Bifidobacterium pseudocatenulatum extracellular vesicles promote Ly6G+ granulocyte infiltration to inhibit melanoma tumour progression
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Harnessing the immunomodulatory capacity of commensal bacteria is an emerging avenue in cancer therapy. Bacterial extracellular vesicles (BEVs) provide a non-replicating, nanoscale alternative to live microbes with the potential for safer systemic delivery. Here, we investigated BEVs from a novel Gram-positive strain of Bifidobacterium pseudocatenulatum (Bif-210). Intravenous administration of Bif-210 BEVs reduced B16-F10 melanoma growth in C57BL/6J mice. Mechanistically, BEVs increased tumour-infiltrating Ly6G+ granulocytes in vivo , increased CD11b+Ly6G+ and ICAM-1+Ly6G+ bone marrow populations, and induced production of the neutrophil-attracting chemokines KC/CXCL1 (mouse) and IL-8 (human). Although Ly6G+ depletion independently inhibited tumour growth, it did not combine additively with BEVs, supporting a model in which Bif-210 BEVs alter Ly6G+ granulocyte function rather than simply expanding a conventional pro-tumour granulocyte pool. BEVs activated TLR2, did not activate TLR4, and upregulated TLR2 on Ly6G+ cells, while proxy assays provided no evidence of NETosis-associated activation. Repeated intravenous BEV administration produced no overt toxicity by tissue histology, body temperature, or body weight monitoring. These findings position B. pseudocatenulatum BEVs as a promising systemic immunotherapy that recruits and re-educates granulocytes via a TLR2-centred pathway to restrain melanoma progression.
HIGHLIGHTS
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Intravenous Bif-210 BEVs reduce established B16-F10 melanoma growth in mice.
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Bif-210 BEVs selectively increase tumour-associated Ly6G+ granulocytes.
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BEV treatment and Ly6G depletion are non-additive, linking BEV activity to granulocyte biology.
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Bif-210 BEVs expand Ly6G+ bone marrow populations and induce granulocyte-recruiting chemokines.
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Bif-210 BEVs engage TLR2 and enhance granulocyte fitness without NETosis-associated activation.