Litcius/Paper detail

Nickle-cobalt alloy nanocrystals inhibit activation of inflammasomes

Jun Lin, Liang Dong, Yiming Liu, Yi Hu, Chen Jiang, Ke Liu, Liu Liu, Yonghong Song, Mei Sun, Xing-Cheng Xiang, Kun Qu, Yang Lu, Longping Wen, Shu‐Hong Yu

2023National Science Review26 citationsDOIOpen Access PDF

Abstract

ABSTRACT Activation of inflammasomes—immune system receptor sensor complexes that selectively activate inflammatory responses—has been associated with diverse human diseases, and many nanomedicine studies have reported that structurally and chemically diverse inorganic nanomaterials cause excessive inflammasome activation. Here, in stark contrast to reports of other inorganic nanomaterials, we find that nickel-cobalt alloy magnetic nanocrystals (NiCo NCs) actually inhibit activation of NLRP3, NLRC4 and AIM2 inflammasomes. We show that NiCo NCs disrupt the canonical inflammasome ASC speck formation process by downregulating the lncRNA Neat1, and experimentally confirm that the entry of NiCo NCs into cells is required for the observed inhibition of inflammasome activation. Furthermore, we find that NiCo NCs inhibit neutrophil recruitment in an acute peritonitis mouse model and relieve symptoms in a colitis mouse model, again by inhibiting inflammasome activation. Beyond demonstrating a highly surprising and apparently therapeutic impact for an inorganic nanomaterial on inflammatory responses, our work suggests that nickel- and cobalt-containing nanomaterials may offer an opportunity to design anti-inflammatory nanomedicines for the therapeutics of macrophage-mediated diseases.

Topics & Concepts

InflammasomeNanomaterialsNLRC4CobaltAIM2NanomedicineInnate immune systemInflammationImmune systemChemistryCell biologyCancer researchMaterials scienceNanoparticleNanotechnologyImmunologyMedicineBiologyCaspase 1Inorganic chemistryInflammasome and immune disordersBiomarkers in Disease MechanismsCurcumin's Biomedical Applications