Autophagy Induced by Palmitic Acid Regulates Neutrophil Adhesion Through the Granule-Dependent Degradation of αMβ2 Integrin in Dairy Cows With Fatty Liver.

Zhicheng Peng,Xinwei Li,Yuxiang Song,Xia Qin,Guowen Liu,Yunfei Li,Yuanyuan Zhang,Xiaobing Li,Chenxu Zhao,Zhe Wang,Xiliang Du,Baochen Fang,Yuchen Yang,Yuming Zhang

doi:10.3389/fimmu.2021.726829

Abstract

β2 integrins are critical for neutrophil firm adhesion, trans-endothelial migration, and the recruitment to the inflamed tissue. Autophagy is implicated in cell migration and tumor metastasis through facilitating the turnover of β1 integrins; however, whether autophagy is able to control neutrophil migration by promoting the degradation of β2 integrins is unexplored. Here, we show that high blood levels of palmitic acid (PA) strongly triggered neutrophil autophagy activation, leading to adhesion deficiency in dairy cows with fatty liver. The three neutrophil granule subtypes, namely, azurophil granules (AGs), specific granules (SGs), and gelatinase granules (GGs), were engulfed by the autophagosomes for degradation, resulting in an increased vacuolation in fatty liver dairy cow neutrophils. Importantly, the adhesion-associated molecules CD11b and CD18 distributed on AGs, SGs, and GGs were degraded with the three granule subtypes by autophagy. Moreover, FGA, Hsc70, and TRIM21 mediated the degradation of cytosolic oxidized–ubiquitinated CD11b and CD18. Collectively, our results demonstrate that high blood PA triggers neutrophil autophagy-dependent vacuolation and granule-dependent adhesion deficiency, decreasing neutrophil mobility, and impairing the innate immune system of dairy cow with fatty liver. This theory extends the category of autophagy in maintaining granule homeostasis and provides a novel strategy to improve the immune of dairy cows with metabolic disease.

Highlights

Neutrophils are highly mobile, and the most abundant innate immune cells
These intracellular granules are distributed with many aMb2 integrins, which are implicated in the regulation of neutrophil firm adhesion via the mechanism of granule mobilization [26]
Our findings showed that enhanced autophagy, increased vacuolation, and adhesion deficiency existed in neutrophils of dairy cows with fatty liver

Summary

Introduction

Neutrophils are highly mobile, and the most abundant innate immune cells. Mature neutrophils are densely packed with three granule subunits, including azurophil granules (AGs), specific granules (SGs), and gelatinase granules (GGs), each of which is an armory of adhesion-related molecules, antimicrobials, and various hydrolytic enzymes [1]. AGs, SGs, and GGs can be Autophagy Control Neutrophil Mobility distinguished by their marker proteins myeloperoxidase (MPO), lactoferrin and matrix metalloprotease-9 (MMP-9), respectively [2,3,4,5]. Many b2 integrins are expressed on neutrophils, including CD11a/CD18 (aLb2), CD11b/CD18 (aMb2), CD11c/CD18 (aXb2), and CD11d/CD18 (aDb2), which mediate neutrophil firm adhesion, trans-endothelial migration and the recruitment to inflamed sites [6,7,8]. The reduction of the CD11b and CD18 on neutrophils due to excessive degradation or genetic damage leads to leukocyte adhesion deficiency (LAD), which inevitably causes immunodeficiency, as shown by recurrent bacterial infections and extending wound healing, such as mastitis and endometritis [11,12,13]

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