Limin Yang scite author profile

FET cells, derived from an early-stage colon carcinoma, are nontumorigenic in athymic mice. Stable transfection of a dominant-negative transforming growth factor B (TGFB) type II receptor (DNRII) into FET cells that express autocrine TGFB shows loss of TGFB signaling and increased tumorigenicity in vivo indicating tumor suppressor activity of TGFB signaling in this model. The ability of tumorigenic cells to withstand growth factor and nutrient deprivation stress (GFDS) is widely regarded as a key attribute for tumor formation and progression. We hypothesized that increased tumorigenicity of FET/DNRII cells was due to loss of participation of autocrine TGFB in a ''fail-safe'' mechanism to generate cell death in response to this stress. Here, we document that loss of autocrine TGFB in FET/DNRII cells resulted in greater endogenous cell survival in response to GFDS due to activation of the phosphoinositide 3-kinase (PI3K)/Akt/survivin pathway. Treatment of FET DNRII cells with a PI3K inhibitor (LY294002) inhibited Akt phosphorylation and reduced survivin expression resulting in increased apoptosis in FET/DNRII cells. We also show that exogenous TGFB increased apoptosis in FET cells through repression of the PI3K/Akt/survivin pathway during GFDS. These results indicate that the PI3K/Akt/ survivin pathway is blocked by TGFB signaling and that loss of autocrine TGFB leads to increased cell survival during GFDS through the novel linkage of TGFB-mediated repression of survivin expression. Inhibition of survivin function by dominant-negative approaches showed that this inhibitor of apoptosis family member is critical to cell survival in the FET/DNRII cells, thus indicating the importance of this target for TGFB-mediated apoptosis. [Cancer Res 2008;68(9):3152-60]

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Bridging small-gap peripheral nerve defects using acellular nerve allograft implanted with autologous bone marrow stromal cells in primates

Wang

et al. 2008

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Differential Regulation of Dendritic and Axonal Development by the Novel Krüppel-Like Factor Dar1

Yan

Kim²,

Yang

et al. 2011

J. Neurosci.

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Dendrites and axons are two major neuronal compartments with differences that are critical for neuronal functions. To learn about the differential regulation of dendritic and axonal development, we conducted a genetic screen in Drosophila and isolated the dendritic arbor reduction 1 (dar1) mutants, which display defects in dendritic but not axonal growth. The dar1 gene encodes a novel transcription regulator in the Krüppel-like factor family. Neurons lacking dar1 function have severely reduced growth of microtubule- but not F-actin-based dendritic branches. In contrast, overexpression of Dar1 dramatically increased the growth of microtubule-based dendritic branches. Our results suggest that Dar1 promotes dendrite growth in part by suppressing the expression of the microtubule severing protein Spastin. Our study thus uncovers a novel transcriptional program for microtubule regulation that preferentially controls dendrite growth.

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Autocrine TGFβ signaling mediates vitamin D3 analog‐induced growth inhibition in breast cells

Yang

Venkateswarlu

et al. 2001

Journal Cellular Physiology

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In this study, we address whether TGFbeta signaling mediates vitamin D3 analog-induced growth inhibition in nonmalignant and malignant breast cells. Normal mammary epithelial cells (184), immortalized nonmalignant mammary epithelial cells (184A1 and MCF10A), and breast cancer cells (early passage MCF7: MCF7E) were sensitive to the inhibitory effects of vitamin D3 analogs (EB1089 and MC1288) while late passage MCF7 breast cancer (MCF7L) cells were relatively resistant. A similar pattern of sensitivity to TGFbeta was observed with these cells. Thus, the sensitivity to the vitamin D3 analogs correlated with the sensitivity to TGFbeta. MCF7L TGFbetaRII-transfected cells, which have autocrine TGFbeta activity, were more sensitive to EB1089 than MCF7L cells. TGFbeta neutralizing antibody was found to block the inhibitory effects of these analogs. These results are consistent with the idea that autocrine TGFbeta signaling mediates the anti-proliferative effects of the vitamin D3 analogs in these cells. The expression of TGFbeta isoforms and/or TGFbeta receptors was induced by the analogs in the vitamin D3 and TGFbeta sensitive cells. Vitamin D3 analogs did not induce TGFbeta or TGFbeta receptor expression in the resistant MCF7L cells. Therefore, EB1089 induces autocrine TGFbeta activity through increasing expression of TGFbeta isoforms and/or TGFbeta receptors. In addition, EB1089 induced nuclear VDR protein levels in the sensitive 184A1 cells but not in the resistant MCF7L cells. 184A1 cells were more sensitive to EB1089-induced VDR-dependent transactivation than MCF7L cells as measured by a luciferase reporter construct containing the VDRE, indicating a defect of VDR signaling in MCF7L cells. Smad3, a TGFbeta signaling mediator, coactivated VDR-dependent transactivation in 184A1 cells but not in MCF7L cells. These results indicate that Smad3 coactivates VDR to further enhance TGFbeta signaling and vitamin D3 signaling in the sensitive 184A1 cells. The results also indicate that Smad3 is not of itself sufficient to coactivate VDR in TGFbeta/vitamin D3 resistant MCF7L cells and other factors are required. We found that the PI 3-kinase pathway inhibitor LY29004 inhibited the synergy of TGFbeta and EB1089 on VDR-dependent transactivation activity. This indicates that the crosstalk between TGFbeta and vitamin D signaling is also PI 3-kinase pathway dependent.

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Cholesterol Depletion of the Plasma Membrane Prevents Activation of the Epithelial Sodium Channel (ENaC) by SGK1

Krueger¹,

Haerteis²,

Yang³

et al. 2009

Cell Physiol Biochem

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The lipid environment of the epithelial sodium channel (ENaC) and its possible association with so-called lipid rafts may be relevant to its function. The aim of our study was to confirm the association of ENaC with lipid rafts and to analyze the effect of cholesterol depletion of the plasma membrane by methyl-β-cyclodextrin (MβCD) on channel function and regulation. Using sucrose density gradient centrifugation we demonstrated that a significant portion of ENaC protein distributes to low density fractions thought to be typical lipid raft fractions. Importantly, cholesterol depletion of cell lysate by MβCD shifted ENaC to non-raft fractions of higher density. Live cell imaging demonstrated that treatment with MβCD largely reduced filipin staining over time, confirming cholesterol depletion of the plasma membrane. For electrophysiological studies intact oocytes were exposed to 20 mM MβCD for three hours. MβCD treatment had no consistent effect on baseline whole-cell ENaC currents. In addition to the typical single channel conductance of about 5 pS, subconductance states of ENaC were occasionally observed in patches from MβCD treated but not from control oocytes. Importantly, in outside-out patch clamp recordings the stimulatory effect of recombinant SGK1 in the pipette solution was essentially abolished in oocytes pretreated with MβCD. These results indicate that ENaC activation by cytosolic SGK1 is compromised by removing cholesterol from the plasma membrane. Thus, ENaC activation by SGK1 may require the presence of an intact lipid environment and/or of lipid rafts as signalling platform.

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Limin Yang

Transforming Growth Factor β Induces Apoptosis through Repressing the Phosphoinositide 3-Kinase/AKT/Survivin Pathway in Colon Cancer Cells

Bridging small-gap peripheral nerve defects using acellular nerve allograft implanted with autologous bone marrow stromal cells in primates

Differential Regulation of Dendritic and Axonal Development by the Novel Krüppel-Like Factor Dar1

Autocrine TGFβ signaling mediates vitamin D3 analog‐induced growth inhibition in breast cells

Cholesterol Depletion of the Plasma Membrane Prevents Activation of the Epithelial Sodium Channel (ENaC) by SGK1

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