TY - JOUR
T1 - Lipocalin-2 promotes adipose–macrophage interactions to shape peripheral and central inflammatory responses in experimental autoimmune encephalomyelitis
AU - Sciarretta, Francesca
AU - Ceci, Veronica
AU - Tiberi, Marta
AU - Zaccaria, Fabio
AU - Li, Haoyun
AU - Zhou, Zhong Yan
AU - Sun, Qiyang
AU - Konja, Daniels
AU - Matteocci, Alessandro
AU - Bhusal, Anup
AU - Verri, Martina
AU - Fresegna, Diego
AU - Balletta, Sara
AU - Ninni, Andrea
AU - Di Biagio, Claudia
AU - Rosina, Marco
AU - Suk, Kyoungho
AU - Centonze, Diego
AU - Wang, Yu
AU - Chiurchiù, Valerio
AU - Aquilano, Katia
AU - Lettieri-Barbato, Daniele
N1 - Publisher Copyright:
© 2023 The Author(s)
PY - 2023/10
Y1 - 2023/10
N2 - Objective: Accumulating evidence suggests that dysfunctional adipose tissue (AT) plays a major role in the risk of developing multiple sclerosis (MS), the most common immune-mediated and demyelinating disease of the central nervous system. However, the contribution of adipose tissue to the etiology and progression of MS is still obscure. This study aimed at deciphering the responses of AT in experimental autoimmune encephalomyelitis (EAE), the best characterized animal model of MS. Results and Methods: We observed a significant AT loss in EAE mice at the onset of disease, with a significant infiltration of M1-like macrophages and fibrosis in the AT, resembling a cachectic phenotype. Through an integrative and multilayered approach, we identified lipocalin2 (LCN2) as the key molecule released by dysfunctional adipocytes through redox-dependent mechanism. Adipose-derived LCN2 shapes the pro-inflammatory macrophage phenotype, and the genetic deficiency of LCN2 specifically in AT reduced weight loss as well as inflammatory macrophage infiltration in spinal cord in EAE mice. Mature adipocytes downregulating LCN2 reduced lipolytic response to inflammatory stimuli (e.g. TNFα) through an ATGL-mediated mechanism. Conclusions: Overall data highlighted a role LCN2 in exacerbating inflammatory phenotype in EAE model, suggesting a pathogenic role of dysfunctional AT in MS.
AB - Objective: Accumulating evidence suggests that dysfunctional adipose tissue (AT) plays a major role in the risk of developing multiple sclerosis (MS), the most common immune-mediated and demyelinating disease of the central nervous system. However, the contribution of adipose tissue to the etiology and progression of MS is still obscure. This study aimed at deciphering the responses of AT in experimental autoimmune encephalomyelitis (EAE), the best characterized animal model of MS. Results and Methods: We observed a significant AT loss in EAE mice at the onset of disease, with a significant infiltration of M1-like macrophages and fibrosis in the AT, resembling a cachectic phenotype. Through an integrative and multilayered approach, we identified lipocalin2 (LCN2) as the key molecule released by dysfunctional adipocytes through redox-dependent mechanism. Adipose-derived LCN2 shapes the pro-inflammatory macrophage phenotype, and the genetic deficiency of LCN2 specifically in AT reduced weight loss as well as inflammatory macrophage infiltration in spinal cord in EAE mice. Mature adipocytes downregulating LCN2 reduced lipolytic response to inflammatory stimuli (e.g. TNFα) through an ATGL-mediated mechanism. Conclusions: Overall data highlighted a role LCN2 in exacerbating inflammatory phenotype in EAE model, suggesting a pathogenic role of dysfunctional AT in MS.
KW - Adipocyte
KW - Adipose tissue
KW - Cachexia
KW - Immune cells
KW - Lipid metabolism
KW - Macrophages
KW - Mitochondria
UR - http://www.scopus.com/inward/record.url?scp=85167611627&partnerID=8YFLogxK
U2 - 10.1016/j.molmet.2023.101783
DO - 10.1016/j.molmet.2023.101783
M3 - Article
C2 - 37517520
AN - SCOPUS:85167611627
SN - 2212-8778
VL - 76
JO - Molecular Metabolism
JF - Molecular Metabolism
M1 - 101783
ER -