Homeostatic and pathogenic roles of GM3 ganglioside molecular species in TLR4 signaling in obesity

Innate immune signaling via TLR4 plays critical roles in pathogenesis of metabolic disorders, but the contribution of different lipid species to metabolic disorders and inflammatory diseases is less clear. GM3 ganglioside in human serum is composed of a variety of fatty acids, including long‐chain (...

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Detalles Bibliográficos
Autores principales: Kanoh, Hirotaka, Nitta, Takahiro, Go, Shinji, Inamori, Kei‐ichiro, Veillon, Lucas, Nihei, Wataru, Fujii, Mayu, Kabayama, Kazuya, Shimoyama, Atsushi, Fukase, Koichi, Ohto, Umeharu, Shimizu, Toshiyuki, Watanabe, Taku, Shindo, Hiroki, Aoki, Sorama, Sato, Kenichi, Nagasaki, Mika, Yatomi, Yutaka, Komura, Naoko, Ando, Hiromune, Ishida, Hideharu, Kiso, Makoto, Natori, Yoshihiro, Yoshimura, Yuichi, Zonca, Asia, Cattaneo, Anna, Letizia, Marilena, Ciampa, Maria, Mauri, Laura, Prinetti, Alessandro, Sonnino, Sandro, Suzuki, Akemi, Inokuchi, Jin‐ichi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7298289/
https://www.ncbi.nlm.nih.gov/pubmed/32378734
http://dx.doi.org/10.15252/embj.2019101732
Descripción
Sumario:Innate immune signaling via TLR4 plays critical roles in pathogenesis of metabolic disorders, but the contribution of different lipid species to metabolic disorders and inflammatory diseases is less clear. GM3 ganglioside in human serum is composed of a variety of fatty acids, including long‐chain (LCFA) and very‐long‐chain (VLCFA). Analysis of circulating levels of human serum GM3 species from patients at different stages of insulin resistance and chronic inflammation reveals that levels of VLCFA‐GM3 increase significantly in metabolic disorders, while LCFA‐GM3 serum levels decrease. Specific GM3 species also correlates with disease symptoms. VLCFA‐GM3 levels increase in the adipose tissue of obese mice, and this is blocked in TLR4‐mutant mice. In cultured monocytes, GM3 by itself has no effect on TLR4 activation; however, VLCFA‐GM3 synergistically and selectively enhances TLR4 activation by LPS/HMGB1, while LCFA‐GM3 and unsaturated VLCFA‐GM3 suppresses TLR4 activation. GM3 interacts with the extracellular region of TLR4/MD2 complex to modulate dimerization/oligomerization. Ligand‐molecular docking analysis supports that VLCFA‐GM3 and LCFA‐GM3 act as agonist and antagonist of TLR4 activity, respectively, by differentially binding to the hydrophobic pocket of MD2. Our findings suggest that VLCFA‐GM3 is a risk factor for TLR4‐mediated disease progression.

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