Chen-Hung Ting scite author profile

Receptor tyrosine kinase EphB3 is expressed in cells in the bottom of intestinal crypts near stem cell niches. Loss of Ephb3 has recently been reported to produce invasive colorectal carcinoma in Apc(Min/+) mice and EphB-mediated compartmentalization was demonstrated to be a mechanism suppressing colorectal cancer progression; however, it is unknown whether other factors contribute to EphB-mediated tumor suppression. EphA4-ephrin-A and EphB4-ephrin-B2 signaling have been reported to promote mesenchymal-to-epithelial transition (MET). Here, we examine whether EphB3-ephrin-B interaction has a similar effect and investigate its role in tumor suppression. We found in a clinical cohort that EphB3 expression was significantly reduced in advanced Dukes' stage tumor specimens, so we over-expressed EphB3 in HT-29 cells by stable transfection. EphB3 over-expression inhibited HT-29 growth in monolayer cultures, anchorage-independent growth in soft agar and xenograft growth in nude mice and initiated morphological, behavioral and molecular changes consistent with MET. Specifically, EphB3 over-expression re-organized cytoskeleton (converting spreading cells to a cobble-like epithelial morphology, patterning cortical actin cytoskeleton and polarizing E-cadherin and ZO-1), induced functional changes favoring MET (decreased transwell migration, increased apoptosis and Ca(2+)-dependent cell-cell adhesion), decreased mesenchymal markers (fibronectin and nuclear beta-catenin), increased epithelial markers (ZO-1, E-cadherin and plakoglobin) and inactivated CrkL-Rac1, a known epithelial-to-mesenchymal transition signaling pathway. Additionally, cross talk from Wnt signaling potentiated the restoration of epithelial cell polarity. Noteworthily, the same factors contributing to MET, owing to EphB3 signaling, also facilitated tumor suppression. We conclude that EphB3-ephrin-B interaction promotes MET by re-establishing epithelial cell-cell junctions and such an MET-promoting effect contributes to EphB3-mediated tumor suppression.

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Targeting FOSB with a cationic antimicrobial peptide, TP4, for treatment of triple-negative breast cancer

Ting

Chen

et al. 2016

Oncotarget

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Triple-negative breast cancer (TNBC) currently lacks a suitable therapeutic candidate and is thus difficult to treat. Here, we report that a cationic antimicrobial peptide (CAP), tilapia piscidin 4 (TP4), which was derived from Nile tilapia (Oreochromis niloticus), is selectively toxic to TNBC. TP4 acts by inducing an AP-1 protein called FOSB, the expression of which is negatively associated with the pathological grade of TNBC. We show that TP4 is bound to the mitochondria where it disrupts calcium homeostasis and activates FOSB. FOSB overexpression results in TNBC cell death, whereas inhibition of calcium signaling eliminates FOSB induction and blocks TP4-induced TNBC cell death. Both TP4 and anthracyclines strongly induced FOSB, particularly in TNBC, indicating that FOSB may be suitable as a biomarker of drug responses. This study thus provides a novel therapeutic approach toward TNBC through FOSB induction.

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Multiple therapeutic effects of valproic acid in spinal muscular atrophy model mice

Tsai

Ting

et al. 2008

J Mol Med

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Spinal muscular atrophy (SMA) is a progressive disease involving the degeneration of motor neurons with no currently available treatment. While valproic acid (VPA) is a potential treatment for SMA, its therapeutic mechanisms are still controversial. In this study, we investigated the mechanisms of action of VPA in the treatment of type III-like SMA mice. SMA and wild-type mice were treated with VPA from 6 to 12 months and 10 to 12 months of age, respectively. Untreated SMA littermates and age-matched wild-type mice were used for comparison. VPA-treated SMA mice showed better motor function, larger motor-evoked potentials, less degeneration of spinal motor neurons, less muscle atrophy, and better neuromuscular junction innervation than non-treated SMA mice. VPA elevated SMN protein levels in the spinal cord through SMN2 promoter activation and probable restoration of correct splicing of SMN2 pre-messenger RNA. VPA also increased levels of anti-apoptotic factors, Bcl-2 and Bcl-x(L), in spinal neurons. VPA probably induced neurogenesis and promoted astrocyte proliferation in the spinal cord of type III-like SMA mice, which might contribute to therapeutic effects by enhancing neuroprotection. Through these effects of elevation of SMN protein level, anti-apoptosis, and probable neuroprotection, VPA-treated SMA mice had less degeneration of spinal motor neurons and better motor function than untreated type III-like SMA mice.

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The mechanisms by which pardaxin, a natural cationic antimicrobial peptide, targets the endoplasmic reticulum and induces c-FOS

Ting

Huang

et al. 2014

Biomaterials

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Stathmin, a microtubule-destabilizing protein, is dysregulated in spinal muscular atrophy†

Wen

Lin

Ting³

et al. 2010

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Spinal muscular atrophy (SMA), a motor neuron degeneration disorder, is caused by either mutations or deletions of survival motor neuron 1 (SMN1) gene which result in insufficient SMN protein. Here, we describe a potential link between stathmin and microtubule defects in SMA. Stathmin was identified by screening Smn-knockdown NSC34 cells through proteomics analysis. We found that stathmin was aberrantly upregulated in vitro and in vivo, leading to a decreased level of polymerized tubulin, which was correlated with disease severity. Reduced microtubule densities and beta(III)-tubulin levels in distal axons of affected SMA-like mice and an impaired microtubule network in Smn-deficient cells were observed, suggesting an involvement of stathmin in those microtubule defects. Furthermore, knockdown of stathmin restored the microtubule network defects of Smn-deficient cells, promoted axon outgrowth and reduced the defect in mitochondria transport in SMA-like motor neurons. We conclude that aberrant stathmin levels may play a detrimental role in SMA; this finding suggests a novel approach to treating SMA by enhancing microtubule stability.

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Chen-Hung Ting

Over-expression of EphB3 enhances cell–cell contacts and suppresses tumor growth in HT-29 human colon cancer cells

Targeting FOSB with a cationic antimicrobial peptide, TP4, for treatment of triple-negative breast cancer

Multiple therapeutic effects of valproic acid in spinal muscular atrophy model mice

The mechanisms by which pardaxin, a natural cationic antimicrobial peptide, targets the endoplasmic reticulum and induces c-FOS

Stathmin, a microtubule-destabilizing protein, is dysregulated in spinal muscular atrophy†

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