Your search keyword '"Jen Ning Tsai"' showing total 43 results

1. Metachromin C, a marine-derived natural compound, shows potential in antitumor activity.

Author

Pei-Hsuan Chen, Che-Hsin Lee, Chih-Chuang Liaw, Rei-Ting Liang, Mo Aqib Raza Khan, Jen-Ning Tsai, Shin-Yi Huang, Wangta Liu, and Wan-Chi Tsai

Published

2024

2. A novel zebrafish model to emulate lung injury by folate deficiency-induced swim bladder defectiveness and protease/antiprotease expression imbalance

Author

Gang-Hui Lee, Nai-Wei Cheng, Hsin-Hsuan Yu, Jen-Ning Tsai, Tsunglin Liu, Zhi-Hong Wen, Bing-Hung Chen, and Tzu-Fun Fu

Subjects

Medicine, Science

Abstract

Abstract Lung injury is one of the pathological hallmarks of most respiratory tract diseases including asthma, acute respiratory distress syndrome (ARDS) and chronic obstructive pulmonary disease (COPD). It involves progressive pulmonary tissue damages which are usually irreversible and incurable. Therefore, strategies to facilitate drug development against lung injury are needed. Here, we characterized the zebrafish folate-deficiency (FD) transgenic line that lacks a fully-developed swim bladder. Whole-mount in-situ hybridization revealed comparable distribution patterns of swim bladder tissue markers between wild-type and FD larvae, suggesting a proper development of swim bladder in early embryonic stages. Unexpectedly, neutrophils infiltration was not observed in the defective swim bladder. Microarray analysis revealed a significant increase and decrease of the transcripts for cathepsin L and a cystatin B (CSTB)-like (zCSTB-like) proteins, respectively, in FD larvae. The distribution of cathepsin L and the zCSTB-like transcripts was spatio-temporally specific in developing wild-type embryos and, in appropriate measure, correlated with their potential roles in maintaining swim bladder integrity. Supplementing with 5-formyltetrahydrofolate successfully prevented the swim bladder anomaly and the imbalanced expression of cathepsin L and the zCSTB-like protein induced by folate deficiency. Injecting the purified recombinant zebrafish zCSTB-like protein alleviated FD-induced swim bladder anomaly. We concluded that the imbalanced expression of cathepsin L and the zCSTB-like protein contributed to the swim bladder malformation induced by FD and suggested the potential application of this transgenic line to model the lung injury and ECM remodeling associated with protease/protease inhibitor imbalance.

Published

2019

3. Interleukin-4 Promotes Myogenesis and Boosts Myocyte Insulin Efficacy

Author

Yih-Hsin Chang, Jen-Ning Tsai, Tzu-Lin Chen, Kuo-Ting Ho, Hsin-Yi Cheng, Chiao-Wan Hsiao, and Ming-Yuh Shiau

Subjects

Pathology, RB1-214

Abstract

Anti-inflammatory cytokine interleukin-4 (IL-4) promotes glucose tolerance and insulin sensitivity while reduces lipid deposits. However, the effects of IL-4 on energy metabolism in muscle, the largest insulin-targeting organ, remain obscure. The study aimed at addressing the roles of IL-4 in myocyte differentiation (myogenesis) and energy metabolism of muscle cells. Effects of IL-4 on myogenesis, and interaction between IL-4 and insulin on glucose metabolism of C2C12 myoblasts and the terminal differentiated myocytes were analyzed. IL-4 improved GLUT4 translocation and tended to elevate glucose uptake by boosting insulin signaling. In diabetic mice, transient and long-term IL-4 showed differential effects on insulin signaling and efficacy. The study provides evidence to address the roles of IL-4 in mediating whole-body muscle reservoir and glucose metabolism, as well as the interaction between immune responses and energy homeostasis. IL-4 has dual potential to act as an adjuvant therapeutic target for sarcopenia to preserve muscle mass and insulin resistance to improve insulin sensitivity, which implicates the regulation of immune system to the muscle differentiation and exercise performance.

Published

2019

4. Pro-Angiogenic Effects of Chalcone Derivatives in Zebrafish Embryos in Vivo

Author

Yau-Hung Chen, Chao-Yuan Chang, Chiung-Fang Chang, Po-Chih Chen, Ya-Ting Lee, Ching-Yuh Chern, and Jen-Ning Tsai

Subjects

angiogenesis, chalcones, in vivo, zebrafish embryos, Organic chemistry, QD241-441

Abstract

The aim of this study was to investigate novel chalcones with potent angiogenic activities in vivo. Chalcone-based derivatives were evaluated using a transgenic zebrafish line with fluorescent vessels to real-time monitor the effect on angiogenesis. Results showed that the chalcone analogues did not possess anti-angiogenic effect on zebrafish vasculatures; instead, some of them displayed potent pro-angiogenic effects on the formation of the sub-intestinal vein. Similar pro-angiogenic effects can also be seen on wild type zebrafish embryos. Moreover, the expression of vegfa, the major regulator for angiogenesis, was also upregulated in their treatment. Taken together, we have synthesized and identified a series of novel chalcone-based derivatives as potent in vivo pro-angiogenic compounds. These novel compounds hold potential for therapeutic angiogenesis.

Published

2015

5. One crisis, diverse impacts-Tissue-specificity of folate deficiency-induced circulation defects in zebrafish larvae.

Author

Hung-Chi Tu, Gang-Hui Lee, Tsun-Hsien Hsiao, Tseng-Ting Kao, Tzu-Ya Wang, Jen-Ning Tsai, and Tzu-Fun Fu

Subjects

Medicine, Science

Abstract

Folate (vitamin B9) is an essential nutrient required for cell survival, proliferation, differentiation and therefore embryogenesis. Folate deficiency has been associated with many diseases, including congenital heart diseases and megaloblastic anemia, yet the mechanisms underlying these remains elusive. Here, we examine the impact of folate deficiency on the development of the circulation system using a zebrafish transgenic line which displays inducible folate deficiency. Impaired hematopoiesis includes decreased hemoglobin levels, decreased erythrocyte number, increased erythrocyte size and aberrant c-myb expression pattern were observed in folate deficient embryos. Cardiac defects, including smaller chamber size, aberrant cardiac function and cmlc2 expression pattern, were also apparent in folate deficient embryos. Characterization of intracellular folate content in folate deficiency revealed a differential fluctuation among the different folate derivatives that carry a single carbon group at different oxidation levels. Rescue attempts by folic acid and nucleotides resulted in differential responses among affected tissues, suggesting that different pathomechanisms are involved in folate deficiency-induced anomalies in a tissue-specific manner. The results of the current study provide an explanation for the inconsistent outcome observed clinically in patients suffering from folate deficiency and/or receiving folate supplementation. This study also supports the use of this model for further research on the defective cardiogenesis and hematopoiesis caused by folate deficiency.

Published

2017

6. Ocimum Gratissimum Extract Induces Apoptosis in Gastric Cancer Cells via Modulation of Reactive Oxygen Species and Mitogen-Activated Protein Kinase

Author

Ming-Jen Sheu, Jer-Yuh Liu, Wai-Lun Tam, Li-Sung Hsu, and Jen-Ning Tsai

Subjects

chemistry.chemical_classification, Reactive oxygen species, Nutrition and Dietetics, biology, medicine.diagnostic_test, Kinase, p38 mitogen-activated protein kinases, Ocimum gratissimum, Medicine (miscellaneous), Cancer, Pharmacology, medicine.disease, biology.organism_classification, chemistry, Western blot, Apoptosis, Cancer cell, medicine

Abstract

Given the increasing incidence of gastric cancer and its high rate of metastasis, drug resistance and the mortality rate remain high. Ocimum gratissimum, a botanical species of Ocimum known to exhibit general anti-inflammatory, antioxidant, and anticancer activities has not yet been evaluated for gastric cancer proliferation. In this study, we have demonstrated that O. gratissimum extract significantly reduces the viability of gastric cancer cells by triggering apoptosis, elevating levels of ROS, and enhanced cleavage of poly-ADP-ribose polymerase and caspase-3. Western blot analysis indicated that O. gratissimum extract enhanced the cleavage of PARP and caspase-3. Moreover, O. gratissimum extract inhibited extracellular signal-regulated kinase 1/2 and increased activities of p38, a stress stimulated kinase. In conclusion, our findings show that O. gratissimum extract may be a potential antigastric cancer agent.

Published

2020

7. Administration of Lactobacillus reuteri Combined with Clostridium butyricum Attenuates Cisplatin-Induced Renal Damage by Gut Microbiota Reconstitution, Increasing Butyric Acid Production, and Suppressing Renal Inflammation

Author

Meng-Syuan Wei, Jiunn-Wang Liao, Meei-Yn Lin, Yu-Ping Hsiao, Chu-Chyn Ou, Hsiao-Ling Chen, Jiunn-Liang Ko, and Jen-Ning Tsai

Subjects

cisplatin, Butyrate, Gut flora, Pharmacology, law.invention, Nephrotoxicity, Probiotic, law, medicine, TX341-641, Clostridium butyricum, Bifidobacterium, Nutrition and Dietetics, biology, integumentary system, Chemistry, Nutrition. Foods and food supply, nephrotoxicity, biology.organism_classification, medicine.disease, Lactobacillus reuteri, Escherichia-Shigella, Dysbiosis, Food Science

Abstract

Cisplatin-induced nephrotoxicity is associated with gut microbiota disturbance. The present study aimed to investigate whether supplementation of Lactobacillus reuteri and Clostridium butyricum (LCs) had a protective effect on cisplatin-induced nephrotoxicity through reconstruction of gut microbiota. Wistar rats were given different treatments: control, cisplatin (Cis), cisplatin + C. butyricum and L. reuteri (Cis+LCs), and C. butyricum and L. reuteri (LCs). We observed that cisplatin-treated rats supplemented with LCs exhibited significantly decreased renal inflammation (KIM-1, F4/80, and MPO), oxidative stress, fibrosis (collagen IV, fibronectin, and a-SMA), apoptosis, concentration of blood endotoxin and indoxyl sulfate, and increased fecal butyric acid production compared with those without supplementation. In addition, LCs improved the cisplatin-induced microbiome dysbiosis by maintaining a healthy gut microbiota structure and diversity, depleting Escherichia-Shigella and the Enterobacteriaceae family, and enriching probiotic Bifidobacterium, Ruminococcaceae, Ruminiclostridium_9, and Oscillibacter. Moreover, the LCs intervention alleviated the cisplatin-induced intestinal epithelial barrier impairment. This study indicated LCs probiotic serves as a mediator of the gut–kidney axis in cisplatin-induced nephrotoxicity to restore the intestinal microbiota composition, thereby suppressing uremic toxin production and enhancing butyrate production. Furthermore, the renoprotective effect of LCs is partially mediated by increasing the anti-inflammatory effects and maintaining the integrity of the intestinal barrier.

Published

2021

8. Administration of

Author

Yu-Ping, Hsiao, Hsiao-Ling, Chen, Jen-Ning, Tsai, Meei-Yn, Lin, Jiunn-Wang, Liao, Meng-Syuan, Wei, Jiunn-Liang, Ko, and Chu-Chyn, Ou

Subjects

Inflammation, Limosilactobacillus reuteri, Nephritis, integumentary system, Escherichia-Shigella, Probiotics, nephrotoxicity, Lactobacillus reuteri, cisplatin, Kidney, Article, Gastrointestinal Microbiome, Rats, Disease Models, Animal, Clostridium butyricum, Animals, Butyric Acid, Rats, Wistar

Abstract

Cisplatin-induced nephrotoxicity is associated with gut microbiota disturbance. The present study aimed to investigate whether supplementation of Lactobacillus reuteri and Clostridium butyricum (LCs) had a protective effect on cisplatin-induced nephrotoxicity through reconstruction of gut microbiota. Wistar rats were given different treatments: control, cisplatin (Cis), cisplatin + C. butyricum and L. reuteri (Cis+LCs), and C. butyricum and L. reuteri (LCs). We observed that cisplatin-treated rats supplemented with LCs exhibited significantly decreased renal inflammation (KIM-1, F4/80, and MPO), oxidative stress, fibrosis (collagen IV, fibronectin, and a-SMA), apoptosis, concentration of blood endotoxin and indoxyl sulfate, and increased fecal butyric acid production compared with those without supplementation. In addition, LCs improved the cisplatin-induced microbiome dysbiosis by maintaining a healthy gut microbiota structure and diversity; depleting Escherichia-Shigella and the Enterobacteriaceae family; and enriching probiotic Bifidobacterium, Ruminococcaceae, Ruminiclostridium_9, and Oscillibacter. Moreover, the LCs intervention alleviated the cisplatin-induced intestinal epithelial barrier impairment. This study indicated LCs probiotic serves as a mediator of the gut–kidney axis in cisplatin-induced nephrotoxicity to restore the intestinal microbiota composition, thereby suppressing uremic toxin production and enhancing butyrate production. Furthermore, the renoprotective effect of LCs is partially mediated by increasing the anti-inflammatory effects and maintaining the integrity of the intestinal barrier.

Published

2021

9. Oxygenated Water Inhibits Adipogenesis and Attenuates Hepatic Steatosis in High-Fat Diet-Induced Obese Mice

Author

Hsueh Te Lee, Yih Hsin Chang, Jen Ning Tsai, Ching-Ping Yang, Ming Yuh Shiau, Yuh-Jen Cheng, Cheng-Wei Chuang, Chao-Chi Liu, Chiao-Wan Hsiao, and Fang-Yeh Chu

Subjects

0301 basic medicine, Mice, Obese, Adipose tissue, lcsh:Chemistry, Mice, chemistry.chemical_compound, 0302 clinical medicine, Fibrosis, Adipocyte, lipid metabolism, lcsh:QH301-705.5, Spectroscopy, hepatic steatosis, Cell Differentiation, General Medicine, Computer Science Applications, Adipose Tissue, Adipogenesis, oxygenated water, medicine.symptom, medicine.medical_specialty, adipocytes, 030209 endocrinology & metabolism, Inflammation, Diet, High-Fat, Article, Catalysis, adipogenesis, Inorganic Chemistry, 03 medical and health sciences, 3T3-L1 Cells, Internal medicine, medicine, Animals, Humans, Obesity, Physical and Theoretical Chemistry, Molecular Biology, Lipogenesis, Organic Chemistry, Water, Lipid metabolism, medicine.disease, Fatty Liver, Oxygen, 030104 developmental biology, Endocrinology, chemistry, lcsh:Biology (General), lcsh:QD1-999, Steatosis, Adipocyte hypertrophy

Abstract

The expansion of adipose tissue mass is the primary characteristic of the process of becoming obesity, which causes chronic adipose inflammation and is closely associated with type 2 diabetes mellitus (T2DM). Adipocyte hypertrophy restricts oxygen availability, leading to microenvironmental hypoxia and adipose dysfunction. This study aimed at investigating the effects of oxygenated water (OW) on adipocyte differentiation (adipogenesis) and the metabolic function of mature adipocytes. The effects of OW on adipogenesis and the metabolic function of mature adipocytes were examined. Meanwhile, the in vivo metabolic effects of long-term OW consumption on diet-induced obesity (DIO) mice were investigated. OW inhibited adipogenesis and lipid accumulation through down-regulating critical adipogenic transcription factors and lipogenic enzymes. While body weight, blood and adipose parameters were not significantly improved by long-term OW consumption, transient circulatory triglyceride-lowering and glucose tolerance-improving effects were identified. Notably, hepatic lipid contents were significantly reduced, indicating that the DIO-induced hepatic steatosis was attenuated, despite no improvements in fibrosis and lipid contents in adipose tissue being observed in the OW-drinking DIO mice. The study provides evidence regarding OW&rsquo, s effects on adipogenesis and mature adipocytes, and the corresponding molecular mechanisms. OW exhibits transient triglyceride-lowering and glucose tolerance-improving activity as well as hepatic steatosis-attenuating functions.

Published

2020

10. Combination treatment of Src inhibitor Saracatinib with GMI, a Ganoderma microsporum immunomodulatory protein, induce synthetic lethality via autophagy and apoptosis in lung cancer cells

Author

Jiunn-Liang Ko, Chih‐Jung Chen, Gwo-Tarng Sheu, Wen-Jun Wu, Chu-Chyn Ou, Ling‐Yen Chiu, Jen-Ning Tsai, and I-Lun Hsin

Subjects

0301 basic medicine, Programmed cell death, Lung Neoplasms, Physiology, Clinical Biochemistry, ATG5, Apoptosis, Synthetic lethality, Autophagy-Related Protein 5, Fungal Proteins, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Annexin, Antineoplastic Combined Chemotherapy Protocols, Autophagy, Cytotoxic T cell, Animals, Humans, Immunologic Factors, Propidium iodide, Benzodioxoles, Enzyme Inhibitors, Cell Proliferation, A549 cell, Caspase 7, Chemistry, Ganoderma, Cell Biology, Xenograft Model Antitumor Assays, 030104 developmental biology, src-Family Kinases, A549 Cells, 030220 oncology & carcinogenesis, Cancer research, Quinazolines, Synthetic Lethal Mutations

Abstract

Saracatinib is an oral Src-kinase inhibitor and has been studied in preclinical models and clinical trials of cancer therapy. GMI, a fungal immunomodulatory protein from Ganoderma microsporum, possesses antitumor capacity. The aim of this study is to evaluate the cytotoxic effect of combination treatment with saracatinib and GMI on parental and pemetrexed-resistant lung cancer cells. Cotreatment with saracatinib and GMI induced synergistic and additive cytotoxic effect in A549 and A400 cells by annexin V/propidium iodide assay and combination index. Using western blot assay, saracatinib, and GMI combined treatment synergistically induced caspase-7 activation in A549 cells. Different from A549 cells, saracatinib and GMI cotreatment markedly increased LC3B-II in A400 cells. ATG5 silencing abolished the caspase-7 activation and reduced cell death in A549 cells after cotreatment. This is the first study to provide a novel strategy of treating lung cancer with or without drug resistance via combination treatment with GMI and saracatinib.

Published

2020

11. The Transgenic Zebrafish Display Fluorescence Reflecting the Expressional Dynamics of Dihydrofolate Reductase

Author

Tzu Fun Fu, Bing-Hung Chen, Chien-Chih Chiu, Jen Ning Tsai, Tseng Ting Kao, Wan Yu Chi, Wen Ni Chang, Wangta Liu, and Shih Shin Liang

Subjects

0301 basic medicine, Embryo, Nonmammalian, Sp1 Transcription Factor, Transgene, Green Fluorescent Proteins, Biology, Fluorescence, Gene Expression Regulation, Enzymologic, Green fluorescent protein, Animals, Genetically Modified, 03 medical and health sciences, 0302 clinical medicine, Eukaryotic translation, parasitic diseases, Dihydrofolate reductase, Animals, Humans, heterocyclic compounds, Promoter Regions, Genetic, Transcription factor, Zebrafish, Messenger RNA, Promoter, Zebrafish Proteins, biology.organism_classification, Molecular biology, Tetrahydrofolate Dehydrogenase, enzymes and coenzymes (carbohydrates), 030104 developmental biology, 030220 oncology & carcinogenesis, biology.protein, Animal Science and Zoology, HeLa Cells, Developmental Biology

Abstract

Dihydrofolate reductase (DHFR) reduces folic acid and recycles dihydrofolate generated during dTMP biosynthesis to tetrahydrofolate. DHFR is upregulated in rapidly proliferating cells and hence a favored target of antifolate drug against cancers, autoimmune diseases, and microbial infections. However, increased expression of dhfr contributed to the often emerging drug resistance and impeded the therapeutic efficacy of antifolate drugs. Therefore, comprehensive knowledge on the expressional control of dhfr becomes crucial. We generated two zebrafish transgenic lines, Tg(zdhfr+91:EGFP) and Tg(zdhfr+79:EGFP), which express green fluorescent protein driven by two zebrafish dhfr promoter fragments separately. The fluorescence intensity displayed in these transgenic embryos recapitulated the expressional dynamics of endogenous dhfr and reflected changes in dhfr mRNA and protein levels. The fluorescence intensity of these transgenic embryos was responsive to both genetic and environmental factors potentially modulating dhfr promoter activity. Sequence analyses revealed partial conservation on the landscape of transcription factor arrangement between zebrafish and human dhfr promoters. A noncanonical and inhibitory Sp1 site was identified 170 base-pair upstream to the conserved Sp1 site in close proximity to the translation initiation codon. Our results supported the potential use of these transgenic embryos for studying the expressional dynamics of dhfr and preliminary screening for dhfr promoter modulators.

Published

2017

12. A novel zebrafish model to emulate lung injury by folate deficiency-induced swim bladder defectiveness and protease/antiprotease expression imbalance

Author

Tsunglin Liu, Nai Wei Cheng, Bing Hung Chen, Jen Ning Tsai, Gang Hui Lee, Tzu Fun Fu, Hsin Hsuan Yu, and Zhi Hong Wen

Subjects

0301 basic medicine, ARDS, Embryo, Nonmammalian, Cathepsin L, Science, Embryonic Development, Folic Acid Deficiency, Lung injury, Article, Structure-Activity Relationship, 03 medical and health sciences, 0302 clinical medicine, Endopeptidases, Swim bladder, medicine, Animals, Protease Inhibitors, Amino Acid Sequence, Cystatin B, RNA, Messenger, Zebrafish, Multidisciplinary, Air Sacs, biology, Microarray analysis techniques, Chronic obstructive pulmonary disease, Transgenic organisms, Lung Injury, Zebrafish Proteins, biology.organism_classification, medicine.disease, Recombinant Proteins, Experimental models of disease, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Larva, biology.protein, Cancer research, Medicine, human activities, Biomarkers, 030217 neurology & neurosurgery, Respiratory tract

Abstract

Lung injury is one of the pathological hallmarks of most respiratory tract diseases including asthma, acute respiratory distress syndrome (ARDS) and chronic obstructive pulmonary disease (COPD). It involves progressive pulmonary tissue damages which are usually irreversible and incurable. Therefore, strategies to facilitate drug development against lung injury are needed. Here, we characterized the zebrafish folate-deficiency (FD) transgenic line that lacks a fully-developed swim bladder. Whole-mount in-situ hybridization revealed comparable distribution patterns of swim bladder tissue markers between wild-type and FD larvae, suggesting a proper development of swim bladder in early embryonic stages. Unexpectedly, neutrophils infiltration was not observed in the defective swim bladder. Microarray analysis revealed a significant increase and decrease of the transcripts for cathepsin L and a cystatin B (CSTB)-like (zCSTB-like) proteins, respectively, in FD larvae. The distribution of cathepsin L and the zCSTB-like transcripts was spatio-temporally specific in developing wild-type embryos and, in appropriate measure, correlated with their potential roles in maintaining swim bladder integrity. Supplementing with 5-formyltetrahydrofolate successfully prevented the swim bladder anomaly and the imbalanced expression of cathepsin L and the zCSTB-like protein induced by folate deficiency. Injecting the purified recombinant zebrafish zCSTB-like protein alleviated FD-induced swim bladder anomaly. We concluded that the imbalanced expression of cathepsin L and the zCSTB-like protein contributed to the swim bladder malformation induced by FD and suggested the potential application of this transgenic line to model the lung injury and ECM remodeling associated with protease/protease inhibitor imbalance.

Published

2019

13. Interleukin-4 Promotes Myogenesis and Boosts Myocyte Insulin Efficacy

Author

Ming Yuh Shiau, Jen Ning Tsai, Tzu Lin Chen, Yih Hsin Chang, Chiao Wan Hsiao, Hsin Yi Cheng, and Kuo Ting Ho

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Article Subject, Glucose uptake, medicine.medical_treatment, Immunology, Blotting, Western, Carbohydrate metabolism, Muscle Development, Cell Line, Myoblasts, 03 medical and health sciences, Mice, 0302 clinical medicine, Insulin resistance, Internal medicine, lcsh:Pathology, medicine, Myocyte, Animals, Muscle Cells, Glucose Transporter Type 4, biology, Myogenesis, Reverse Transcriptase Polymerase Chain Reaction, Insulin, Biological Transport, Cell Differentiation, Cell Biology, medicine.disease, Mice, Inbred C57BL, Insulin receptor, 030104 developmental biology, Endocrinology, Glucose, Microscopy, Fluorescence, 030220 oncology & carcinogenesis, biology.protein, Interleukin-4, GLUT4, lcsh:RB1-214, Research Article

Abstract

Anti-inflammatory cytokine interleukin-4 (IL-4) promotes glucose tolerance and insulin sensitivity while reduces lipid deposits. However, the effects of IL-4 on energy metabolism in muscle, the largest insulin-targeting organ, remain obscure. The study aimed at addressing the roles of IL-4 in myocyte differentiation (myogenesis) and energy metabolism of muscle cells. Effects of IL-4 on myogenesis, and interaction between IL-4 and insulin on glucose metabolism of C2C12 myoblasts and the terminal differentiated myocytes were analyzed. IL-4 improved GLUT4 translocation and tended to elevate glucose uptake by boosting insulin signaling. In diabetic mice, transient and long-term IL-4 showed differential effects on insulin signaling and efficacy. The study provides evidence to address the roles of IL-4 in mediating whole-body muscle reservoir and glucose metabolism, as well as the interaction between immune responses and energy homeostasis. IL-4 has dual potential to act as an adjuvant therapeutic target for sarcopenia to preserve muscle mass and insulin resistance to improve insulin sensitivity, which implicates the regulation of immune system to the muscle differentiation and exercise performance.

Published

2019

14. Ocimum Gratissimum Extract Induces Apoptosis in Gastric Cancer Cells via Modulation of Reactive Oxygen Species and Mitogen-Activated Protein Kinase.

Author

Ming-Jen Sheu, Jen-Ning Tsai, Wai-Lun Tam, Jer-Yuh Liu, and Li-Sung Hsu

Subjects

*STOMACH tumors, *MEDICINAL plants, *ANTI-inflammatory agents, *WESTERN immunoblotting, *APOPTOSIS, *ANTIOXIDANTS, *ANTINEOPLASTIC agents, *CELL proliferation, *PLANT extracts, *CELL lines, *REACTIVE oxygen species, *MITOGEN-activated protein kinases, *EXTRACELLULAR space, *CASPASES

Abstract

Given the increasing incidence of gastric cancer and its high rate of metastasis, drug resistance and the mortality rate remain high. Ocimum gratissimum, a botanical species of Ocimum known to exhibit general anti-inflammatory, antioxidant, and anticancer activities has not yet been evaluated for gastric cancer proliferation. In this study, we have demonstrated that O. gratissimum extract significantly reduces the viability of gastric cancer cells by triggering apoptosis, elevating levels of ROS, and enhanced cleavage of poly-ADP-ribose polymerase and caspase-3. Western blot analysis indicated that O. gratissimum extract enhanced the cleavage of PARP and caspase-3. Moreover, O. gratissimum extract inhibited extracellular signal-regulated kinase 1/2 and increased activities of p38, a stress stimulated kinase. In conclusion, our findings show that O. gratissimum extract may be a potential antigastric cancer agent. [ABSTRACT FROM AUTHOR]

Published

2021

15. Regulation of Adipogenesis and Lipid Deposits by Collapsin Response Mediator Protein 2

Author

Yih Hsin Chang, Chiao Wan Hsiao, Ming Yuh Shiau, Jen Ning Tsai, Ching-Ping Yang, Wei Ting Hsu, and Shu Wen Chang

Subjects

Male, 0301 basic medicine, obesity, Energy homeostasis, glycogen synthase kinase-3β, lcsh:Chemistry, Mice, chemistry.chemical_compound, neurodegenerative disease, 0302 clinical medicine, Lipid droplet, Adipocyte, lipid metabolism, Adipocytes, RNA, Small Interfering, lcsh:QH301-705.5, Cytoskeleton, Spectroscopy, Glucose Transporter Type 4, biology, Chemistry, General Medicine, Lipids, Up-Regulation, Computer Science Applications, Cell biology, Adipogenesis, Gene Knockdown Techniques, Intercellular Signaling Peptides and Proteins, Collapsin response mediator protein family, Signal Transduction, Nerve Tissue Proteins, Diet, High-Fat, Article, Catalysis, adipogenesis, Inorganic Chemistry, 03 medical and health sciences, 3T3-L1 Cells, collapsin response mediator protein 2, Animals, Gene Silencing, Physical and Theoretical Chemistry, Molecular Biology, Transcription factor, Cell Proliferation, Glycogen Synthase Kinase 3 beta, Organic Chemistry, Lipid metabolism, Actins, Mice, Inbred C57BL, Glucose, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, biology.protein, 030217 neurology & neurosurgery, GLUT4

Abstract

As emerging evidence suggesting neurodegenerative diseases and metabolic diseases have common pathogenesis, we hypothesized that the neurite outgrowth-controlling collapsin response mediator protein 2 (CRMP2) was involved in energy homeostasis. Therefore, putative roles of CRMP2 in adipocyte differentiation (adipogenesis) and lipid metabolism were explored and addressed in this study. CRMP2 expression profiles were in vitro and in vivo characterized during adipogenic process of 3T3-L1 pre-adipocytes and diet-induced obese (DIO) mice, respectively. Effects of CRMP2 on lipid metabolism and deposits were also analyzed. Our data revealed that CRMP2 expression pattern was coupled with adipogenic stages. CRMP2 overexpression inhibited cell proliferation at MCE phase, and significantly reduced lipid contents by down-regulating adipogenesis-driving transcription factors and lipid-synthesizing enzymes. Interestingly, GLUT4 translocation and the lipid droplets fusion were disturbed in CRMP2-silencing cells by affecting actin polymerization. Moreover, adipose CRMP2 was significantly increased in DIO mice, indicating CRMP2 is associated with obesity. Accordingly, CRMP2 exerts multiple functions in adipogenesis and lipid deposits through mediating cell proliferation, glucose/lipid metabolism and cytoskeleton dynamics. The present study identifies novel roles of CRMP2 in mediating adipogenesis and possible implication in metabolic disorders, as well as provides molecular evidence supporting the link of pathogenesis between neurodegenerative diseases and metabolic abnormalities.

Published

2020

16. Hypericin Induced Malformation, Mortality and Hepatotoxicity During Zebrafish Development

Author

Chao-Ming, Shih, primary, Jen-Ning, Tsai, additional, Chih-Hsien, Wu, additional, Jiunn-Liang, Ko, additional, and Li-Sung, Hsu, additional

Published

2019

17. Protective role of Bu-Zhong-Yi-Qi decoction on aristolochic acid-intoxicated zebrafish.

Author

Jen-Ning Tsai, Yu-Ju Ding, Kang-Chieh Lo, Ping-Hsun Lu, Chiung-Fang Chang, Chi-Chung Wen, Bo-Cheng Wang, Ling-Ling Yang, and Yau-Hung Chen

Subjects

*BRACHYDANIO, *ZEBRA danio, *ARISTOLOCHIC acid, *ZEBRA danio embryos, *MEDICAL prescriptions, *GENE silencing, *GENE expression

Abstract

Purpose: To investigate the potential nephroprotective effects of a traditional Chinese medical prescription, Bu-Zhong-Yi-Qi Decoction (BZYQD) in an aristolochic acid (AA)-intoxicated zebrafish model. Methods: A green fluorescent zebrafish line Tg (wt1b:EGFP) was used, and different exposure protocols were applied. Once a suitable protective concentration of BZYQD was found, antibody staining and real-time PCR methods were applied and the pro-inflammatory gene expressions were determined. Results: The results showed that low dose (10 ppm) of BZYQD attenuates the AA-induced malformed kidney phenotype. This finding was further substantiated by an examination of the integrity of pronephric tubes in the treated embryos. Pre-treatment with BZYQD suppressed the elevated expressions of proinflammatory genes, including tumor necrosis factor-α and myeloperoxidase, induced by AA exposure (1.6 ~ 2.3-fold). This indicates that the nephroprotective effect of BZYQD may be mediated by suppression of pro-inflammatory gene expression. On the other hand, a high dose (500 ppm) of BZYQD caused nephrotoxic effect. Conclusion: An efficient model to identify AA-protective compounds using zebrafish embryos has been successfully established. Using this strategy, it has been found that BZYQD is nephroprotective in zebrafish embryos, and might have the potential to be applied in humans. [ABSTRACT FROM AUTHOR]

Published

2021

18. One crisis, diverse impacts-Tissue-specificity of folate deficiency-induced circulation defects in zebrafish larvae

Author

Gang Hui Lee, Jen Ning Tsai, Tsun Hsien Hsiao, Tzu Ya Wang, Tzu Fun Fu, Tseng Ting Kao, and Hung Chi Tu

Subjects

B Vitamins, 0301 basic medicine, Life Cycles, Embryology, lcsh:Medicine, medicine.disease_cause, Animals, Genetically Modified, chemistry.chemical_compound, Larvae, 0302 clinical medicine, Cell Movement, Animal Cells, Red Blood Cells, Medicine and Health Sciences, lcsh:Science, Zebrafish, Multidisciplinary, Heart development, Folate Deficiency, Organic Compounds, Eukaryota, Heart, Anemia, Embryo, Hematology, Animal Models, Vitamins, Megaloblastic Anemia, Chemistry, Cell Motility, Haematopoiesis, Experimental Organism Systems, Biochemistry, Osteichthyes, Larva, Blood Circulation, Vertebrates, Physical Sciences, Cellular Types, Research Article, Vitamin, medicine.medical_specialty, Transgene, Embryonic Development, Cell Migration, Folic Acid Deficiency, Biology, Research and Analysis Methods, 03 medical and health sciences, Model Organisms, Folic Acid, Internal medicine, medicine, Animals, Megaloblastic anemia, Cell Proliferation, Blood Cells, Embryos, Organic Chemistry, lcsh:R, Organisms, Chemical Compounds, Biology and Life Sciences, Cell Biology, medicine.disease, biology.organism_classification, Hematopoiesis, Oxidative Stress, Fish, 030104 developmental biology, Endocrinology, chemistry, lcsh:Q, 030217 neurology & neurosurgery, Oxidative stress, Developmental Biology

Abstract

Folate (vitamin B9) is an essential nutrient required for cell survival, proliferation, differentiation and therefore embryogenesis. Folate deficiency has been associated with many diseases, including congenital heart diseases and megaloblastic anemia, yet the mechanisms underlying these remains elusive. Here, we examine the impact of folate deficiency on the development of the circulation system using a zebrafish transgenic line which displays inducible folate deficiency. Impaired hematopoiesis includes decreased hemoglobin levels, decreased erythrocyte number, increased erythrocyte size and aberrant c-myb expression pattern were observed in folate deficient embryos. Cardiac defects, including smaller chamber size, aberrant cardiac function and cmlc2 expression pattern, were also apparent in folate deficient embryos. Characterization of intracellular folate content in folate deficiency revealed a differential fluctuation among the different folate derivatives that carry a single carbon group at different oxidation levels. Rescue attempts by folic acid and nucleotides resulted in differential responses among affected tissues, suggesting that different pathomechanisms are involved in folate deficiency-induced anomalies in a tissue-specific manner. The results of the current study provide an explanation for the inconsistent outcome observed clinically in patients suffering from folate deficiency and/or receiving folate supplementation. This study also supports the use of this model for further research on the defective cardiogenesis and hematopoiesis caused by folate deficiency.

Published

2017

19. Zebrafish: An In Vivo Model for Motile Ciliopathy

Author

Chiung-Fang Chang and Jen-Ning Tsai

Subjects

animal structures, biology, Cilium, General Medicine, respiratory system, medicine.disease, biology.organism_classification, Ciliopathies, Cell biology, Ciliopathy, Microtubule, Intraflagellar transport, medicine, Motile cilium, Zebrafish, Primary ciliary dyskinesia

Abstract

Cilia are highly conserved, microtubule-based organelles. The growing numbers of human diseases due to cilia dysfunction, termed ciliopathies, highlights the functional importance of cilia. Primary ciliary dyskinesia (PCD) is a genetic disorder of the motile cilia, displaying diverse clinical manifestations. With many molecular and genetic tools, zebrafish have emerged as a useful organism model, which allows the investigation of human diseases. Here, we describe the utility of zebrafish in the study of cilia and PCD. With forward and reverse genetic approaches, several novel mutations encoding essential components in motile cilia had been identified in zebrafish. These discoveries will increase our understanding toward cilia biology and have the potential to improve the diagnosis and treatment for affected individuals.

Published

2014

20. Glycogen synthase kinase 3 beta in somites plays a role during the angiogenesis of zebrafish embryos

Author

Jen Ning Tsai, Hung-Chieh Lee, Jia-Rung Hu, Huai-Jen Tsai, Wei-Jhen Huang, Yen Ting Lai, and Yi-Zhen Lin

Subjects

Vascular Endothelial Growth Factor A, Embryo, Nonmammalian, Morpholino, Angiogenesis, Cleavage Stage, Ovum, Neovascularization, Physiologic, Biology, Biochemistry, Glycogen Synthase Kinase 3, Phosphatidylinositol 3-Kinases, chemistry.chemical_compound, Animals, Molecular Biology, Protein kinase B, GSK3B, Zebrafish, PI3K/AKT/mTOR pathway, Gene knockdown, Glycogen Synthase Kinase 3 beta, Wnt signaling pathway, Gene Expression Regulation, Developmental, Cell Biology, Zebrafish Proteins, Wnt Proteins, Vascular endothelial growth factor, Somites, chemistry, Cancer research, Endothelium, Vascular, Proto-Oncogene Proteins c-akt, Signal Transduction

Abstract

Glycogen synthase kinase 3 beta (Gsk3b) acts as a negative modulator in endothelial cells through the Wnt/β-catenin/PI3K/AKT/Gsk3b axis in cancer-induced angiogenesis. However, the function of Gsk3b during embryonic angiogenesis remains unclear. Here, either gsk3b knockdown by morpholino or Gsk3b loss of activity by LiCl treatment had serious phenotypic consequences, such as defects in the positioning and patterning of intersegmental blood vessels and reduction of vegfaa121 and vegfaa165 transcripts. In embryos treated with the phosphatidylinositol 3-kinase inhibitor, angiogenesis was severely inhibited, along with reduced Wnt, phosphorylated AKT and phosphorylated Gsk3b, suggesting that the remaining Gsk3b in somites could still degrade β-catenin, resulting in decreased vascular endothelial growth factor Aa(VegfAa) expression. However, in gsk3b-mRNA-overexpressed embryos, intersegmental vessels ectopically sprouted by the increase in phosphorylated-Gsk3b which prevented the degradation of β-catenin and promoted the increase in phosphorylated AKT activity, thus increasing VegfAa expression in somites. Interestingly, the Gsk3b-dependent cross-talk between PI3K/AKT and Wnt/β-catenin suggests that Wnt/β-catenin and PI3K/AKT interaction controls embryonic angiogenesis by a positive feedback loop rather than a hierarchical framework such as that found in cancer-induced angiogenesis. Thus, both active and inactive forms of Gsk3b mediate the cooperative signaling between Wnt/β-catenin and PI3K/AKT to control VegfAa expression in somites during angiogenesis in zebrafish embryos.

Published

2014

21. Knocking down 10-formyltetrahydrofolate dehydrogenase increased oxidative stress and impeded zebrafish embryogenesis by obstructing morphogenetic movement

Author

Gang Hui Lee, Bing Hung Chen, Hsin Ru Wu, Wen Ni Chang, Cha Ying Lin, Tseng Ting Kao, Huai-Jen Tsai, Jen Ning Tsai, Tsun Hsien Hsiao, Yau-Hung Chen, and Tzu Fun Fu

Subjects

Biophysics, Embryonic Development, Epiboly, Dehydrogenase, Biochemistry, Formate oxidation, Morpholinos, Folic Acid, Morphogenesis, Animals, Humans, Amino Acid Sequence, Molecular Biology, Zebrafish, chemistry.chemical_classification, Oxidoreductases Acting on CH-NH Group Donors, biology, Embryogenesis, Gene Expression Regulation, Developmental, Embryo, biology.organism_classification, Oxidative Stress, Enzyme, chemistry, Gene Knockdown Techniques, Intracellular

Abstract

Background Folate is an essential nutrient for cell survival and embryogenesis. 10-Formyltetrahydrofolate dehydrogenase (FDH) is the most abundant folate enzyme in folate-mediated one-carbon metabolism. 10-Formyltetrahydrofolate dehydrogenase converts 10-formyltetrahydrofolate to tetrahydrofolate and CO2, the only pathway responsible for formate oxidation in methanol intoxication. 10-Formyltetrahydrofolate dehydrogenase has been considered a potential chemotherapeutic target because it was down-regulated in cancer cells. However, the normal physiological significance of 10-Formyltetrahydrofolate dehydrogenase is not completely understood, hampering the development of therapeutic drug/regimen targeting 10-Formyltetrahydrofolate dehydrogenase. Methods 10-Formyltetrahydrofolate dehydrogenase expression in zebrafish embryos was knocked-down using morpholino oligonucleotides. The morphological and biochemical characteristics of fdh morphants were examined using specific dye staining and whole-mount in-situ hybridization. Embryonic folate contents were determined by HPLC. Results The expression of 10-formyltetrahydrofolate dehydrogenase was consistent in whole embryos during early embryogenesis and became tissue-specific in later stages. Knocking-down fdh impeded morphogenetic movement and caused incorrect cardiac positioning, defective hematopoiesis, notochordmalformation and ultimate death of morphants. Obstructed F-actin polymerization and delayed epiboly were observed in fdh morphants. These abnormalities were reversed either by adding tetrahydrofolate or antioxidant or by co-injecting the mRNA encoding 10-formyltetrahydrofolate dehydrogenase N-terminal domain, supporting the anti-oxidative activity of 10-formyltetrahydrofolate dehydrogenase and the in vivo function of tetrahydrofolate conservation for 10-formyltetrahydrofolate dehydrogenase N-terminal domain. Conclusions 10-Formyltetrahydrofolate dehydrogenase functioned in conserving the unstable tetrahydrofolate and contributing to the intracellular anti-oxidative capacity of embryos, which was crucial in promoting proper cell migration during embryogenesis. General significance These newly reported tetrahydrofolate conserving and anti-oxidative activities of 10-formyltetrahydrofolate dehydrogenase shall be important for unraveling 10-formyltetrahydrofolate dehydrogenase biological significance and the drug development targeting 10-formyltetrahydrofolate dehydrogenase.

Published

2014

22. Nephrotoxicity assessments of benzo(a)pyrene during zebrafish embryogenesis

Author

Jen Ning Tsai, Ming-Fu Chang, Chiao-Yin Sun, Yau-Hung Chen, Wan-Ling Chang, Shin C. Chang, Yu-Ju Ding, Yi-En Wen, Kai-Ping Chang, Kang-Chieh Lo, and Yun-Hsin Wang

Subjects

Kidney, biology, Embryogenesis, Kidney development, General Chemistry, biology.organism_classification, Green fluorescent protein, Nephrotoxicity, Toxicology, Andrology, chemistry.chemical_compound, medicine.anatomical_structure, Benzo(a)pyrene, chemistry, medicine, Pyrene, Zebrafish

Abstract

Benzo(a)pyrene is a chemical produced during the process of making fried, roasted, and smoked foods. It remains unclear whether benzo(a)pyrene affects the early development of human organs. In this study, we used the transgenic zebrafish line Tg(wt1b:GFP) as a model to assess benzo(a)pyrene-induced kidney malformation. By soaking zebrafish embryos in benzo(a)pyrene at various doses (2, 20, and 200 ppb), only a minor effect on the survival rate was detected (0 ppb: 97.8 ± 1.9 %; 2–200 ppb: 89.1 ± 5.8–91.5 ± 8.3 %). However, benzo(a)pyrene significantly affected the development of the kidney (malformation rates ranges from 50.0 ± 3.5 to 77.4 ± 5.3 %). Various abnormalities, such as unusual curving of pronephric tubes, swollen glomerulus, and incomplete development of pronephric ducts, were observed. This study provides a rapid and effective protocol for the evaluation of the notable effects of benzo(a)pyrene on embryonic kidney development.

Published

2014

23. Exposure to benzidine caused apoptosis and malformation of telencephalon region in zebrafish

Author

Jia-Lun Wu, Li-Chi Hsu, Jen Ning Tsai, Chi-Wei Yeh, Li-Sung Hsu, You-Cheng Hseu, and Mark Hung-Chih Chen

Subjects

animal structures, TUNEL assay, Cerebrum, Health, Toxicology and Mutagenesis, fungi, Acridine orange, Developmental toxicity, EMX1, General Medicine, Management, Monitoring, Policy and Law, Biology, Toxicology, biology.organism_classification, Molecular biology, Benzidine, chemistry.chemical_compound, medicine.anatomical_structure, nervous system, chemistry, Apoptosis, embryonic structures, medicine, Zebrafish

Abstract

Exposure to benzidine has been known to induce human cancers, particularly bladder carcinomas. In this study, the zebrafish model was used to investigate the developmental toxicity of benzidine. Embryos at 6 h postfertilization (hpf) that were exposed to benzidine exhibited embryonic death in a dose- and time-dependent manner. Benzidine induced malformations in zebrafish, such as small brain development, shorter axes, and a slight pericardial edema. High concentrations (50, 100, and 200 µM) of benzidine triggered widespread apoptosis in the brain and dorsal neurons, as evidenced by acridine orange and terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) assays. Real-time polymerase chain reaction analysis also showed that benzidine treatment affected p53, bax, and noxa expression. Decreases in specific brain markers, such as emx1 in the telencephalon, ngn1 in differentiated neurons, and otx2 in the midbrain, were observed in benzidine-treated embryos at 24 hpf. Conversely, no overt changes to pax2.1 expression in the midbrain-hindbrain boundary were found. Moreover, the use of Tg(HuC:GFP) zebrafish showed that benzidine caused a malformation of the telencephalon region. Our findings show that benzidine exposure triggers widespread apoptosis in the zebrafish brain and dorsal neurons, resulting in the development of an abnormal telencephalon.

Published

2013

24. Mycobacterial Prevalence and Antibiotic Resistance Frequency Trends in Taiwan of Mycobacterial Clinical Isolates From 2002 to 2014

Author

Jen Ning Tsai, Yih Hsin Chang, Tian Lin Huang, Ming Yuh Shiau, and Ming Shih Lee

Subjects

Tuberculosis, Taiwan, Observational Study, Mycobacterium Infections, Nontuberculous, Drug resistance, Microbial Sensitivity Tests, Microbiology, 03 medical and health sciences, 0302 clinical medicine, Antibiotic resistance, Tuberculosis, Multidrug-Resistant, medicine, Humans, 030212 general & internal medicine, Antibiotics, Antitubercular, Tuberculosis, Pulmonary, Ethambutol, biology, business.industry, Incidence, Isoniazid, General Medicine, biology.organism_classification, medicine.disease, bacterial infections and mycoses, Cross-Sectional Studies, 030228 respiratory system, Mycobacterium tuberculosis complex, Nontuberculous mycobacteria, business, Rifampicin, medicine.drug, Research Article

Abstract

Tuberculosis, caused by Mycobacterium tuberculosis complex (MTBC) infections, is one of the most widespread infectious diseases worldwide. Nontuberculous mycobacteria (NTM) also cause chronic pulmonary infections, however, NTM infection is generally overlooked. This study analyzed the frequencies of MTBC and NTM clinical isolates from 181,132 specimens obtained from patients in Taiwan suspected of having a pulmonary mycobacterial infection from 2002 to 2014. The resistant rates to 4 first-line antibiotics (isoniazid, ethambutol, rifampicin, and streptomycin) of 9079 clinical MTBC isolates were also examined by the modified agar proportion method. Overall, the mycobacterial isolation rate was 8.65%, and this consisted of MTBC isolation rate of 5.01% and NTM isolation rate of 3.63%. The prevalence of MTBC isolates among the identified mycobacterial strains could be seen to decrease significantly from 82.5% in 2002 to 41.18% in 2014. Notably, the corresponding NTM prevalence increased 3.36 fold from 17.54% in 2002 to 58.82% in 2014. The frequencies of MTBC and NTM isolates showed a reciprocal trend with the crossing over occurring in the years 2010 and 2011. Although the resistance rates of the MTBC isolates to isoniazid and streptomycin were relatively stable over the study period, resistance rates of the MTBC isolates against rifampicin and ethambutol fluctuated across the study period. Overall, the incidence of multidrug resistance was relatively consistent at about 1.74%. The diagnosis, identification, and susceptibility tests for NTM should be standardized and integrated into appropriate clinical settings to cope with the increase in NTM infections. In addition, the documentation of the antibiotic resistance rates of MTBC clinical isolates to the antibiotic treatments most often clinically prescribed over a decade provides valuable clues and reference points for effective mycobacterial control.

Published

2016

25. N-Glycosylation of Human R-Spondin 1 Is Required for Efficient Secretion and Stability but Not for Its Heparin Binding Ability

Author

Chiung Fang Chang, Yau-Hung Chen, Yan Yu Liu, Jen Ning Tsai, Chih Kai Chen, Wen Ying Huang, Chieh Yu Weng, Yi Hwa Chou, Shu Ying Wang, Zi Xiu Yuan, Li-Sung Hsu, and Ho Lin

Subjects

0301 basic medicine, Protein Folding, Glycosylation, Mutant, R-spondin 1, N-glycosylation, secretion, stability, Wnt signaling, Endoplasmic Reticulum, lcsh:Chemistry, chemistry.chemical_compound, 0302 clinical medicine, N-linked glycosylation, Furin, lcsh:QH301-705.5, Spectroscopy, Secretory Pathway, biology, Protein Stability, Spondin 1, Wnt signaling pathway, General Medicine, Computer Science Applications, Biochemistry, Protein Binding, Catalysis, Article, Inorganic Chemistry, 03 medical and health sciences, Humans, Secretion, Physical and Theoretical Chemistry, RSPO1, Molecular Biology, Binding Sites, Heparin, Organic Chemistry, carbohydrates (lipids), 030104 developmental biology, HEK293 Cells, chemistry, lcsh:Biology (General), lcsh:QD1-999, biology.protein, Thrombospondins, Protein Processing, Post-Translational, 030217 neurology & neurosurgery

Abstract

R-spondin 1 (Rspo1) plays an essential role in stem cell biology by potentiating Wnt signaling activity. Despite the fact that Rspo1 holds therapeutic potential for a number of diseases, its biogenesis is not fully elucidated. All Rspo proteins feature two amino-terminal furin-like repeats, which are responsible for Wnt signal potentiation, and a thrombospondin type 1 (TSR1) domain that can provide affinity towards heparan sulfate proteoglycans. Using chemical inhibitors, deglycosylase and site-directed mutagenesis, we found that human Rspo1 and Rspo3 are both N-glycosylated at N137, a site near the C-terminus of the furin repeat 2 domain, and Rspo2 is N-glycosylated at N160, a position near the N-terminus of TSR1 domain. Elimination of N-glycosylation at these sites affects their accumulation in media but have no effect on the ability towards heparin. Introduction of the N-glycosylation site to Rspo2 mutant at the position homologous to N137 in Rspo1 restored full glycosylation and rescued the accumulation defect of nonglycosylated Rspo2 mutant in media. Similar effect can be observed in the N137 Rspo1 or Rspo3 mutant engineered with Rspo2 N-glycosylation site. The results highlight the importance of N-glycosylation at these two positions in efficient folding and secretion of Rspo family. Finally, we further showed that human Rspo1 is subjected to endoplasmic reticulum (ER) quality control in N-glycan-dependent manner. While N-glycan of Rspo1 plays a role in its intracellular stability, it had little effect on secreted Rspo1. Our findings provide evidence for the critical role of N-glycosylation in the biogenesis of Rspo1.

Published

2016

26. Zebrafish Cyclin-Dependent Protein Kinase–Like 1 (zcdkl1): Identification and Functional Characterization

Author

Cyong-Jhih Liang, Jen Ning Tsai, Chi-Wei Yeh, Li-Sung Hsu, and Chen-Yuan Tseng

Subjects

cyclin dependent protein kinase-like 1 (cdkl1), Molecular Sequence Data, floor plate, Epiboly, Embryonic Development, Catalysis, Article, Pronephric duct, Inorganic Chemistry, Histones, lcsh:Chemistry, Histone H1, Morphogenesis, Animals, Humans, Hedgehog Proteins, Amino Acid Sequence, RNA, Messenger, Physical and Theoretical Chemistry, Sonic hedgehog, Phosphorylation, RNA, Small Interfering, Protein kinase A, Molecular Biology, Zebrafish, lcsh:QH301-705.5, Spectroscopy, Floor plate, Oligonucleotide Array Sequence Analysis, biology, Organic Chemistry, Brain, Myelin Basic Protein, General Medicine, Zebrafish Proteins, biology.organism_classification, zebrafish, Molecular biology, Cyclin-Dependent Kinases, Computer Science Applications, Myelin basic protein, HEK293 Cells, expression pattern, lcsh:Biology (General), lcsh:QD1-999, biology.protein, RNA Interference, Sequence Alignment

Abstract

The cyclin-dependent protein kinase family regulates a wide range of cellular functions such as cell cycle progression, differentiation, and apoptosis. In this study, we identified a zebrafish cyclin-dependent protein kinase-like 1 protein called zebrafish cdkl1 (zcdkl1), which shared a high degree of homology and conserved synteny with mammalian orthologs. zcdkl1 exhibited abilities for phosphorylation of myelin basic protein and histone H1. RT-PCR analysis revealed that zcdkl1 was expressed starting from fertilization and continuing thereafter. In adult tissues, zcdkl1 was predominantly detected in brain, ovary, and testis, and was expressed at low levels in other tissues. At 50% epiboly stage, zcdkl1 was widely expressed. At 12 to 48 h post-fertilization, zcdkl1 was predominantly expressed in the hypochord, the medial and lateral floor plate, and the pronephric duct. Interference of zcdkl1 expression resulted in abnormalities, such as brain and eye malformation, pericardial edema, and body axis curvature. Disruption of zcdkl1 reduced neurogenin-1 in the brain and sonic hedgehog expression in the floor plate region. These deformities were apparently rescued by co-injection of zcdkl1 mRNA. Findings of this study indicate that zcdkl1 plays an essential role in zebrafish development.

Published

2011

27. Development of a Whole-organism Model to Screen New Compounds for Sun Protection

Author

Jen Ning Tsai, Chien-Chung Cheng, Zhi-Shiang Yang, Chia-Chen Ku, Yau-Hung Chen, Hsin-Ju Wu, Yun-Hsin Wang, and Chi-Chung Wen

Subjects

Ultraviolet Rays, Sun protection, Apoptosis, Green tea extract, Biology, Applied Microbiology and Biotechnology, Camellia sinensis, Catechin, Andrology, Cox proportional hazards regression, Botany, In Situ Nick-End Labeling, Animals, skin and connective tissue diseases, Zebrafish, DNA Primers, Analysis of Variance, integumentary system, Plant Extracts, Reverse Transcriptase Polymerase Chain Reaction, Extremities, Green tea, biology.organism_classification, Dorsal fin, Models, Animal, Toxicity, Zebrafish embryo, Regression Analysis, Sunscreening Agents

Abstract

We used zebrafish as a whole-organism model to screen new compounds for sun protection activity. First of all, we designed a series of UVB exposure experiments and recorded the phenotypic changes of zebrafish embryos. Results showed that 100 mJ/cm(2) of UVB given six times separated by 30 min intervals is the best condition. Fin malformation (reduced and/or absent fin) phenotypes are the most evident consequences after exposure to UVB. Each fin was affected by UVB, including pelvic, ventral, caudal, and dorsal fin, but pelvic fin seemed to be the most sensitive target after UVB exposure. We furthermore carried out "prevention" and "treatment" experiments using green tea extract and/or (-)-epigallocatechin (EGCG) to test this whole-organism model by observing the morphological changes of all fins (especially pelvic fin) after UVB exposure. Effects of UVB, green tea extract and EGCG on fin development were assessed using the Kaplan-Meier analysis, log-rank test and Cox proportional hazards regression. Results showed that a zebrafish pelvic fin in the UVB + green tea (treatment) group is 5.51 (range from 2.39 to 14.90) times, one in the UVB + green tea (prevention) group is 7.04 (range from 3.11 to 18.92) times, and one in the 25 ppm of EGCG (prevention) group is 22.19 (range from 9.40 to 61.50) times more likely to return to normal fin than one in the UVB only group. On the basis of these observations, we believe this model is effective for screening the higher stability and lower toxicity of new compounds, such as small chemicals which are derivative from EGCG or other dietary agents for sun protection.

Published

2008

28. von Hippel-Lindau gene plays a role during zebrafish pronephros development

Author

Yau-Hung Chen, Jen Ning Tsai, Chiung-Fang Chang, Yen-Yu Lai, Chiao-Yin Sun, and Yu-Ju Ding

Subjects

Vascular Endothelial Growth Factor A, medicine.medical_specialty, endocrine system diseases, Morpholino, Organogenesis, Kidney Glomerulus, Kidney development, Neovascularization, Physiologic, Polycythemia, Biology, urologic and male genital diseases, Pronephros, Pronephric duct, Morpholinos, Internal medicine, medicine, Animals, RNA, Messenger, neoplasms, Zebrafish, Gene knockdown, Podocytes, Ubiquitination, Morphant, Dextrans, Cell Biology, General Medicine, Zebrafish Proteins, biology.organism_classification, Hypoxia-Inducible Factor 1, alpha Subunit, Phenotype, female genital diseases and pregnancy complications, Cell biology, Endocrinology, Von Hippel-Lindau Tumor Suppressor Protein, Gene Knockdown Techniques, Models, Animal, Zonula Occludens-1 Protein, Developmental Biology, Signal Transduction

Abstract

von Hippel-Lindau (pVHL)-mediated ubiquitination of HIF-1α plays a central role in the cellular responses to changes in oxygen availability. In the present study, using zebrafish as a model, we showed that specific knockdown of endogenous vhl leads to pronephros malformation and renal failure. Knockdown of vhl resulted in abnormal kidney development, including curved and cystic pronephric tubule or/and cystic and atrophic glomerulus. Co-injecting capped vhl messenger RNA (mRNA) partially rescued pronephros morphant phenotype, confirming the specificity of the morpholino oligonucleotide (MO)-induced pronephric defects. In keeping with the pronephros phenotype, renal function was affected as well in vhl morphants. Dextran clearance abilities of vhl morphants were significantly reduced as compared with those of control embryos. Further analysis indicated that glomerular integrity is impaired in vhl morphants, while the organization of pronephric duct was minimally affected. Vhl morphants display global increased vegf signaling and angiogenesis. In addition, we found that vhl morphants displayed elevated expression of vegfa in podocytes and increased angiogenesis at pronephric glomerulus and the nearby vessels. Treatment of vegf inducer to embryos also caused pronephros phenotype resembling vhl morphants, further supporting that increased vegfa signaling contribute to the pronephros morphant phenotype. Our study establishes the zebrafish as an alternative vertebrate model system for studying Vhl function during kidney development.

Published

2015

29. Involvement of protein kinase C in the inhibition of lipopolysaccharide-induced nitric oxide production by thapsigargin in RAW 264.7 macrophages

Author

Jen Ning Tsai, Chih-Hung Hung, Tsun-Cheng Kuo, Kai-Wen Hsu, Yun-Liang Chen, and Yu-Jen Chen

Subjects

Lipopolysaccharides, medicine.medical_specialty, Protein Kinase C-alpha, Thapsigargin, Nitric Oxide Synthase Type II, chemistry.chemical_element, Protein Kinase C beta, Calcium, Endoplasmic Reticulum, Nitric Oxide, Biochemistry, Calcium in biology, Cell Line, Nitric oxide, Mice, chemistry.chemical_compound, Internal medicine, medicine, Animals, Calcimycin, Protein Kinase C, Protein kinase C, biology, Ionomycin, Macrophages, NF-kappa B, Cell Biology, Molecular biology, Hydroquinones, Enzyme Activation, Nitric oxide synthase, Endocrinology, chemistry, biology.protein, lipids (amino acids, peptides, and proteins)

Abstract

This study explored the effects of inhibition of endoplasmic reticulum (ER) Ca(2+)-ATPase on lipopolysaccharide (LPS)-induced protein kinase C (PKC) activation, nuclear factor-kappaB (NF-kappaB) translocation, inducible nitric oxide synthase (iNOS) expression and nitric oxide (NO) production in RAW 264.7 macrophages. Thapsigargin (TG) irreversibly inhibits ER Ca(2+)-ATPase and LPS-induced NO production is reduced even after washout. TG also attenuated LPS-stimulated iNOS expression by using immunoblot analysis. However, another distinct fully reversible ER Ca(2+)-ATPase inhibitor, 2,5-di-tert-butylhydroquinone (DBHQ), ionophore A23187 and ionomycin could exert a similar effect to TG in increasing intracellular calcium concentration; however, these agents could not mimic TG in reducing iNOS expression and NO production. LPS increased PKC-alpha and -beta activation, and TG pretreatment attenuated LPS-stimulated PKC activation. Not did pretreatment with DBHQ, A23187 and ionomycin reduce LPS-stimulated PKC activation. Furthermore, NF-kappaB-specific DNA-protein-binding activity in the nuclear extracts was enhanced by treatment with LPS, and TG pretreatment attenuated LPS-stimulated NF-kappaB activation. None of DBHQ, A23187 and ionomycin pretreatment reduced LPS-stimulated NF-kappaB activation. These data suggest that persistent inhibition of ER Ca(2+)-ATPase by TG would influence calcium release from ER Ca2+ pools that was stimulated by the LPS activated signal processes, and might be the main mechanism for attenuating PKC and NF-kappaB activation that induces iNOS expression and NO production.

Published

2005

30. Differential expression of glycogen synthase kinase 3 genes during zebrafish embryogenesis

Author

Wei Kuang Chi, Hellen Jeng, Chia Hui Lee, Wen Chang Chang, and Jen-Ning Tsai

Subjects

Embryology, Base Sequence, Sequence Homology, Amino Acid, Molecular Sequence Data, Embryogenesis, Glycogen Synthase Kinases, Neural tube, Gene Expression Regulation, Developmental, Biology, Cell fate determination, Molecular biology, Glycogen Synthase Kinase 3, medicine.anatomical_structure, Hypoblast, Epiblast, GSK-3, Calcium-Calmodulin-Dependent Protein Kinases, Paraxial mesoderm, medicine, Pharyngula, Animals, Humans, Amino Acid Sequence, Zebrafish, Developmental Biology

Abstract

Glycogen synthase kinase 3 (GSK-3) belongs to a highly conserved family of protein serine/threonine kinase whose members in high eukaryotes are involved in hormonal regulation, nuclear signaling, and cell fate determination. We have identified two zebrafish homologues related to mammalian GSK-3, ZGSK-3alpha and ZGSK-3beta. ZGSK-3alpha was expressed uniformly from cleavage onward, and later was found in many but not all tissues, especially in the central nervous system, spinal cord, somites and pronephric ducts. ZGSK-3beta was also transcribed maternally but the transcripts were not uniformly distributed during early cleavage stage. Most signals were concentrated in the inner part of the blastomeres. From midblastula stage onward, the ZGSK-3beta transcripts remained confined to inner parts of the deep cell layer. During shield stage, both epiblast and hypoblast expressed the transcripts. After late gastrulation, the signals were detected ubiquitously. During segmentation, prominent ZGSK-3beta signal was detected in head portion of the neural system. In the trunk, the expression was maintained in the neural tube and paraxial mesoderm and then became prominent in adaxial cells, followed by expression at the posterior region of somites. In pharyngula period ZGSK-3beta transcripts were distributed in similar regions as those of ZGSK-3alpha, namely, neural tissues of the head portion, spinal cord and somites.

Published

2000

31. Exposure to benzidine caused apoptosis and malformation of telencephalon region in zebrafish

Author

Mark Hung-Chih, Chen, Li-Chi, Hsu, Jia-Lun, Wu, Chi-Wei, Yeh, Jen-Ning, Tsai, You-Cheng, Hseu, and Li-Sung, Hsu

Subjects

Neurons, Telencephalon, Benzidines, Animals, Apoptosis, Apoptosis Regulatory Proteins, Zebrafish

Abstract

Exposure to benzidine has been known to induce human cancers, particularly bladder carcinomas. In this study, the zebrafish model was used to investigate the developmental toxicity of benzidine. Embryos at 6 h postfertilization (hpf) that were exposed to benzidine exhibited embryonic death in a dose- and time-dependent manner. Benzidine induced malformations in zebrafish, such as small brain development, shorter axes, and a slight pericardial edema. High concentrations (50, 100, and 200 µM) of benzidine triggered widespread apoptosis in the brain and dorsal neurons, as evidenced by acridine orange and terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) assays. Real-time polymerase chain reaction analysis also showed that benzidine treatment affected p53, bax, and noxa expression. Decreases in specific brain markers, such as emx1 in the telencephalon, ngn1 in differentiated neurons, and otx2 in the midbrain, were observed in benzidine-treated embryos at 24 hpf. Conversely, no overt changes to pax2.1 expression in the midbrain-hindbrain boundary were found. Moreover, the use of Tg(HuC:GFP) zebrafish showed that benzidine caused a malformation of the telencephalon region. Our findings show that benzidine exposure triggers widespread apoptosis in the zebrafish brain and dorsal neurons, resulting in the development of an abnormal telencephalon.

Published

2013

32. Caffeine treatment disturbs the angiogenesis of zebrafish embryos

Author

Chien-Chung Cheng, Chi-Chung Wen, Yun-Feng Liao, Jen Ning Tsai, Yun-Hsin Wang, Chien-Hung Yeh, Yau-Hung Chen, and Chao-Yuan Chang

Subjects

animal structures, Embryo, Nonmammalian, Endothelium, Angiogenesis, Health, Toxicology and Mutagenesis, Green Fluorescent Proteins, Down-Regulation, Neovascularization, Physiologic, Toxicology, Real-Time Polymerase Chain Reaction, Neovascularization, Animals, Genetically Modified, Vasculogenesis, Downregulation and upregulation, Caffeine, medicine, Animals, Nerve Growth Factors, Zebrafish, Pharmacology, Chemical Health and Safety, biology, Dose-Response Relationship, Drug, Embryogenesis, Public Health, Environmental and Occupational Health, General Medicine, Zebrafish Proteins, biology.organism_classification, Embryonic stem cell, Molecular biology, Cell biology, Up-Regulation, medicine.anatomical_structure, Teratogens, embryonic structures, Endothelium, Vascular, medicine.symptom

Abstract

Caffeine is a widely consumed substance that occurs in numerous dietary sources, but teratogenic effects of caffeine intake during embryonic development are still not clear. In the present study, we used the zebrafish as a model to assess caffeine-induced toxicity on embryonic vascular development. A green fluorescent vascular endothelium transgenic line, Tg(fli1:egfp), was utilized for the sensitive detection of vascular development, including vasculo- and angiogenesis. Caffeine-treated embryos showed no defects in vasculogenesis, but revealed dose-dependent (250-350 ppm) developmental defects in intersegmental vessels, dorsal longitudinal anastomotic vessels, and subintestinal vein sprouting. Further, real-time polymerase chain reaction analysis of caffeine-treated embryos showed an upregulation of nrp1a along with a downregulation of sema3aa and sema3c. In conclusion, caffeine treatment induces defects of angiogenesis in zebrafish embryos.

Published

2012

33. Induction and inhibition of cytochrome P-450-dependent monooxygenases in hamster tissues by ethanol☆

Author

I-Chi Chao, Ta-Liang Chen, Yune-Fang Ueng, F. P. Guengerich, Sang S. Park, Tzuu-Huei Ueng, Jen-Ning Tsai, and M. Iwasaki

Subjects

Male, Cytochrome, Immunoblotting, Hamster, Kidney, Toxicology, Hydroxylation, chemistry.chemical_compound, Cytochrome P-450 Enzyme System, Cricetinae, medicine, Animals, Lung, Ethanol, biology, Cytochrome P450, Monooxygenase, Liver, chemistry, Biochemistry, Oxygenases, Microsome, biology.protein, Electrophoresis, Polyacrylamide Gel, Benzphetamine, medicine.drug

Abstract

The effects of ethanol on hamster hepatic and extrahepatic monooxygenases were determined in the present study. Chronic ethanol administration increased cytochrome P -450 ( P -450) content and monooxygenase activities towards aniline, N -nitrosodimethylamine, and 7-ethoxyresorufin. In contrast, benzphetamine and benzo( a )pyrene oxidation rates were decreased 21–24% by ethanol. In kidney, ethanol pretreatment increased P -450 content, aniline and N -nitrosodimethylamine oxidation activities. In lung, ethanol ingestion selectively increased aniline hydroxylation without affecting other monooxygenase activities. Intestinal monooxygenase activity was refractory to ethanol induction. Immunoblotting of the microsomal proteins showed that ethanol induced a protein cross-reactive with rabbit antibody raised against human P -450 2E1 in hamster liver, kidney, and lung. Immunoblotting analysis using mouse monoclonal antibody 1-12-3 raised against scup P -450 1A1 revealed that ethanol induced an immunorelated protein in hamster liver, kidney, and lung. Induction of P -450 2E1 and 1A was not observed with intestinal protein blots. Immunoblotting analysis using mouse monoclonal antibody 2-66-3 against rat P -450 2B1 showed inhibition of an immunorelated protein in ethanol-treated hamster liver. The inhibitory effect on P -450 2B was not observed with extrahepatic tissues. These results suggest that ethanol has the ability to induce P -450s 2E1 and 1A and to inhibit P -450 2B in hamster tissues.

Published

1993

34. Effects of acetone administration on cytochrome P-450-dependent monooxygenases in hamster liver, kidney, and lung

Author

F. P. Guengerich, M. Iwasaki, Jen-Ning Tsai, Jr-Min Ju, Yune-Fang Ueng, and Tzuu-Huei Ueng

Subjects

Male, Cytochrome, Health, Toxicology and Mutagenesis, Immunoblotting, Hamster, Kidney, Toxicology, Acetone, Cytochrome P-450 Enzyme System, Cricetinae, Cytochrome b5, medicine, Animals, Lung, Aniline Hydroxylase, Mesocricetus, biology, Chemistry, Cytochrome P450, General Medicine, Monooxygenase, Liver, Biochemistry, Enzyme Induction, Oxygenases, Microsome, biology.protein, Electrophoresis, Polyacrylamide Gel, Benzphetamine, medicine.drug

Abstract

The effects of acetone on liver, kidney, and lung monooxygenases were studied using hamsters administered 8% acetone in drinking water. Binding of aniline to liver microsomes induced a type II difference spectrum, and the spectral binding was enhanced in hamsters pretreated with acetone. Administration of acetone caused significant increases of cytochrome P-450 and cytochrome b5 contents in liver microsomes. The increases of the hemeproteins were associated with induction of monooxygenase activities toward test substrates, aniline, N-nitrosodimethylamine, benzphetamine, benzo(a)pyrene, and 7-ethoxycoumarin. In the kidneys, acetone administration increased microsomal contents of the hemeprotein and monooxygenase activities toward aniline. N-nitrosodimethylamine, and 7-ethoxycoumarin, but not benzphetamine or benzo(a)pyrene. In the lungs, acetone pretreatment increased aniline hydroxylase activity without affecting the levels of N-nitrosodimethylamine demethylase, cytochromes P-450 and b5. In marked contrast to the inductive effects in the liver, acetone administration markedly decreased lung microsomal benzo(a)pyrene hydroxylase and 7-ethoxycoumarin O-deethylase activities. Gel electrophoresis of liver and kidney microsomes from control and acetone-treated hamsters revealed that acetone treatment enhanced the intensity of a protein band(s) in the cytochrome P-450 molecular weight region. Immunoblotting of the microsomal proteins showed that the protein band induced by acetone in hamster liver, kidney and lung was cross-reactive with antibody raised against ethanol-inducible human liver cytochrome P-450. These results demonstrate that acetone has the ability to uniformly induce a specific form of cytochrome P-450, designated as IIE1, and to cause differential changes of monooxygenase activities in the hamster tissues.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1991

35. Characterization and comparative studies of zebrafish and human recombinant dihydrofolate reductases--inhibition by folic acid and polyphenols

Author

Bing Hung Chen, Tseng Ting Kao, Guey Yueh Shi, Jen Ning Tsai, Hua Lin Wu, Chia Ying Lin, Kuan Chieh Wang, Tzu Fun Fu, and Wen Ni Chang

Subjects

DNA, Complementary, Molecular Sequence Data, Pharmaceutical Science, Protein Structure, Secondary, law.invention, chemistry.chemical_compound, Folic Acid, Phenols, law, parasitic diseases, Dihydrofolate reductase, medicine, Animals, Humans, heterocyclic compounds, Amino Acid Sequence, Cloning, Molecular, Protein Structure, Quaternary, Zebrafish, Pharmacology, chemistry.chemical_classification, Flavonoids, biology, Drug discovery, Reverse Transcriptase Polymerase Chain Reaction, Polyphenols, biology.organism_classification, In vitro, Recombinant Proteins, Tetrahydrofolate Dehydrogenase, Enzyme, Biochemistry, chemistry, Antifolate, biology.protein, Recombinant DNA, Folic Acid Antagonists, Methotrexate, Sequence Alignment, medicine.drug

Abstract

Dihydrofolate reductase (DHFR) catalyzes folic acid reduction and recycles dihydrofolate generated during dTMP biosynthesis to tetrahydrofolate. DHFR is the main target of methotrexate, the most widely used agent for antifolate therapy. Nevertheless, the emergence of methotrexate-resistance has greatly impeded the curative potential of this drug. Therefore, drugs with improved efficacy are still in demand, as well as an efficient in vitro assay system and animal model for antifolate drug discovery. The aim of this study is to evaluate the suitability of using zebrafish DHFR as an alternative assay system for antifolate drug discovery. The cDNAs encoding zebrafish and human DHFR were cloned, overexpressed, and purified. Similar structural and kinetic properties were revealed between zebrafish and human recombinant DHFRs. The susceptibilities of both enzymes to known DHFR inhibitors, including methotrexate and trimethoprim, and compounds with antifolate potential, such as polyphenols, are also comparable. In addition, the DHFR-mediated dihydrofolate reduction was significantly inhibited by its own substrate folic acid. An unexpected tissue-specific distribution of DHFR was observed with the highest level present in ova and brains of zebrafish. DHFR is also abundant in zebrafish embryos of early stages and decreased abruptly after 3 days postfertilization. The substantial resemblance between zebrafish and human DHFRs, as demonstrated in this study, provides compelling evidence supporting the use of zebrafish DHFR as an in vitro assay system for folate-related studies and drug discovery.

Published

2007

36. Serine hydroxymethyltransferase isoforms are differentially inhibited by leucovorin: characterization and comparison of recombinant zebrafish serine hydroxymethyltransferases

Author

Wen Ni Chang, Bing Hung Chen, Huei Sheng Huang, Jen Ning Tsai, and Tzu Fun Fu

Subjects

Green Fluorescent Proteins, Molecular Sequence Data, Leucovorin, Pharmaceutical Science, Biology, Mitochondrion, Isozyme, Serine, Mitochondrial Proteins, chemistry.chemical_compound, Biosynthesis, Animals, Humans, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, Enzyme Inhibitors, Zebrafish, Tetrahydrofolates, Pharmacology, Glycine Hydroxymethyltransferase, Microscopy, Confocal, Sequence Homology, Amino Acid, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, Sequence Analysis, DNA, Zebrafish Proteins, biology.organism_classification, Molecular biology, Recombinant Proteins, Mitochondria, Isoenzymes, Cytosol, Methotrexate, chemistry, Biochemistry, Serine hydroxymethyltransferase, Glycine, Electrophoresis, Polyacrylamide Gel

Abstract

Serine hydroxymethyltransferase (SHMT) provides activated one-carbon units required for the biosynthesis of nucleotides, protein, and methyl group by converting serine and tetrahydrofolate to glycine and N(5),N(10)-methylenetetrahydrofolate. It is postulated that SHMT activity is associated with the development of methotrexate resistance and the in vivo activity of SHMT is regulated by the binding of N(5)-CHO-THF, the rescue agent in high-dose methotrexate chemotherapy. The aim of this study is to advance our understanding of the folate-mediated one-carbon metabolism in zebrafish by characterizing zebrafish mitochondrial SHMT. The cDNA encoding zebrafish mitochondrial SHMT was cloned, overexpressed in Escherichia coli, and purified with a three-step purification protocol. Similarities in structural, physical, and kinetic properties were revealed between the recombinant zebrafish mitochondrial SHMT and its mammalian orthologs. Surprisingly, leucovorin significantly inhibits the aldol cleavage of serine catalyzed by zebrafish cytosolic SHMT but inhibits to a lesser extent the reaction catalyzed by the mitochondrial isozyme. This is, to our knowledge, the first report on zebrafish mitochondrial folate enzyme as well as the differential inhibition of leucovorin on these two SHMT isoforms. Western blot analysis revealed tissue-specific distribution with the highest enrichment present in liver for both cytosolic and mitochondrial SHMTs. Intracellular localization was confirmed by confocal microscopy for both mitochondrial and cytosolic SHMTs. Unexpectedly, the cytosolic isoform was observed in both nucleus and cytosol. Together with the previous report on zebrafish cytosolic SHMT, we suggest that zSHMTs can be used in in vitro assays for folate-related investigation and antifolate drug discovery.

Published

2007

37. Cloning, expression, purification, and characterization of zebrafish cytosolic serine hydroxymethyltransferase

Author

Jen Ning Tsai, Bing Hung Chen, Tzu Fun Fu, and Wen Ni Chang

Subjects

Cytoplasm, EcoRI, Gene Expression, law.invention, Serine, law, Complementary DNA, Escherichia coli, Animals, Humans, Zebrafish, Cloning, chemistry.chemical_classification, Glycine Hydroxymethyltransferase, biology, Sequence Homology, Amino Acid, Zebrafish Proteins, biology.organism_classification, Molecular biology, Recombinant Proteins, Enzyme, Biochemistry, chemistry, Serine hydroxymethyltransferase, biology.protein, Recombinant DNA, Rabbits, Biotechnology

Abstract

A cDNA which encodes for zebrafish serine hydroxymethyltransferase (SHMT) has been cloned into a pET43.1a vector as a Nde I– Eco RI insert and transformed into HMS174(DE3) cells. After induction with isopropyl thiogalactoside, the enzyme was purified with a three-step purification protocol and about 15 mg of pure enzyme was obtained per liter of culture. Spectral and structural characteristics of the recombinant zebrafish SHMT are similar to the rabbit and human cytosolic SHMT. Kinetic constants for the natural substrates l -serine and tetrahydrofolate are also comparable to the values obtained previously for the rabbit and human cytosolic enzyme.

Published

2005

38. Mycobacterial Prevalence and Antibiotic Resistance Frequency Trends in Taiwan of Mycobacterial Clinical Isolates From 2002 to 2014.

Author

Ming-Yuh Shiau, Ming-Shih Lee, Tian-Lin Huang, Jen-Ning Tsai, and Yih-Hsin Chang

Published

2016

39. Two-step cell disruption for the extraction of membrane-associated recombinant protein from Saccharomyces cerevisiae

Author

Ching-Chuan Chang, Jen-Ning Tsai, Wei Kuang Chi, and Chung Hui Ku

Subjects

Proteases, HBsAg, Saccharomyces cerevisiae, DNA, Recombinant, Heterologous, Buffers, Cell Fractionation, General Biochemistry, Genetics and Molecular Biology, law.invention, History and Philosophy of Science, law, Downstream processing, Hepatitis B Surface Antigens, biology, Chemistry, General Neuroscience, Membrane Proteins, biology.organism_classification, Yeast, Recombinant Proteins, Biochemistry, Cell disruption, Recombinant DNA, Genetic Engineering, Biotechnology

Abstract

The use of rDNA technology to express heterologous proteins has been very successful during the last several years. Choice of an expression host is very important in order to retain the biological activity of recombinant proteins. Baker's yeast, Saccharomyces cerevisiae, is a eucaryotic GRAS organism suitable for the expression of biologically active proteins. Specifically, hepatitis B surface antigen (HBsAg) is expressed in baker's yeast. Because the yeast cells need to be disrupted for the recovery of bioactive intracellular proteins and because the protein HBsAg is hydrophobic and has a tendency to become associated with cell membranes, the use of detergent increases the recovery yield. In order to remove most of the contaminants from yeast, a two-step disruption/extraction scheme has been developed that facilitates downstream processing. Furthermore, it also has the advantage of minimizing proteolytic actions on the recombinant protein by removing most of the contaminants and proteases into the supernatant during the first disruption step, while keeping the desired protein in the pellet fraction. Final recovery is then achieved by the extraction process. Parameters affecting the disruption/extraction processes have been discussed.

Published

1994

40. Expression Pattern and Knockdown of Zebrafish foxo5 (zfoxo5) Gene in Development

Author

Wen-Chuan Chen, Li-Sung Hsu, Dennis Jine Yuan Hsieh, Jen-Ning Tsai, and Hui-Ming Lee

Subjects

Gene knockdown, Reproductive Medicine, biology, Expression pattern, Cell Biology, General Medicine, biology.organism_classification, Zebrafish, Gene, Cell biology

Published

2008

41. Zebrafish Cyclin-Dependent Protein Kinase--Like 1 (zcdkl1): Identification and Functional Characterization.

Author

Li-Sung Hsu, Cyong-Jhih Liang, Chen-Yuan Tseng, Chi-Wei Yeh, and Jen-Ning Tsai

Subjects

LOGPERCH, ZEBRA danio, PROTEIN kinases, CHEMICAL reactions, MESSENGER RNA

Abstract

The cyclin-dependent protein kinase family regulates a wide range of cellular functions such as cell cycle progression, differentiation, and apoptosis. In this study, we identified a zebrafish cyclin-dependent protein kinase-like 1 protein called zebrafish cdkl1 (zcdkl1), which shared a high degree of homology and conserved synteny with mammalian orthologs. zcdkl1 exhibited abilities for phosphorylation of myelin basic protein and histone H1. RT-PCR analysis revealed that zcdkl1 was expressed starting from fertilization and continuing thereafter. In adult tissues, zcdkl1 was predominantly detected in brain, ovary, and testis, and was expressed at low levels in other tissues. At 50% epiboly stage, zcdkl1 was widely expressed. At 12 to 48 h post-fertilization, zcdkl1 was predominantly expressed in the hypochord, the medial and lateral floor plate, and the pronephric duct. Interference of zcdkl1 expression resulted in abnormalities, such as brain and eye malformation, pericardial edema, and body axis curvature. Disruption of zcdkl1 reduced neurogenin-1 in the brain and sonic hedgehog expression in the floor plate region. These deformities were apparently rescued by co-injection of zcdkl1 mRNA. Findings of this study indicate that zcdkl1 plays an essential role in zebrafish development. [ABSTRACT FROM AUTHOR]

Published

2011

42. Glycogen synthase kinase 3α and 3β have distinct functions during cardiogenesis of zebrafish embryo.

Author

Huang-Chieh Lee, Jen-Ning Tsai, Pei-Yin Liao, Wei-Yuan Tsai, Kai-Yen Lin, Chung-Cheng Chuang, Chi-Kuang Sun, Wen-Chang Chang, and Huai-Jen Tsai

Subjects

*GLYCOGEN synthase kinase-3, *ZEBRA danio, *EMBRYOS, *EMBRYOLOGY, *PROTEIN kinases, *CHEMICAL inhibitors

Abstract

Background: Glycogen synthase kinase 3 (GSK3) encodes a serine/threonine protein kinase, is known to play roles in many biological processes. Two closely related GSK3 isoforms encoded by distinct genes: GSK3̤ (51 kDa) and GSK3̤ (47 kDa). In previously studies, most GSK3 inhibitors are not only inhibiting GSK3, but are also affecting many other kinases. In addition, because of highly similarity in amino acid sequence between GSK3̤ and GSK3̤, making it difficult to identify an inhibitor that can be selective against GSK3̤ or GSK3̤. Thus, it is relatively difficult to address the functions of GSK3 isoforms during embryogenesis. At this study, we attempt to specifically inhibit either GSK3̤ or GSK3̤ and uncover the isoform-specific roles that GSK3 plays during cardiogenesis. Results: We blocked gsk3 ̤ and gsk3 ̤ translations by injection of morpholino antisense oligonucleotides (MO). Both gsk3 ̤- and gsk3 ̤-MO-injected embryos displayed similar morphological defects, with a thin, string-like shaped heart and pericardial edema at 72 hours post-fertilization. However, when detailed analysis of the gsk3 ̤- and gsk3 ̤-MO-induced heart defects, we found that the reduced number of cardiomyocytes in gsk3 ̤ morphants during the heart-ring stage was due to apoptosis. On the contrary, gsk3 ̤ morphants did not exhibit significant apoptosis in the cardiomyocytes, and the heart developed normally during the heart-ring stage. Later, however, the heart positioning was severely disrupted in gsk3 ̤ morphants. bmp4 expression in gsk3 ̤ morphants was upregulated and disrupted the asymmetry pattern in the heart. The cardiac valve defects in gsk3 ̤ morphants were similar to those observed in axin1 and apcmcr mutants, suggesting that GSK3̤ might play a role in cardiac valve development through the Wnt/̤-catenin pathway. Finally, the phenotypes of gsk3 ̤ mutant embryos cannot be rescued by gsk3 ̤ mRNA, and vice versa, demonstrating that GSK3̤ and GSK3̤ are not functionally redundant. Conclusion: We conclude that (1) GSK3̤, but not GSK3̤, is necessary in cardiomyocyte survival; (2) the GSK3̤ plays important roles in modulating the left-right asymmetry and affecting heart positioning; and (3) GSK3̤ and GSK3̤ play distinct roles during zebrafish cardiogenesis. [ABSTRACT FROM AUTHOR]

Published

2007

43. Resveratrol Treatment Attenuates the Wound-Induced Inflammation in Zebrafish Larvae through the Suppression of Myeloperoxidase Expression.

Author

YUN-FENG LIAO, MIN-CHUAN CHIOU, JEN-NING TSAI, CHI-CHUNG WEN, YUN-HSIN WANG, CHIEN-CHUNG CHENG, and YAU-HUNG CHEN

Subjects

*INFLAMMATION prevention, *POLYPHENOLS, *ANALYSIS of variance, *ANIMAL experimentation, *BIOLOGICAL models, *BIOPHYSICS, *FISHES, *GENE expression, *RESEARCH methodology, *NEUTROPHILS, *NONSTEROIDAL anti-inflammatory agents, *POLYMERASE chain reaction, *RESEARCH funding, *T-test (Statistics), *WOUND healing, *CYCLOOXYGENASE 2, *REVERSE transcriptase polymerase chain reaction, *THERAPEUTICS

Abstract

Resveratrol, a polyphenolic phytoalexin found in many plants, was reported to exhibit anti-inflammatory effects, but its molecular mechanism is not fully understood. This study was aimed to investigate the anti-inflammatory effects of resveratrol in vivo using a zebrafish model of wound-induced inflammation. Caudal fin-wounded zebrafish larvae were treated with resveratrol for 8 h. Neutrophil recruitment was visualized in transgenic line "Tg (mpx : GFP)" expressing GFP-tagged neutrophil-specific myeloperoxidase (mpx). The enzymatic activity of Mpx was evaluated by histochemical staining. Relative mRNA levels of mpx and cyclooxegenase-2 (cox2) were quantified by qRT-PCR, and the protein expression levels of Mpx and Cox2 were detected by immunostaining. Results showed that wound-induced neutrophil recruitment in zebrafish was not affected by resveratrol, but Mpx enzymatic activity in zebrafish was significantly suppressed by resveratrol in a dose-dependent manner. Moreover, both mRNA and protein expression levels of Mpx and Cox2 were significantly down-regulated by resveratrol. Taken together, our results provide in vivo evidence that the anti-inflammatory effects of resveratrol on wound-induced inflammation are significantly mediated through the suppression of Mpx and Cox2 at both transcriptional and protein levels, rather than the down-regulation of neutrophil recruitment. In conclusion, this in vivo zebrafish model can be readily applied to screen other potential anti-inflammatory compounds at a whole-organism level. [ABSTRACT FROM AUTHOR]

Published

2011