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2. Identification of Molecular Profile of Ear Fibroblasts Derived from Spindle-Transferred Holstein Cattle with Ooplasts from Taiwan Yellow Cattle under Heat Stress

Author

Yu-Ju Lee, Jai-Wei Lee, Chao-Wei Huang, Kuo-Tai Yang, Shao-Yu Peng, Chi Yu, Yen-Hua Lee, I-Ling Lai, and Perng-Chih Shen

Subjects
heat stress, cytoplasmic origin, apoptotic factors, antioxidant, oxidative phosphorylation, thermotolerance, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

Global warming has a significant impact on the dairy farming industry, as heat stress causes reproductive endocrine imbalances and leads to substantial economic losses, particularly in tropical–subtropical regions. The Holstein breed, which is widely used for dairy production, is highly susceptible to heat stress, resulting in a dramatic reduction in milk production during hot seasons. However, previous studies have shown that cells of cows produced from reconstructed embryos containing cytoplasm (o) from Taiwan yellow cattle (Y) have improved thermotolerance despite their nuclei (n) being derived from heat-sensitive Holstein cattle (H). Using spindle transfer (ST) technology, we successfully produced ST-Yo-Hn cattle and proved that the thermotolerance of their ear fibroblasts is similar to that of Y and significantly better than that of H (p < 0.05). Despite these findings, the genes and molecules responsible for the different sensitivities of cells derived from ST-Yo-Hn and H cattle have not been extensively investigated. In the present study, ear fibroblasts from ST-Yo-Hn and H cattle were isolated, and differentially expressed protein and gene profiles were compared with or without heat stress (hs) (42 °C for 12 h). The results revealed that the relative protein expression levels of pro-apoptotic factors, including Caspase-3, -8, and -9, in the ear fibroblasts from the ST-Yo-Hn-hs group were significantly lower (p < 0.05) than those from the H-hs group. Conversely, the relative expression levels of anti-apoptotic factors, including GNA14 protein and the CRELD2 and PRKCQ genes, were significantly higher (p < 0.05) in the ear fibroblasts from the ST-Yo-Hn-hs group compared to those from the H-hs group. Analysis of oxidative phosphorylation-related factors revealed that the relative expression levels of the GPX1 gene and Complex-I, Complex-IV, CAT, and PGLS proteins were significantly higher (p < 0.05) in the ear fibroblasts from the ST-Yo-Hn-hs group compared to those from the H-hs group. Taken together, these findings suggest that ear fibroblasts from ST-Yo-Hn cattle have superior thermotolerance compared to those from H cattle due to their lower expression of pro-apoptotic factors and higher expression of oxidative phosphorylation and antioxidant factors. Moreover, this improved thermotolerance is attributed, at least partially, to the cytoplasm derived from more heat-tolerant Y cattle. Hence, using ST technology to produce more heat-tolerant H cattle containing Y cytoplasm could be a feasible approach to alleviate the negative impacts of heat stress on dairy cattle in tropical–subtropical regions.

Published
2024
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3. A novel HIF1α-STIL-FOXM1 axis regulates tumor metastasis

Author

Yi-Wei Wang, Shu-Chuan Chen, De-Leung Gu, Yi-Chen Yeh, Jhih-Jie Tsai, Kuo-Tai Yang, Yuh-Shan Jou, Teh-Ying Chou, and Tang K. Tang

Subjects
Metastasis, STIL, FOXM1, HIF1α, Centrosome, Medicine
Abstract

Abstract Background Metastasis is the major cause of morbidity and mortality in cancer that involves in multiple steps including epithelial–mesenchymal transition (EMT) process. Centrosome is an organelle that functions as the major microtubule organizing center (MTOC), and centrosome abnormalities are commonly correlated with tumor aggressiveness. However, the conclusive mechanisms indicating specific centrosomal proteins participated in tumor progression and metastasis remain largely unknown. Methods The expression levels of centriolar/centrosomal genes in various types of cancers were first examined by in silico analysis of the data derived from The Cancer Genome Atlas (TCGA), Gene Expression Omnibus (GEO), and European Bioinformatics Institute (EBI) datasets. The expression of STIL (SCL/TAL1-interrupting locus) protein in clinical specimens was further assessed by Immunohistochemistry (IHC) analysis and the oncogenic roles of STIL in tumorigenesis were analyzed using in vitro and in vivo assays, including cell migration, invasion, xenograft tumor formation, and metastasis assays. The transcriptome differences between low- and high-STIL expression cells were analyzed by RNA-seq to uncover candidate genes involved in oncogenic pathways. The quantitative polymerase chain reaction (qPCR) and reporter assays were performed to confirm the results. The chromatin immunoprecipitation (ChIP)-qPCR assay was applied to demonstrate the binding of transcriptional factors to the promoter. Results The expression of STIL shows the most significant increase in lung and various other types of cancers, and is highly associated with patients’ survival rate. Depletion of STIL inhibits tumor growth and metastasis. Interestingly, excess STIL activates the EMT pathway, and subsequently enhances cancer cell migration and invasion. Importantly, we reveal an unexpected role of STIL in tumor metastasis. A subset of STIL translocate into nucleus and associate with FOXM1 (Forkhead box protein M1) to promote tumor metastasis and stemness via FOXM1-mediated downstream target genes. Furthermore, we demonstrate that hypoxia-inducible factor 1α (HIF1α) directly binds to the STIL promoter and upregulates STIL expression under hypoxic condition. Conclusions Our findings indicate that STIL promotes tumor metastasis through the HIF1α-STIL-FOXM1 axis, and highlight the importance of STIL as a promising therapeutic target for lung cancer treatment.

Published
2022
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4. Genetic Diversity and Population Structure in Captive Populations of Formosan Sambar Deer (Rusa unicolor swinhoei)

Author

Hsiao-Mei Liang, Kuo-Tai Yang, Yu-Tzu Cheng, Shen-Chang Chang, Cheng-Yung Lin, Ming-Yang Tsai, Der-Yuh Lin, and Kuo-Hsiang Hung

Subjects
Formosan sambar deer, inbreeding, microsatellite, parentage analysis, genetic diversity, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

Formosan sambar deer (Rusa unicolor swinhoei) are of great economic significance in Taiwan, resulting in a substantial increase in deer farming to meet the high demand for velvet antlers. Inbreeding depression and reduced genetic variability can lead to the deterioration of captive populations. In this study, 239 Formosan sambar deer were genotyped using 13 microsatellites to analyze their genetic diversity and population genetic structure. Our results indicate a high-resolution power of these microsatellites in individual discrimination and parentage analysis. However, captive populations exhibit a low level of genetic diversity, likely because of inbreeding and bottleneck effects. Both principal coordinate analysis (PCoA) and STRUCTURE analyses revealed two distinct and segregated genetic groups within the captive populations and indicated no clear population genetic structure among the captive populations. Introducing new genetic material from the wild through translocation offers a potential solution for mitigating the impact of inbreeding and enhancing genetic diversity. The comprehensive information obtained from these genetic analyses is crucial for the development of effective breeding strategies aimed at preserving and enhancing Formosan sambar deer populations.

Published
2023
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5. The Exploration of miRNAs From Porcine Fallopian Tube Stem Cells on Porcine Oocytes

Author

Tzu-Yen Fu, Shu-Hsuan Wang, Tzu-Yi Lin, Perng-Chih Shen, Shen-Chang Chang, Yu-Han Lin, Chih-Jen Chou, Yu-Hsiang Yu, Kuo-Tai Yang, Chao-Wei Huang, Steven W. Shaw, and Shao-Yu Peng

Subjects
extracellular vesicles, fallopian tube, microRNA, miR-320a-3p, oocytes, Veterinary medicine, SF600-1100
Abstract

Fallopian tube is essential to fertilization and embryonic development. Extracellular vesicles (EVs) from Fallopian tube containing biological regulatory factors, such as lipids, proteins and microRNAs (miRNAs) serve as the key role. At present, studies on oocytes from porcine oviduct and components from EVs remain limited. We aim to explore the effect of EVs secreted by porcine fallopian tube stem cells (PFTSCs) on oocyte. When the fifth-generation PFTSCs reached 80–90% of confluency, the pig in vitro maturation medium was utilized, and the conditioned medium collected for oocyte incubations. To realize the functions of EVs, several proteins were used to determine whether extracted EVs were cell-free. Field emission scanning electron microscope and nanoparticle tracking analyzer were used to observe the morphology. By next generation sequencing, 267 miRNAs were identified, and those with higher expression were selected to analyze the Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathway enrichment maps. The selected miR-152-3p, miR-148a-3p, miR-320a-3p, let-7f-5p, and miR-22-3p, were predicted to target Cepb1 gene affecting MAPK pathway. Of the five miRNAs, miR-320a-3p showed significant difference in maturation rate in vitro maturation. The blastocyst rate of pig embryos was also significantly enhanced by adding 50 nM miR-320a-3p. In vitro culture with miR-320a-3p, the blastocyst rate was significantly higher, but the cleavage rate and cell numbers were not. The CM of PFTSCs effectively improves porcine oocyte development. The miRNAs in EVs are sequenced and identified. miR-320a-3p not only helps the maturation, but also increases the blastocyst rates.

Published
2022
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6. Protective effects of crude chalaza hydrolysates against liver fibrogenesis via antioxidation, anti-inflammation/anti-fibrogenesis, and apoptosis promotion of damaged hepatocytes

Author

Yi-Ling Lin, Ching-Fu Lu, Yi-Hsieng Samuel Wu, Kuo-Tai Yang, Wen-Yuan Yang, Jr-Wei Chen, Jung-Kai Tseng, and Yi-Chen Chen

Subjects
anti-inflammation, antioxidant, apoptosis, crude chalaza hydrolysates, liver fibrosis, Animal culture, SF1-1100
Abstract

ABSTRACT: Four-hundred metric-ton chalazae are produced annually from the liquid-egg processing and always cause a heavy burden due to handling cost in Taiwan. After chalazae were hydrolyzed by protease A, the amounts of hydrophobic, aromatic, and branched-chain amino acids, as well as anserine were dramatically increased. This study was to understand the antifibrogenic effects of protease A-digested crude chalaza hydrolysates (CCH-As) on livers of thioacetamide (TAA) treated rats. CCH-As improved (P< 0.05) growth performance, serum liver damage indices, histopathological liver inflammation, and liver collagen deposition in TAA-treated rats. The antifibrogenic effects of CCH-As were due to decreased (P < 0.05) inflammatory/fibrogenic cytokine contents, α-smooth-muscle-actin (α-SMA) protein expression, and matrix metallopeptidase (MMP)-2 and -9 activities, as well as increased (P < 0.05) the antioxidant capacity in livers. CCH-As also increased (P < 0.05) cleaved caspase-3 and cleaved poly ADP-ribose polymerase protein levels in livers of TAA-treated rats which accelerating cell renewal. Thus, this study does not only reveal a novel nutraceutical ingredient, CCH-As, against liver fibrogenesis, but also offer an alternative way to expand the utilization of poultry byproducts.

Published
2021
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7. L-carnitine ameliorates dyslipidemic and hepatic disorders induced by a high-fat diet via regulating lipid metabolism, self-antioxidant capacity, and inflammatory response

Author

Chang-Chao Su, Chaung-Sung Chang, Chung-Hsi Chou, Yi-Hsieng Samuel Wu, Kuo-Tai Yang, Jung-Kai Tseng, Yuan-Yen Chang, and Yi-Chen Chen

Subjects
Antioxidant effect, High-fat diet, L-carnitine, Lipid homeostasis, Non-alcoholic fatty liver disease, Serum lipid, Nutrition. Foods and food supply, TX341-641
Abstract

The cardiovascular and liver protection of carnitine (CNT) in a high-fat diet was investigated. Male C57BL/6 mice were divided randomly into four groups: 1) CON: Control, 2) HFD: high-fat diet, 3) CNTL: HFD + 500 mg CNT/kg BW, and 4) CNTH: HFD + 1500 mg CNT/kg BW. After a 25-week experimental period, CNT supplementation reduced (p

Published
2015
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9. A comparative study of acute heat tolerance and meat quality in three chicken breeds.

Author

Hsiao-Mei Liang, Ti-Chun Chang, Der-Yuh Lin, Kuo-Tai Yang, and Fu-Yuan Cheng

Abstract

In order to breed a strain that has heat tolerance and meat productivity, the commercial red-feathered Taiwan native chickens were male (F group), and heat stress resistant strain Taiwan native chickens (Taishu-9, bred by the Taiwan Livestock Research Institute) were female (TR9 group) to hybridize to generate offspring (F9 group). Three breeds of birds (male) were conducted to compare acute heat stress and meat quality. At 12 weeks of age, TR9 group showed the significantly lowest activity of plasma creatine kinase upon acute heat stress which indicated heat stress resistant in TR9 group as expected. In addition, only limited thermoregulation was obtained in F9 group, while F group exhibited almost no acute heat stress tolerance ability. After slaughtered at 16 weeks of age, the F group revealed poor meat quality in breast meat as pale, soft, and exudative (PSE)-like muscle samples according to CIE L* and pH value. The F9 group was an offspring of TR9 group with heat tolerance, but it only demonstrated limitation of heat resistance. However, the improve meat quality was obtained in F9 group compared to F group, and that may be contributed from better anti-stress as like as TR9 group during slaughtering process. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Kisspeptin expression in mouse Leydig cells correlates with age

Author

Leang-Shin Wu, Jyun-Yuan Wang, Kuo-Tai Yang, Chih-Hsien Chiu, Meng-Chieh Hsu, and Tai-Hsiang Tseng

Subjects
Male, medicine.medical_specialty, puberty, steroidogenesis, 3-Hydroxysteroid Dehydrogenases, Leydig cells, Biology, Receptors, G-Protein-Coupled, kisspeptin, Mice, Kisspeptin, Internal medicine, medicine, KISS1 Gene, Animals, Testosterone, Cholesterol Side-Chain Cleavage Enzyme, Receptor, Cells, Cultured, Medicine(all), Kisspeptins, Mice, Inbred ICR, lcsh:R5-920, KISS1R Gene, Age Factors, Estrogen Receptor alpha, Antagonist, General Medicine, Gonadosomatic Index, Endocrinology, lcsh:Medicine (General), Estrogen receptor alpha, Receptors, Kisspeptin-1
Abstract

Background Kisspeptin, encoded by the Kiss1 gene, has many forms including kisspeptin54, kisspeptin14, kisspeptin13, and kisspeptin10, and all these peptides have the same affinity to their receptor KISS1R encoded by the Kiss1r gene. The KISS1–KISS1R system was discovered in neurons, and many reports stress on their function in the brain. However, recent studies have shown that Kiss1 and Kiss1r are expressed in the testes. The goal of this study was to demonstrate the roles of Kiss1 and Kiss1r in testicular function, especially their steroidogenic activity. Methods Kisspeptin10 and the kisspeptin10 antagonist peptide234 were used to determine their effect on testosterone production. Moreover, expression of steroidogenic genes in mouse testes and their gonadosomatic index (weight of the testes divided by the total body weight) and also serum testosterone level were studied between the ages of 2 weeks and 15 weeks. Results Kisspeptin10 and peptide234 did not affect testosterone production in primary Leydig cells from adult mice. Kiss1 and Esr1 expression also increased during puberty. The peak gonadosomatic index occurred at 4 weeks of age, and serum testosterone levels plateaued after the age of 4 weeks. Conclusion Our results suggest that kisspeptin10 does not affect steroidogenesis in adult Leydig cells, but its pattern of expression follows the stages of testicular development. Future studies should determine if kisspeptin regulates testicular development during puberty.

Published
2015

11. Possible Role of Aurora-C in Meiosis

Author

Tang K. Tang, Chieh-Ju C. Tang, and Kuo-Tai Yang

Subjects
Cancer Research, Aneuploidy, Spermatocyte, macromolecular substances, Review, Biology, lcsh:RC254-282, male infertility, Chromosome segregation, Aurora kinase, aurora kinase, Meiosis, Chromosome Segregation, aneuploidy, medicine, meiosis, oocyte, Mitosis, polyploidy, Genetics, mitosis, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, enzymes and coenzymes (carbohydrates), medicine.anatomical_structure, Oncology, spermatocyte, embryonic structures, Ploidy, biological phenomena, cell phenomena, and immunity, Cytokinesis
Abstract

The meiotic generation of haploid gametes with equal contents of genetic material is important for sexual reproduction in mammals. Errors in the transmission of chromosomes during meiosis may lead to aneuploidy, which is the leading cause of miscarriage and congenital birth defects in humans. The Aurora kinases, which include Aurora-A, Aurora-B, and Aurora-C, are highly conserved serine–threonine kinases that play essential roles in centrosome function, chromosome segregation, and cytokinesis during mitosis and meiosis. While Aurora-A and Aurora-B have been extensively studied in mitosis, the role of Aurora-C in meiosis is only now starting to be revealed. For example, the perturbation of Aurora-C kinase activity by microinjection of Aurora-C-kinase-dead mutant mRNAs into mouse oocytes induced multiple defects, including chromosome misalignment, abnormal kinetochore–microtubule attachment, premature chromosome segregation, and failure of cytokinesis during meiotic division. However, the analysis of such defects is complicated by the possibility that Aurora-B may be present in mammalian germ cells. Interestingly, a homozygous mutation of Aurora-C in humans leads to the production of large-headed polyploid spermatozoa and causes male infertility, but homozygous females are fertile. Mouse studies regarding the roles of Aurora-B and Aurora-C in female meiotic divisions have yielded inconsistent results, and it has proven difficult to explain why homozygous human females have no significant clinical phenotype. In this review, we will discuss the controversial status of Aurora-B in oocytes and the possible role of Aurora-C during meiotic division.

Published
2015

12. Possible role of Aurora-C in meiosis.

Author

Kuo-Tai Yang, Tang, Chieh-Ju C., Tang, Tang K., D'Avino, Pier Paolo, and Ohkura, Hiro

Subjects
ANEUPLOIDY, MAMMAL reproduction, MEIOSIS
Abstract

The meiotic generation of haploid gametes with equal contents of genetic material is important for sexual reproduction in mammals. Errors in the transmission of chromosomes during meiosis may lead to aneuploidy, which is the leading cause of miscarriage and congenital birth defects in humans. The Aurora kinases, which include Aurora- A, Aurora-B, and Aurora-C, are highly conserved serine-threonine kinases that play essential roles in centrosome function, chromosome segregation, and cytokinesis during mitosis and meiosis. While Aurora-A and Aurora-B have been extensively studied in mitosis, the role of Aurora-C in meiosis is only now starting to be revealed. For example, the perturbation of Aurora-C kinase activity by microinjection of Aurora-C-kinase-dead mutant mRNAs into mouse oocytes induced multiple defects, including chromosome misalignment, abnormal kinetochore-microtubule attachment, premature chromosome segregation, and failure of cytokinesis during meiotic division. However, the analysis of such defects is complicated by the possibility that Aurora-B may be present in mammalian germ cells. Interestingly, a homozygous mutation of Aurora-C in humans leads to the production of large-headed polyploid spermatozoa and causes male infertility, but homozygous females are fertile. Mouse studies regarding the roles of Aurora-B and Aurora-C in female meiotic divisions have yielded inconsistent results, and it has proven difficult to explain why homozygous human females have no significant clinical phenotype. In this review, we will discuss the controversial status of Aurora-B in oocytes and the possible role of Aurora-C during meiotic division. [ABSTRACT FROM AUTHOR]

Published
2015
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14. Duck (Anas platyrhynchos) linkage mapping by AFLP fingerprinting.

Author

Chang-Wen Huang, Yu-Shin Cheng, Rouvier, Roger, Kuo-Tai Yang, Chean-Ping Wu, Hsiu-Lin Huang, and Mu-Chiou Huang

Subjects
MALLARD, LINKAGE (Genetics), ANIMAL genome mapping, AMPLIFIED fragment length polymorphism, DNA analysis
Abstract

Amplified fragment length polymorphism (AFLP) with multicolored fluorescent molecular markers was used to analyze duck (Anas platyrhynchos) genomic DNA and to construct the first AFLP genetic linkage map. These markers were developed and genotyped in 766 F2 individuals from six families from a cross between two different selected duck lines, brown Tsaiya and Pekin. Two hundred and ninety-six polymorphic bands (64% of all bands) were detected using 18 pairs of fluorescent TaqI/ EcoRI primer combinations. Each primer set produced a range of 7 to 29 fragments in the reactions, and generated on average 16.4 polymorphic bands. The AFLP linkage map included 260 codominant markers distributed in 32 linkage groups. Twenty-one co-dominant markers were not linked with any other marker. Each linkage group contained three to 63 molecular markers and their size ranged between 19.0 cM and 171.9 cM. This AFLP linkage map provides important information for establishing a duck chromosome map, for mapping quantitative trait loci (QTL mapping) and for breeding applications. [ABSTRACT FROM AUTHOR]

Published
2009
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