨了ICAM1靶向ADC如何影响宫颈癌临床前模型中的TAN动态 ...

New research published in Cancer Cell suggests that tumour-associated neutrophils can have antitumorigenic ('N1') or protumorigenic ('N2') functions, a plasticity that has been well described for ...

New research has uncovered a mechanism by which brain cancer cells reprogram immune cells from fighting cancer to enabling ...

Scientists have discovered a previously unknown mechanism for how aggressive brain cancers reprogram immune system cells from fighting cancer to enabling further tumor growth.

Triple-negative breast cancer (TNBC) is one of the most aggressive and difficult-to-treat forms of breast cancer, lacking targeted therapies due to its molecular characteristics. Tumor-associated ...

Prior studies in both animals and humans have reported that neutrophils can cross the blood-brain barrier, and although these cells are not typically attracted to glioblastomas, they are recruited at ...

After surgery to remove a tumor, neutrophils recruited to the site spit out sticky webs of DNA that aid cancer recurrence. Kerry served as The Scientist’s news director until 2021. Before joining The ...