Abstract
Beige adipocyte differentiation within white adipose tissue, referred to as browning, is seen as a possible mechanism for increasing energy expenditure. The molecular regulation underlying the thermogenic browning process has not been entirely elucidated. Here, we identify the zinc finger transcription factor EGR1 as a negative regulator of the beige fat program. Loss of Egr1 in mice promotes browning in the absence of external stimulation and leads to an increase of Ucp1 expression, which encodes the key thermogenic mitochondrial uncoupling protein-1. Moreover, EGR1 is recruited to the proximal region of the Ucp1 promoter in subcutaneous inguinal white adipose tissue. Transcriptomic analysis of subcutaneous inguinal white adipose tissue in the absence of Egr1 identifies the molecular signature of white adipocyte browning downstream of Egr1 deletion and highlights a concomitant increase of beige differentiation marker and a decrease in extracellular matrix gene expression. Conversely, Egr1 overexpression in mesenchymal stem cells decreases beige adipocyte differentiation, while increasing extracellular matrix production. These results reveal a role for Egr1 in blocking energy expenditure via direct Ucp1 transcription repression and highlight Egr1 as a therapeutic target for counteracting obesity.
Highlights
White fat browning is a mechanism that produces heat and limits weight gain
To understand how Egr[1] can both be linked with obesity and adverse metabolic outcomes while repressing differentiation of white adipocytes in culture, we investigated the role of Egr[1] in white adipose tissue development during the postnatal period in female mice
Egr1−/− mice display inguinal subcutaneous white adipose tissue browning with no external stimulation
Summary
Egr1−/− mice display inguinal subcutaneous white adipose tissue browning with no external stimulation. The spontaneous WAT browning in Egr1−/− mice and the direct transcriptional regulation of Ucp[1] gene by EGR1 in SC-WAT suggested that EGR1 repressed beige adipocyte differentiation. (B,C) RT-qPCR analysis of the expression levels for generic adipocyte differentiation markers Cebpb, Ppara, beige adipocyte differentiation marker, Ppargc1a, Cox8b, Cidea, Dio[2], Pank[1], Plin[5], Ogdh and Sucla[2] in SC-WAT of 2-week-old (B) and 4-month-old (C) Egr1−/− mice compared to Egr1+/+ mice. Egr[1] loss-of-function causes the overexpression of the beige adipocyte differentiation genes Cebpb and Ppargc[1], which both activate the expression of the thermogenic marker Ucp[1] through a recruitment to its promoter[18,53] (Fig. 7B). This study identifies Egr[1] deficiency as a therapeutic approach to counteract obesity
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