Zhengmao Zhang scite author profile

Renal fibrosis is a final common manifestation of CKD resulting in progressive loss of kidney function. Bone marrow-derived fibroblast precursors contribute significantly to the pathogenesis of renal fibrosis. However, the signaling mechanisms underlying the activation of bone marrow-derived fibroblast precursors in the kidney are not fully understood. In this study, we investigated the role of the Janus kinase 3 (JAK3)/ signal transducer and activator of transcription (STAT6) signaling pathway in the activation of bone marrowderived fibroblasts. In cultured mouse monocytes, IL-4 or IL-13 activated STAT6 and induced expression of a-smooth muscle actin and extracellular matrix proteins (fibronectin and collagen I), which was abolished by a JAK3 inhibitor (CP690,550) in a dose-dependent manner or blocked in the absence of STAT6. In vivo, STAT6 was activated in interstitial cells of the obstructed kidney, an effect that was abolished by CP690,550. Mice treated with CP690,550 accumulated fewer bone marrow-derived fibroblasts in the obstructed kidneys compared with vehicle-treated mice. Treatment with CP690,550 also significantly reduced myofibroblast transformation, matrix protein expression, fibrosis development, and apoptosis in obstructed kidneys. Furthermore, STAT6-deficient mice accumulated fewer bone marrow-derived fibroblasts in the obstructed kidneys, produced less extracellular matrix protein, and developed much less fibrosis. Finally, wild-type mice engrafted with STAT6 2/2 bone marrow cells displayed fewer bone marrow-derived fibroblasts in the obstructed kidneys and showed less severe renal fibrosis compared with wild-type mice engrafted with STAT6 +/+ bone marrow cells. Our results demonstrate that JAK3/STAT6 has an important role in bone marrow-derived fibroblast activation, extracellular matrix production, and interstitial fibrosis development.

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Smad3 Differentially Regulates the Induction of Regulatory and Inflammatory T Cell Differentiation

Martínez

Zhang

Chung

et al. 2009

Journal of Biological Chemistry

105

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Transforming growth factor ␤ (TGF-␤) is a crucial cytokine with pleiotropic functions on immune cells. In CD4؉ T cells, TGF-␤ is required for induction of both regulatory T and Th17 cells. However, the molecular mechanism underlying this differential T cell fate decision remains unclear. In this study, we have evaluated the role of Smad3 in the development of Th17 and regulatory T cells. Smad3 was found to be dispensable for natural regulatory T cell function. However, induction of Foxp3 expression by TGF-␤ in naive T cells was significantly reduced in the absence of this molecule. On the contrary, Smad3 deficiency led to enhanced Th17 differentiation in vitro and in vivo. Moreover, Smad3 was found to interact with retinoid acid receptor-related orphan receptor ␥t (ROR␥t) and decrease its transcriptional activity. These results demonstrate that Smad3 is differentially involved in the reciprocal regulatory and inflammatory T cell generation.

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Smad2 Positively Regulates the Generation of Th17 Cells*

Martínez

Zhang

Reynolds

et al. 2010

Journal of Biological Chemistry

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Ppm1b negatively regulates necroptosis through dephosphorylating Rip3

et al. 2015

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The auto-phosphorylation of murine receptor-interacting protein 3 (Rip3) on Thr 231 and Ser 232 in the necrosome is required to trigger necroptosis. However, how Rip3 phosphorylation is regulated is still largely unknown. Here we identified protein phosphatase 1B (Ppm1b) as a Rip3 phosphatase and found that Ppm1b restricts necroptosis in two settings: spontaneous necroptosis caused by Rip3 auto-phosphorylation in resting cells, and tumour necrosis factor-α (TNF)-induced necroptosis in cultured cells. We revealed that Ppm1b selectively suppresses necroptosis through the dephosphorylation of Rip3, which then prevents the recruitment of mixed lineage kinase domain-like protein (Mlkl) to the necrosome. We further showed that Ppm1b deficiency (Ppm1bd/d) in mice enhanced TNF-induced death in a Rip3-dependent manner, and the role of Ppm1b in inhibiting necroptosis was evidenced by elevated Rip3 phosphorylation and tissue damage in the caecum of TNF-treated Ppm1bd/d mice. These data indicate that Ppm1b negatively regulates necroptosis through dephosphorylating Rip3 in vitro and in vivo.

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Zhengmao Zhang

JAK3/STAT6 Stimulates Bone Marrow–Derived Fibroblast Activation in Renal Fibrosis

Smad3 Differentially Regulates the Induction of Regulatory and Inflammatory T Cell Differentiation

Smad2 Positively Regulates the Generation of Th17 Cells*

Ppm1b negatively regulates necroptosis through dephosphorylating Rip3

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