|
|
Establishment of Immortalized Porcine Mammary Epithelial Cell Line |
CAO Jia-Ming1,*, KAN Yao2,*, LI Zhi-Yuan1, ZHONG You-Gang2,**, LI Qiu-Yan1,** |
1 College of Biological Sciences, China Agricultural University, Beijing 100193, China; 2 College of Veterinary Medicine, China Agricultural University, Beijing 100193, China |
|
|
Abstract Porcine mammary epithelial cells (PMECs) are highly differentiated in vitro and can maintain their unique morphological characteristics and function of producing and secreting milk proteins. Therefore, it is of great significance to establish a stable immortable PMECs line that can maintain the characteristics of PMECs for the study of the development, differentiation and lactation mechanism of porcine mammary gland. In this study, tissue block culture method and enzymatic digestion method were used to isolate and purify mammary epithelial cells from sows (Sus scrofa) at the end of pregnancy, and the cell culture method was optimized. Human telomerase reverse transcriptase (hTERT) gene was transfected into primary cultured pig mammary epithelial cells, by PCR detection, the immortalized hTERT-PMECs was obtained. The morphological observation of hTERT-PMECs cultured continuously for 60 generations showed that the type of hTERT-PMECs cells did not change after immortalization. The results of immunofluorescence staining showed that hTERT-PMECs could express keratin. After the induction of prolactin, hydrocortisone and Insulin-Transferrin-Selenium (ITS), hTERT-PMECs was identified by reverse transcription-PCR (RT-PCR), the result showed that hTERT-PMECs still had the function of secreting lactoprotein. In summary, this study successfully obtained the immortalized porcine mammary epithelial cell line hTERT-PMECs, and the immortalized cells maintained the same characteristics as the primary cells. This study provides basic data for the study of mammary gland development and lactation.
|
Received: 19 April 2023
|
|
Corresponding Authors:
**zhongyougang@126.com; liqiuyan-yuan@163.com
|
About author:: *These authors contributed equally to this work |
|
|
|
[1] 车龙, 许蒙蒙, 霍文颖, 等. 2021. 一种高效分离培养猪乳腺上皮细胞的方法[P]. 中国, CN202110367133.2. (Che L, Xu M M, Huo W Y, et al.2021. A method for efficient isolation and culture of porcine mammary epithelial cells[P]. China, CN202110367133.2.) [2] 郭明, 吴霞, 夏帆, 等. 2021. 端粒酶活性检测研究进展[J]. 分析测试学报, 40(12): 1819-1826. (Guo Y, Wu X, Xia F, et al.2021. A review on telomerase activity detection strategies[J]. Journal of Instrumental Analysis, 40(12): 1819-1826.) [3] 黄惠, 胡广东, 康健, 等. 2014. 一种通用型Piggy Bac转座子诱导细胞永生化载体的构建及其基本功能验证[J]. 生物工程学报, 30(8): 1182-1192. (Huang H, Hu G D, Kang J, et al.2014. Construction of a general piggyBac transposon inducible cell immortalization vector and verification of its basic properties[J].Chinese Journal of Biotechnology, 30(8): 1182-1192.) [4] 上官陶, 王洪梅, 冯敏燕, 等. 2013. 表达hTERT及SV40 T永生化奶牛乳腺上皮细胞系的建立[J]. 山东农业科学, 45(2): 1-4. (Shang G T, Wang H M, Feng M Y, et al.2013. Establishment of immortalized bovine mammary epithelial cell line expressing hTERT and SV40 T[J]. Shandong Agricultural Sciences, 45(2): 1-4.) [5] 张敏, 陈小云, 王磊, 等. 2015. hTERT永生化细胞的研究进展及应用前景[J]. 中国兽药杂志, 49(2): 58-62. (Zhang M, Chen X Y, Wang L, et al.The research progress and application prospect of immortalized cell by hTERT[J]. Chinese Journal of Veterinary Drug, 49(2): 58-62.) [6] 张颖超, 鲁海冰, 王禹, 等. 2019. 小鼠永生化乳腺上皮细胞系的建立[J]. 中华内分泌外科杂志, 13(5): 364-367. (Zhang Y C, Lu H B, Wang Y, et al.Establishment of an immortalized mouse mammary epithelial cell lines[J]. Chinese Journal of Endocrine Surgery, 13(5): 364-367.) [7] Arora S, Seo B, Friedlander L, et al.2023. A cell culture method for the isolation and study of primary human dental pulp cells[J]. Methods in Molecular Biology, 2588: 393-405. [8] Chakravarti D, LaBella K A, DePinho R A.2021. Telomeres: History, health, and hallmarks of aging[J]. Cell, 184(2): 306-322. [9] Chen H, Li X, Gao L, et al.2022. Construction and identification of an immortalized rat intestinal smooth muscle cell line[J]. Neurogastroenterology and Motility: The Official Journal of the European Gastrointestinal Motility Society, 34(8): e14359. [10] Cheng Q Y, Liu C, Chen Q M, et al.2023. Establishing and characterizing human stem cells from the apical papilla immortalized by hTERT gene transfer[J]. Frontiers in Cell and Developmental Biology, 11: 1158936. [11] Cruz E L S, Loureiro F J A, Silva A L D C D, et al.2022. Gene expression in cell lines from human ameloblastoma immortalized using hTERT and HPV16-E6/E7[J]. Oral Diseases, 28(8): 2230-2238. [12] Du G, Wu J, Zhang C, et al.2023. Generation and application of immortalized sertoli cell line from sheep testis[J]. Journal of Virological Methods, 316: 114727-114739. [13] Jaeger A, Bardehle D, Oster M, et al.2015. Gene expression profiling of porcine mammary epithelial cells after challenge with Escherichia coli and Staphylococcus aureus in vitro[J]. Veterinary Research, 46(1): 50-67. [14] Pérez-Sosa C, Sanluis-Verdes A, Waisman A, et al.2022. Single cell transfection of human-induced pluripotent stem cells using a droplet-based microfluidic system[J]. Royal Society Open Science, 9(1): 211510. [15] Pushp P, Sahoo B, Ferreira F C, et al.2020. Functional comparison of beating cardiomyocytes differentiated from umbilical cord-derived mesenchymal/stromal stem cells and human foreskin-derived induced pluripotent stem cells[J]. Journal of Biomedical Materials Research Part A, 108(3): 496-514. [16] Ren S, Yang X, Peng T, et al.2022. Establishment of a fetal cow (Bos Borus) skin fibroblasts cell line with immortalized characterization through human telomerase reverse transcriptase (hTERT) ectopic expression[J]. Journal of Virological Methods, 309: 102147-102155 [17] Seridi N, Hamidouche M, Belmessabih N, et al.2021. Immortalization of primary sheep embryo kidney cells[J]. In vitro Cellular & Developmental Biology-Animal, 57(1): 76-85. [18] Shang D, Zhou T, Zhuang X, et al.2022. Molecular dissection on inhibition of Ras-induced cellular senescence by small tantigen of SV40[J]. Cellular and Molecular Life Sciences, 79(5): 242-256. [19] Slusher A L, Kim J J, Ribick M, et al.2022. Acute exercise regulates hTERT gene expression and alternative splicing in the hTERT-BAC transgenic mouse model[J]. Medicine and Science in Sports and Exercise, 54(6): 931-943. [20] Son D, Park H, An G, et al.2023. Establishment of immortalized human endometriotic stromal cell line from ectopic lesion of a patient with endometriosis[J]. Reproductive Sciences, 30(9): 2703-2714. [21] Song Y, Joshi N R, Vegter E, et al.2020. Establishment of an immortalized endometriotic stromal cell line from human ovarian endometrioma[J]. Reproductive Sciences , 27(11): 2082-2091. [22] Takenouchi T, Masujin K, Suzuki S, et al.2022. Establishment and characterization of the immortalized porcine lung-derived mononuclear phagocyte cell line[J]. Frontiers in Veterinary Science, 9: 1058124. [23] Wang J, Yu X Y, Zhao S R, et al.2022. Construction of a peacock immortalized fibroblast cell line for avian virus production[J]. Poultry Science, 101(12): 102147. [24] Xu W W, Huang L, Chong K K, et al.2017. Differentiation potential of human adipose tissue derived stem cells into photoreceptors through explants culture and enzyme methods[J]. International Journal of Ophthalmology, 10(1): 23-29. [25] Yan M, Yong F, Ji W, et al.2023. Construction and characterization of immortalized fibroblast cell line from bactrian camel[J]. Life-Basel, 13(6): 1337. [26] Yi W H, Yang D Z, Xu Z, et al.2023. Immortalization of mouse primary astrocytes[J]. Gene, 865: 147327-. [27] Zou Y, Hao H, Li N, et al.2020. Establishment and characterization of immortalized porcine neonatal hepatocytes without the use of viral components[J]. In vitro Cellular & Developmental Biology-Animal, 56(1): 75-84. |
|
|
|