A Dietary Commensal Microbe Enhances Antitumor Immunity by Activating Tumor Macrophages to Sequester Iron

Overview

Journal Nat Immunol

Date 2024 Apr 25

PMID 38664585

Authors

Garima Sharma

Amit Sharma

Inhae Kim

Dong Gon Cha

Somi Kim

Eun Seo Park

Jae Gyun Noh

JuHee Lee

Ja Hyeon Ku

Yoon Ha Choi

JungHo Kong

Haena Lee

Haeun Ko

Juhun Lee

Anna Notaro

Seol Hee Hong

Joon Haeng Rhee

Sang Geon Kim

Cristina De Castro

Antonio Molinaro

Kunyoo Shin

Sanguk Kim

Jong Kyoung Kim

Dipayan Rudra

Sin-Hyeog Im

Affiliations

Soon will be listed here.

Abstract

Innate immune cells generate a multifaceted antitumor immune response, including the conservation of essential nutrients such as iron. These cells can be modulated by commensal bacteria; however, identifying and understanding how this occurs is a challenge. Here we show that the food commensal Lactiplantibacillus plantarum IMB19 augments antitumor immunity in syngeneic and xenograft mouse tumor models. Its capsular heteropolysaccharide is the major effector molecule, functioning as a ligand for TLR2. In a two-pronged manner, it skews tumor-associated macrophages to a classically active phenotype, leading to generation of a sustained CD8 T cell response, and triggers macrophage 'nutritional immunity' to deploy the high-affinity iron transporter lipocalin-2 for capturing and sequestering iron in the tumor microenvironment. This process induces a cycle of tumor cell death, epitope expansion and subsequent tumor clearance. Together these data indicate that food commensals might be identified and developed into 'oncobiotics' for a multi-layered approach to cancer therapy.

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