Dendrimers: The tiny tentacles shown to evade our immune response
Tiny synthetic particles known as dendrimers avoid detection by our immune system and could help develop a new way to deliver drugs into the body without triggering a reaction.
Immune evasion is a biological process by which pathogens, tumor cells, or other aberrant cells avoid detection, recognition, or elimination by the host immune system, thereby promoting persistence and proliferation. Mechanisms include antigenic variation, downregulation or loss of major histocompatibility complex (MHC) molecules, expression of immune checkpoint ligands (e.g., PD-L1), secretion of immunosuppressive cytokines, induction of regulatory T cells or myeloid-derived suppressor cells, and shielding of antigens within biofilms or physical barriers. This process critically influences infection chronicity, tumor progression, vaccine efficacy, and the outcome of host–pathogen or host–tumor coevolution.
Tiny synthetic particles known as dendrimers avoid detection by our immune system and could help develop a new way to deliver drugs into the body without triggering a reaction.
Bio & Medicine
Aug 12, 2021
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Immunotherapy has great potential in clinical cancer treatment due to systematic activation of antitumor immunity. However, low immunogenicity, or negative feedback on immunotherapy, greatly hinders the efficacy of currently ...
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A research team, led by Prof. Nathaniel S. Hwang and Prof. Byung-gee Kim, from Seoul National University (SNU) and Prof. Dong Yun Lee, from Hanyang University, has used enzymatic crosslinking to create nanofilms on cell surfaces. ...
Bio & Medicine
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