Ya Ju Chang scite author profile

Gait disturbances in Parkinson's disease are commonly refractory to current treatment options and majorly impair patient's quality of life. Auditory cues facilitate gait and prevent motor blocks. We investigated how neural dynamics in the human subthalamic nucleus of Parkinsons's disease patients (14 male, 2 female) vary during stepping and whether rhythmic auditory cues enhance the observed modulation. Oscillations in the beta band were suppressed after ipsilateral heel strikes, when the contralateral foot had to be raised, and reappeared after contralateral heel strikes, when the contralateral foot rested on the floor. The timing of this 20–30 Hz beta modulation was clearly distinct between the left and right subthalamic nucleus, and was alternating within each stepping cycle. This modulation was similar, whether stepping movements were made while sitting, standing, or during gait, confirming the utility of the stepping in place paradigm. During stepping in place, beta modulation increased with auditory cues that assisted patients in timing their steps more regularly. Our results suggest a link between the degree of power modulation within high beta frequency bands and stepping performance. These findings raise the possibility that alternating deep brain stimulation patterns may be superior to constant stimulation for improving parkinsonian gait.SIGNIFICANCE STATEMENT Gait disturbances in Parkinson's disease majorly reduce patients' quality of life and are often refractory to current treatment options. We investigated how neural activity in the subthalamic nucleus of patients who received deep brain stimulation surgery covaries with the stepping cycle. 20–30 Hz beta activity was modulated relative to each step, alternating between the left and right STN. The stepping performance of patients improved when auditory cues were provided, which went along with enhanced beta modulation. This raises the possibility that alternating stimulation patterns may also enhance beta modulation and may be more beneficial for gait control than continuous stimulation, which needs to be tested in future studies.

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Functional recoveries of sciatic nerve regeneration by combining chitosan-coated conduit and neurosphere cells induced from adipose-derived stem cells

Hsueh

Chang

Huang

et al. 2014

Biomaterials

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MEK inhibitors reverse resistance in epidermal growth factor receptor mutation lung cancer cells with acquired resistance to gefitinib

Huang

Lee

Chang³

et al. 2012

Molecular Oncology

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Lung adenocarcinoma cells harboring epidermal growth factor receptor (EGFR) mutations are sensitive to EGFR tyrosine kinase inhibitors (TKIs), including gefitinib. Acquired resistance to EGFR-TKIs develops after prolonged treatments. The study was prompt to explore effective strategies against resistance to EGFR-TKIs. We established gefitinib resistant PC-9 cells which harbor EGFR exon 19 deletion. Known mechanisms for intrinsic or acquired EGFR-TKI resistance, including KRAS mutation, HER2 mutation, EGFR T790M mutation and MET gene amplification, were studied, and we did not observe any known mechanisms for intrinsic or acquired resistance to EGFR-TKIs in the resistant cells. In the parental PC-9 cells, labeled as PC-9/wt, gefitinib completely inhibited EGF-induced phosphorylation of EGFR, AKT and ERK. Gefitinib inhibited EGFR phosphorylation, but was unable to block EGF-induced phosphorylation of ERK in resistant cells, labeled as PC-9/gef cells, including PC-9/gefB4, PC-9/gefE3, and PC-9/gefE7 subclones. We detected NRAS Q61K mutation in the PC-9/gef cells but not the PC-9/wt cells. MEK inhibitors, either AZD6244 or CI1040, inhibited ERK phosphorylation and sensitized gefitinib-induced cytotoxicity in PC-9/gef cells. Whereas MEK inhibitors or gefitinib alone did not activate caspases in PC-9/gef cells, combination of gefitinib and AZD6244 or CI1040 induced apoptosis. Our in vivo studies showed that gefitinib inhibited growth of PC-9/wt xenografts but not PC-9/gef xenografts. Furthermore, combination of a MEK inhibitor and gefitinib inhibited growth of both PC-9/wt xenografts and PC-9/gefB4 xenografts. To conclude, persistent activation of ERK pathway contributes to the acquired gefitinib-resistance. Combined treatment of gefitinib and MEK inhibitors may be therapeutically useful for acquired gefitinib-resistance lung adenocarcinoma cells harboring EGFR mutations.

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Extracellular MicroRNA-92a Mediates Endothelial Cell–Macrophage Communication

Chang

et al. 2019

ATVB

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Objective: Understanding message delivery among vascular cells is essential for deciphering the intercellular communications in cardiovascular diseases. MicroRNA (miR)-92a is enriched in endothelial cells (ECs) and circulation under atheroprone conditions. Macrophages are the primary immune cells in atherosclerotic lesions that modulate lesion development. Therefore, we hypothesize that, in response to atheroprone stimuli, ECs export miR-92a to macrophages to regulate their functions and enhance atherosclerotic progression. Approach and Results: We investigated the macrophage functions that are regulated by EC miR-92a under atheroprone microenvironments. We first determined the distributions of functional extracellular miR-92a by fractionating the intravesicular and extravesicular compartments from endothelial conditioned media and mice serum. The results indicate that extracellular vesicles are the primary vehicles for EC miR-92a transportation. Overexpression of miR-92a in ECs enhanced the proinflammatory responses and low-density lipoprotein uptake, while impaired the migration, of cocultured macrophage. Opposite effects were found in macrophages cocultured with ECs with miR-92a knockdown. Further analyses demonstrated that intravesicular miR-92a suppressed the expression of target gene KLF4 (Krüppel-like factor 4) in macrophages, suggesting a mechanism by which intravesicular miR-92a regulates recipient cell functions. Indeed, the overexpression of KLF4 rescued the EC miR-92a–induced macrophage atheroprone phenotypes. Furthermore, an inverse correlation of intravesicular miR-92a in blood serum and KLF4 expression in lesions was observed in atherosclerotic animals, indicating the potential function of extracellular miR-92a in regulating vascular diseases. Conclusions: EC miR-92a can be transported to macrophages through extracellular vesicles to regulate KLF4 levels, thus leading to the atheroprone phenotypes of macrophage and, hence, atherosclerotic lesion formation.

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Ya Ju Chang

Alternating Modulation of Subthalamic Nucleus Beta Oscillations during Stepping

Functional recoveries of sciatic nerve regeneration by combining chitosan-coated conduit and neurosphere cells induced from adipose-derived stem cells

MEK inhibitors reverse resistance in epidermal growth factor receptor mutation lung cancer cells with acquired resistance to gefitinib

Extracellular MicroRNA-92a Mediates Endothelial Cell–Macrophage Communication

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