Nrf2 ameliorates diabetic nephropathy progression by transcriptional repression of TGF beta 1 through interactions with c-Jun and SP1

Nrf2 ameliorates diabetic nephropathy progression by transcriptional repression of TGF beta 1 through interactions with c-Jun and SP1

Diabetic nephropathy (DN) is one of the major complications in diabetes patients. Reactive oxygen species (ROS) play key roles in DN progression. As a primary transcription factor, Nrf2 controls the antioxidant response to maintain cellular redox homeostasis. Herein we systemically examined the role...

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Veröffentlicht in:Biochimica et biophysica acta. Gene regulatory mechanisms 2014-11, Vol.1839 (11), p.1110-1120
Hauptverfasser: Gao, Pan, Li, Liliang, Ji, Lili, Wei, Yingze, Li, Hui, Shang, Guoguo, Zhao, Zhonghua, Chen, Qi, Jiang, Tao, Zhang, Nong
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container_end_page 1120
container_issue 11
container_start_page 1110
container_title Biochimica et biophysica acta. Gene regulatory mechanisms
container_volume 1839
creator Gao, Pan
Li, Liliang
Ji, Lili
Wei, Yingze
Li, Hui
Shang, Guoguo
Zhao, Zhonghua
Chen, Qi
Jiang, Tao
Zhang, Nong
description Diabetic nephropathy (DN) is one of the major complications in diabetes patients. Reactive oxygen species (ROS) play key roles in DN progression. As a primary transcription factor, Nrf2 controls the antioxidant response to maintain cellular redox homeostasis. Herein we systemically examined the role of Nrf2 in DN progression and its regulatory mechanism in a mouse model bearing type II diabetes and in cultured human renal mesangial cells (HRMCs). We found that Nrf2 could ameliorate DN progression by transcriptional repression of TGF beta 1 in vivo and in vitro. Moreover, Nrf2 bound to the specific region in TGF beta 1 promoter by interactions with transcription factors c-Jun and SP1. Significant abolishment of Nrf2-mediated TGF beta 1 transcriptional repression could be accomplished by knockdown of either c-Jun or SP1, and site-directed mutagenesis of c-Jun and SP1 binding sites in the TGF beta 1 promoter specific region. Moreover, after interacting with c-Jun and SP1, Nrf2 inhibited c-Jun and SP1 activations, and thus reversed c-Jun- and SP1-promoted TGF beta 1 transcription. In all, Nrf2 could slow down DN progression by repression of TGF beta 1 in a c-Jun and SP1-dependent way. Our findings may provide novel clues for DN preventions and interventions in clinic.
doi_str_mv 10.1016/j.bbagrm.2014.06.018
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title Nrf2 ameliorates diabetic nephropathy progression by transcriptional repression of TGF beta 1 through interactions with c-Jun and SP1
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