A self-sustained loop of inflammation-driven inhibition of beige adipogenesis in obesity.
Kyoung-Jin ChungAntonios ChatzigeorgiouMatina EconomopoulouRuben Garcia-MartinVasileia I AlexakiIoannis MitroulisMarina NatiJanine GeblerTjalf ZiemssenSusan E GoelzJulia PhielerJong-Hyung LimKatia P KaralisThalia PapayannopoulouMatthias BlüherGeorge HajishengallisTriantafyllos ChavakisPublished in: Nature immunology (2017)
In obesity, inflammation of white adipose tissue (AT) is associated with diminished generation of beige adipocytes ('beige adipogenesis'), a thermogenic and energy-dissipating function mediated by beige adipocytes that express the uncoupling protein UCP1. Here we delineated an inflammation-driven inhibitory mechanism of beige adipogenesis in obesity that required direct adhesive interactions between macrophages and adipocytes mediated by the integrin α4 and its counter-receptor VCAM-1, respectively; expression of the latter was upregulated in obesity. This adhesive interaction reciprocally and concomitantly modulated inflammatory activation of macrophages and downregulation of UCP1 expression dependent on the kinase Erk in adipocytes. Genetic or pharmacological inactivation of the integrin α4 in mice resulted in elevated expression of UCP1 and beige adipogenesis of subcutaneous AT in obesity. Our findings, established in both mouse systems and human systems, reveal a self-sustained cycle of inflammation-driven impairment of beige adipogenesis in obesity.
Keyphrases
- high fat diet induced
- insulin resistance
- adipose tissue
- oxidative stress
- metabolic syndrome
- poor prognosis
- type diabetes
- weight loss
- high fat diet
- skeletal muscle
- binding protein
- signaling pathway
- genome wide
- weight gain
- gene expression
- transcription factor
- dna methylation
- body mass index
- nitric oxide
- cell migration
- cell adhesion
- protein protein