A Role for Fungal {beta}-glucans and Their Receptor Dectin-1 in the Induction of Autoimmune Arthritis in Genetically Susceptible Mice

Overview

Journal J Exp Med

Specialties Allergy & Immunology
General Medicine

Date 2005 Mar 23

PMID 15781585

Citations 179

Authors

Hiroyuki Yoshitomi

Noriko Sakaguchi

Katsuya Kobayashi

Gordon D Brown

Tomoyuki Tagami

Toshiko Sakihama

Keiji Hirota

Satoshi Tanaka

Takashi Nomura

Ichiro Miki

Siamon Gordon

Shizuo Akira

Takashi Nakamura

Shimon Sakaguchi

Affiliations

Soon will be listed here.

Abstract

A combination of genetic and environmental factors can cause autoimmune disease in animals. SKG mice, which are genetically prone to develop autoimmune arthritis, fail to develop the disease under a microbially clean condition, despite active thymic production of arthritogenic autoimmune T cells and their persistence in the periphery. However, in the clean environment, a single intraperitoneal injection of zymosan, a crude fungal beta-glucan, or purified beta-glucans such as curdlan and laminarin can trigger severe chronic arthritis in SKG mice, but only transient arthritis in normal mice. Blockade of Dectin-1, a major beta-glucan receptor, can prevent SKG arthritis triggered by beta-glucans, which strongly activate dendritic cells in vitro in a Dectin-1-dependent but Toll-like receptor-independent manner. Furthermore, antibiotic treatment against fungi can prevent SKG arthritis in an arthritis-prone microbial environment. Multiple injections of polyinosinic-polycytidylic acid double-stranded RNA also elicit mild arthritis in SKG mice. Thus, specific microbes, including fungi and viruses, may evoke autoimmune arthritis such as rheumatoid arthritis by stimulating innate immunity in individuals who harbor potentially arthritogenic autoimmune T cells as a result of genetic anomalies or variations.

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