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Metabolic adaptation to tissue iron overload confers tolerance to malaria.

Cell host & microbe (2012-11-20)
Raffaella Gozzelino, Bruno Bezerril Andrade, Rasmus Larsen, Nivea F Luz, Liviu Vanoaica, Elsa Seixas, Antonio Coutinho, Sílvia Cardoso, Sofia Rebelo, Maura Poli, Manoel Barral-Netto, Deepak Darshan, Lukas C Kühn, Miguel P Soares
ZUSAMMENFASSUNG

Disease tolerance is a defense strategy that limits the fitness costs of infection irrespectively of pathogen burden. While restricting iron (Fe) availability to pathogens is perceived as a host defense strategy, the resulting tissue Fe overload can be cytotoxic and promote tissue damage to exacerbate disease severity. Examining this interplay during malaria, the disease caused by Plasmodium infection, we find that expression of the Fe sequestering protein ferritin H chain (FtH) in mice, and ferritin in humans, is associated with reduced tissue damage irrespectively of pathogen burden. FtH protection relies on its ferroxidase activity, which prevents labile Fe from sustaining proapoptotic c-Jun N-terminal kinase (JNK) activation. FtH expression is inhibited by JNK activation, promoting tissue Fe overload, tissue damage, and malaria severity. Mimicking FtH's antioxidant effect or inhibiting JNK activation pharmacologically confers therapeutic tolerance to malaria in mice. Thus, FtH provides metabolic adaptation to tissue Fe overload, conferring tolerance to malaria.

MATERIALIEN
Produktnummer
Marke
Produktbeschreibung

Sigma-Aldrich
Apoferritin aus Pferdemilz
Sigma-Aldrich
Apoferritin aus Pferdemilz, 0.2 μm filtered