Your search keyword '"Kuan–Ying Jian"' showing total 3 results

1. TRPM1 promotes tumor progression in acral melanoma by activating the Ca2+/CaMKIIδ/AKT pathway

Author

Chi-Che Hsieh, Yue-Chiu Su, Kuan-Ying Jiang, Takamichi Ito, Ting-Wei Li, Yumiko Kaku-Ito, Shih-Tsung Cheng, Li-Tzong Chen, Daw-Yang Hwang, and Che-Hung Shen

Subjects

Acral melanoma, TRPM1, CaMKII, Ca2+ channel, Medicine (General), R5-920, Science (General), Q1-390

Abstract

Introduction: Acral melanoma is a predominant and aggressive subtype of melanoma in non-Caucasian populations. There is a lack of genotype-driven therapies for over 50% of patients. TRPM1 (transient receptor potential melastatin 1), a nonspecific cation channel, is mainly expressed in retinal bipolar neurons and skin. Nonetheless, the function of TRPM1 in melanoma progression is poorly understood. Objectives: We investigated the association between TRPM1 and acral melanoma progression and revealed the molecular mechanisms by which TRPM1 promotes tumor progression and malignancy. Methods: TRPM1 expression and CaMKII phosphorylation in tumor specimens were tested by immunohistochemistry analysis and scored by two independent investigators. The functions of TRPM1 and CaMKII were assessed using loss-of-function and gain-of-function approaches and examined by western blotting, colony formation, cell migration and invasion, and xenograft tumor growth assays. The effects of a CaMKII inhibitor, KN93, were evaluated using both in vitro cell and in vivo xenograft mouse models. Results: We revealed that TRPM1 protein expression was positively associated with tumor progression and shorter survival in patients with acral melanoma. TRPM1 promoted AKT activation and the colony formation, cell mobility, and xenograft tumor growth of melanoma cells. TRPM1 elevated cytosolic Ca2+ levels and activated CaMKIIδ (Ca2+/calmodulin-dependent protein kinase IIδ) to promote the CaMKIIδ/AKT interaction and AKT activation. The functions of TRPM1 in melanoma cells were suppressed by a CaMKII inhibitor, KN93. Significant upregulation of phospho-CaMKII levels in acral melanomas was related to increased expression of TRPM1. An acral melanoma cell line with high expression of TRPM1, CA11, was isolated from a patient to show the anti-tumor activity of KN93 in vitro and in vivo. Conclusions: TRPM1 promotes tumor progression and malignancy in acral melanoma by activating the Ca2+/CaMKIIδ/AKT pathway. CaMKII inhibition may be a potential therapeutic strategy for treating acral melanomas with high expression of TRPM1.

Published

2023

2. A Gene Expression Signature of Epithelial Tubulogenesis and a Role for ASPM in Pancreatic Tumor Progression

Author

Tze Sian Chan, Yin–Ying Shen, Kelvin K. Tsai, Michael T.-L. Lee, I. Shou Chang, Pin Wen Lin, Shih Sheng Jiang, Chung Chi Hsu, Shenq Shyang Huang, Ya Chin Hou, Li-Tzong Chen, Chung–Hsing Chen, Yen–Ling Lee, Chung Ta Lee, Yan Shen Shan, Kuan–Ying Jian, Jui Mei Chu, Chi-Rong Li, Jimmy J.-M. Su, Ting Yun Wang, Ming-Sheng Liu, Chun Chao Chang, and Wei Yu Wang

Subjects

Pathology, medicine.medical_specialty, endocrine system diseases, Nerve Tissue Proteins, Mice, SCID, Biology, medicine.disease_cause, Epithelium, ASPM, Mice, Cell Movement, Mice, Inbred NOD, Cancer stem cell, Pancreatic tumor, Pancreatic cancer, Biomarkers, Tumor, medicine, Animals, Humans, beta Catenin, Retrospective Studies, Pancreatic duct, Hepatology, Pancreatic Ducts, Gastroenterology, Cell Differentiation, Prognosis, medicine.disease, digestive system diseases, Gene Expression Regulation, Neoplastic, Pancreatic Neoplasms, Wnt Proteins, Disease Models, Animal, medicine.anatomical_structure, Tumor progression, Disease Progression, Heterografts, Stem cell, Transcriptome, Carcinogenesis, Carcinoma, Pancreatic Ductal, Follow-Up Studies, Signal Transduction

Abstract

Background & Aims Many patients with pancreatic ductal adenocarcinoma (PDAC) develop recurrent or metastatic diseases after surgery, so it is important to identify those most likely to benefit from aggressive therapy. Disruption of tissue microarchitecture is an early step in pancreatic tumorigenesis and a parameter used in pathology grading of glandular tumors. We investigated whether changes in gene expression during pancreatic epithelial morphogenesis were associated with outcomes of patients with PDAC after surgery. Methods We generated architectures of human pancreatic duct epithelial cells in a 3-dimensional basement membrane matrix. We identified gene expression profiles of the cells during different stages of tubular morphogenesis (tubulogenesis) and of PANC-1 cells during spheroid formation. Differential expression of genes was confirmed by immunoblot analysis. We compared the gene expression profile associated with pancreatic epithelial tubulogenesis with that of PDAC samples from 27 patients, as well as with their outcomes after surgery. Results We identified a gene expression profile associated with tubulogenesis that resembled the profile of human pancreatic tissue with differentiated morphology and exocrine function. Patients with PDACs with this profile fared well after surgery. Based on this profile, we established a 6−28 gene tubulogenesis-specific signature that accurately determined the prognosis of independent cohorts of patients with PDAC (total n = 128; accuracy = 81.2%−95.0%). One gene, ASPM , was down-regulated during tubulogenesis but up-regulated in human PDAC cell lines and tumor samples; up-regulation correlated with patient outcomes (Cox regression P = .0028). Bioinformatic, genetic, biochemical, functional, and clinical correlative studies showed that ASPM promotes aggressiveness of PDAC by maintaining Wnt-β-catenin signaling and stem cell features of PDAC cells. Conclusions We identified a gene expression profile associated with pancreatic epithelial tubulogenesis and a tissue architecture−specific signature of PDAC cells that is associated with patient outcomes after surgery.

Published

2013

3. AUY922 induces retinal toxicity through attenuating TRPM1

Author

Che-Hung Shen, Chi-Che Hsieh, Kuan-Ying Jiang, Chih-Yu Lin, Nai-Jung Chiang, Ting-Wei Li, Chun-Ting Yen, Wan-Ju Chen, Daw-Yang Hwang, and Li-Tzong Chen

Subjects

Retinal toxicity, Photoreceptor, HSP90, CDC37, AUY922, TRPM1, Medicine

Abstract

Abstract Background Ocular adverse events are common dose-limiting toxicities in cancer patients treated with HSP90 inhibitors, such as AUY922; however, the pathology and molecular mechanisms that mediate AUY922-induced retinal toxicity remain undescribed. Methods The impact of AUY922 on mouse retinas and cell lines was comprehensively investigated using isobaric tags for relative and absolute quantitation (iTRAQ)‑based proteomic profiling and pathway enrichment analysis, immunohistochemistry and immunofluorescence staining, terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) assay, MTT assay, colony formation assay, and western blot analysis. The effect of AUY922 on the Transient Receptor Potential cation channel subfamily M member 1 (TRPM1)-HSP90 chaperone complex was characterized by coimmunoprecipitation. TRPM1-regulated gene expression was analyzed by RNAseq analysis and gene set enrichment analysis (GSEA). The role of TRPM1 was assessed using both loss-of-function and gain-of-function approaches. Results Here, we show that the treatment with AUY922 induced retinal damage and cell apoptosis, dysregulated the photoreceptor and retinal pigment epithelium (RPE) layers, and reduced TRPM1 expression. Proteomic profiling and functional annotation of differentially expressed proteins reveals that those related to stress responses, protein folding processes, regulation of apoptosis, cell cycle and growth, reactive oxygen species (ROS) response, cell junction assembly and adhesion regulation, and proton transmembrane transport were significantly enriched in AUY922-treated cells. We found that AUY922 triggered caspase-3-dependent cell apoptosis, increased ROS production and inhibited cell growth. We determined that TRPM1 is a bona fide HSP90 client and characterized that AUY922 may reduce TRPM1 expression by disrupting the CDC37-HSP90 chaperone complex. Additionally, GSEA revealed that TRPM1-regulated genes were associated with retinal morphogenesis in camera-type eyes and the JAK-STAT cascade. Finally, gain-of-function and loss-of-function analyses validated the finding that TRPM1 mediated the cell apoptosis, ROS production and growth inhibition induced by AUY922. Conclusions Our study demonstrates the pathology of AUY922-induced retinal toxicity in vivo. TRPM1 is an HSP90 client, regulates photoreceptor morphology and function, and mediates AUY922-induced cytotoxicity.

Published

2021