Ju Wang scite author profile

The progression of progenitors to oligodendrocytes requires proliferative arrest and the activation of a transcriptional program of differentiation. While regulation of cell cycle exit has been extensively characterized, the molecular mechanisms responsible for the initiation of differentiation remain ill-defined. Here, we identify the transcription factor Yin Yang 1 (YY1) as a critical regulator of oligodendrocyte progenitor differentiation. Conditional ablation of yy1 in the oligodendrocyte lineage in vivo induces a phenotype characterized by defective myelination, ataxia, and tremor. At the cellular level, lack of yy1 arrests differentiation of oligodendrocyte progenitors after they exit from the cell cycle. At the molecular level, YY1 acts as a lineage-specific repressor of transcriptional inhibitors of myelin gene expression (Tcf4 and Id4), by recruiting histone deacetylase-1 to their promoters during oligodendrocyte differentiation. Thus, we identify YY1 as an essential component of the transcriptional network regulating the transition of oligodendrocyte progenitors from cell cycle exit to differentiation.

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A GABAergic system in airway epithelium is essential for mucus overproduction in asthma

Wang

Liu

et al. 2007

Nat Med

177

216

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Gamma-aminobutyric acid (GABA) is an important neurotransmitter that, through the subtype A GABA receptor (GABAAR), induces inhibition in the adult brain. Here we show that an excitatory, rather than inhibitory, GABAergic system exists in airway epithelial cells. Both GABAARs and the GABA synthetic enzyme glutamic acid decarboxylase (GAD) are expressed in pulmonary epithelial cells. Activation of GABAARs depolarized these cells. The expression of GAD in the cytosol and GABAARs in the apical membranes of airway epithelial cells increased markedly when mice were sensitized and then challenged with ovalbumin, an approach for inducing allergic asthmatic reactions. Similarly, GAD and GABAARs in airway epithelial cells of humans with asthma increased after allergen inhalation challenge. Intranasal application of selective GABAAR inhibitors suppressed the hyperplasia of goblet cells and the overproduction of mucus induced by ovalbumin or interleukin-13 in mice. These findings show that a previously unknown epithelial GABAergic system has an essential role in asthma.

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Interleukin-2 Activity Can Be Fine Tuned with Engineered Receptor Signaling Clamps

et al. 2015

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SUMMARY Interleukin-2 (IL-2) regulates lymphocyte function by signaling through heterodimerization of the IL-2Rβ and γc receptor subunits. IL-2 is of considerable therapeutic interest, but harnessing its actions in a controllable manner remains a challenge. Previously, we have engineered an IL-2 “superkine” with enhanced affinity for IL-2Rβ. Here, we describe next-generation IL-2 variants that function as “receptor signaling clamps.” They retained high-affinity for IL-2Rβ, inhibiting binding of endogenous IL-2, but their interaction with γc was weakened, attenuating IL-2Rβ-γc heterodimerization. These IL-2 analogues acted as partial agonists and differentially affected lymphocytes poised at distinct activation thresholds. Moreover, one variant, H9-RETR, antagonized IL-2 and IL-15 better than blocking antibodies against IL-2Rα or IL-2Rβ. Furthermore, this mutein prolonged survival in a model of graft-versus-host disease and blocked spontaneous proliferation of smoldering adult T-cell leukemia (ATL) T cells. This receptor-clamping approach may be a general mechanism-based strategy for engineering cytokine partial agonists for therapeutic immunomodulation.

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KLF4-dependent perivascular cell plasticity mediates pre-metastatic niche formation and metastasis

Murgai

Wang

Eason

et al. 2017

Nat Med

186

152

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A deeper understanding of the metastatic process is required for the development of new therapies that improve patient survival. Metastatic tumor cell growth and survival in distant organs is facilitated by the formation of a pre-metastatic niche composed of hematopoietic cells, stromal cells, and extracellular matrix (ECM). Perivascular cells, including vascular smooth muscle cells (vSMCs) and pericytes, are involved in new vessel formation and in promoting stem cell maintenance and proliferation. Given the well-described plasticity of perivascular cells, we hypothesize that perivascular cells similarly regulate tumor cell fate at metastatic sites. Using perivascular cell-specific and pericyte-specific lineage-tracing models, we trace the fate of perivascular cells in the pre-metastatic and metastatic microenvironments. We show that perivascular cells lose the expression of traditional vSMC/pericyte markers in response to tumor-secreted factors and exhibit increased proliferation, migration, and ECM synthesis. Increased expression of the pluripotency gene Klf4 in these phenotypically-switched perivascular cells promotes a less differentiated state characterized by enhanced ECM production that establishes a pro-metastatic fibronectin-rich environment. Genetic inactivation of Klf4 in perivascular cells decreases pre-metastatic niche formation and metastasis. Our data reveal a previously unidentified role for perivascular cells in pre-metastatic niche formation and uncover novel strategies for limiting metastasis.

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Ju Wang

The Transcription Factor Yin Yang 1 Is Essential for Oligodendrocyte Progenitor Differentiation

A GABAergic system in airway epithelium is essential for mucus overproduction in asthma

Interleukin-2 Activity Can Be Fine Tuned with Engineered Receptor Signaling Clamps

KLF4-dependent perivascular cell plasticity mediates pre-metastatic niche formation and metastasis

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