Effect of Wnt5b overexpression on the differentiation of embryonic liver stem cells in mice and its repair effect on chronic liver injury in mice

doi:10.16098/j.issn.0529-1356.2022.04.009

Abstract

Abstract:

Objective To investigate the effect of wingless-type MMTV integration site family member 5b(Wnt5b) gene overexpression mediated by recombinant adenovirus on the differentiation of mouse embryonic liver stem cells and repair of chronic liver injury in mice. Methods Recombinant adenoviruses expressing Wnt5b and green fluorescent protein (GFP) were applied respectively to infect mouse fetal liver stem cells HP14-19, and induced its differentiation and verified the expression of Wnt5b through Real-time PCR and Western blotting. It also applied indocyanine grean(ICG) uptake experiment and periodic acid-schiff(PAS) staining to detect the differentiation ability of HP14-19 into hepatocyte-like cells. The Real-time PCR was chosen to detect hepatocyte markers albumin (Alb) and cytokeratin 18 (CK18) expression. Forty-eight experimental male BALB/c mice were randomly divided into control group, model group, stem cell treatment group and Wnt5b modified stem cell treatment group. The carbon tetrachloride(CCl4) was selected to establish a chronic liver injury model. After 2 weeks of stem cell treatment, liver pathological staining and immunohistochemistry were used to evaluate liver repair. Results Both Real-time PCR and Western blotting detection showed that Wnt5b was successfully overexpressed in HP14-19（P<0.001）. The mRNA expressions of Alb and CK18 in the Wnt5b group were higher than those in the GFP group and control group by Real-time PCR（P<0.001）. ICG uptake test and PAS staining showed that the ICG uptake capacity and glycogen synthesis capacity of Wnt5b group increased significantly compared with the GFP group after 7 days of induction（P<0.01）. Liver HE staining result showed that the model group had an obvious liver injury and liver tissue structure disordered. The stem cell group liver tissue structure partially recovered, and the liver tissue recovery in the Wnt5b group was better than that in the stem cell group. Masson staining showed that the model group had obvious fiber hyperplasia, and the Wnt5b group had less blue-stained fiber than the stem cell group（P<0.05）. The immunohistochemistry showed collagen type Ⅰ(ColⅠ) and myeloperoxidase (MPO) increased significantly in the model group, and the repair effects of these indexes were significant in the Wnt5b group than in the fetal stem cell group（P<0.05）. Conclusion Wnt5b can induce mouse fetal liver stem cells to differentiate into mature hepatocyte-like cells. Also, the genetically modified fetal liver stem cells have more advantages in repairing the liver of chronic liver injury mice than fetal liver stem cells.

Key words: Wingless-type MMTV integration site family member 5b, Fetal liver stem cell, Chronic liver injury, Liver fibrosis, Real-time PCR, Mouse

CLC Number:

R657.3

JIANG Hao XIE Zhuo-jun ZHANG Hao-dong ZHOU Hong LUO Qing KANG Quan. Effect of Wnt5b overexpression on the differentiation of embryonic liver stem cells in mice and its repair effect on chronic liver injury in mice[J]. Acta Anatomica Sinica, 2022, 53(4): 461-469.

References

［1］Kisseleva T, Brenner D. Molecular and cellular mechanisms of liver fibrosis and its regression［J］. Nat Rev Gastroenterol Hepatol,2021,18(3):151-166.

［2］Parola M, Pinzani M. Liver fibrosis: pathophysiology, pathogenetic targets and clinical issues［J］. Mol Aspects Med,2019,65:37-55.

［3］Roehlen N, Crouchet E, Baumert TF. Liver Fibrosis: mechanistic concepts and therapeutic perspectives［J］. Cells,2020,9(4):875.

［4］Dai KQ, Ding Y, Fan JY, et al. Advance in the study of bone marrow mesenchymal stem cell differentiation into hepatocyte in vitro［J］. Acta Anatomica Sinica, 2015,46(5):704-709. (in Chinese)

代克强, 丁一, 樊晋宇, 等. 体外诱导骨髓间充质干细胞成肝(样)细胞的研究进展［J］. 解剖学报,2015,46(5):704-709.

［5］Steinhart Z, Angers S. Wnt signaling in development and tissue homeostasis［J］. Development,2018,145(11):dev146589.

［6］Perugorria MJ, Olaizola P, Labiano I, et al. Wnt-beta-catenin signaling in liver development, health and disease［J］. Nat Rev Gastroenterol Hepatol,2019,16(2):121-136.

［7］Alwa hsh SM, Rashidi H, Hay DC. Liver cell therapy: is this the end of the beginning ［J］?. Cell Mol Life Sci,2018,75(8):1307-1324.

［8］Koike H, Taniguchi H. Characteristics of hepatic stem/progenitor cells in the fetal and adult liver［J］. J Hepatobiliary Pancreat Sci,2012,19(6):587-593.

［9］Suthon S, Perkins RS, Bryja V, et al. Wnt5b in physiology and disease［J］. Front Cell Dev Biol,2021,9:724948.

［10］Bi Y, He Y, Huang JY, et al. Functional characteristics of reversibly immortalized hepatic progenitor cells derived from mouse embryonic liver［J］.Cell Physiol Biochem,2014,34(4):1318-1338.

［11］Sun M, Kisseleva T. Reversibility of liver fibrosis［J］. Clin Res Hepatol Gastroenterol,2015,39(1):S60-S63.

［12］Duan XX, Wang Y, He JJ, et al. Progress of the application of stem cell therapy for end-stage liver disease［J］. Journal of Central South University(Medical Science), 2017,42(4):457-462. (in Chinese)

段星祥, 王洋, 贺菁菁, 等. 干细胞治疗终末期肝病的进展［J］. 中南大学学报（医学版）,2017,42(4):457-462.

［13］Li Q, Zhou X, Shi Y, et al. In vivo tracking and comparison of the therapeutic effects of MSCs and HSCs for liver injury［J］. PLoS One,2013,8(4):e62363.

［14］Miao C, Yang Y, He X, et al. Wnt signaling in liver fibrosis: Progress, challenges and potential directions［J］. Biochimie, 2013,95(12):2326-2335.

［15］Mu YP, Zhang X, Xu Y, et al. Notch signaling pathway participates in the differentiation of hepatic progenitor cells into bile duct epithelial cells and progression of hepatic fibrosis in cholestatic liver fibrosis rat［J］. Chinese Journal of Pathology,2017,46(6):400-405. (in Chinese)

慕永平，张笑，徐莹，等. Notch信号通路参与大鼠胆汁性肝纤维化肝祖细胞向胆管上皮细胞分化以及肝纤维化进展［J］. 中华病理学杂志,2017,46(6):400-405.

［16］Haworth K, Samuel L, Black S, et al. Liver specification in the absence of cardiac differentiation revealed by differential sensitivity to Wnt/β catenin pathway activation［J］. Front Physiol,2019,10:155.

［17］Aimaiti Y, Jin X, Shao Y, et al. Hepatic stellate cells regulate hepatic progenitor cells differentiation via the TGF-β1/Jagged1 signaling axis［J］. J Cell Physiol,2019,234(6):9283-9296.

［18］Luo J, Chen J, Deng Z, et al. Wnt signaling and human diseases: what are the therapeutic implications［J］? Lab Invest,2007,87(2):97-103.

［19］Sarvandi SS, Joghataei MT, Parivar K, et al. In vitro differentiation of rat mesenchymal stem cells to hepatocyte lineage［J］. Iran J Basic Med Sci,2015,18(1):89-97.

［20］Wang J, Kang Q, Luo Q, et al. Effects of pathologic microenvironmental cytokines derived from cholestatic cirrhosis on liver stem cell differentiation［J］. Chinese Journal of Cell Biology, 2018,40(4):490-498. (in Chinese)

王健，康权，罗庆，等. 胆汁淤积性肝硬化来源的微环境因子对肝脏干细胞分化的影响［J］. 中国细胞生物学学报,2018,40(4):490-498.

[1]	HONG Xiao-min LI San-qiang CUI Qin-yi ZHENG Run-yue YANG Meng-li LUO Ren-li LI Qian-hui. Nuclear factor-κB signaling pathway and gender differences in alcoholic liver fibrosis [J]. Acta Anatomica Sinica, 2024, 55(1): 55-61.
[2]	XIE Hui-lan FANG Fang LIN Yi. Mechanism of Chir99021 regulating Wnt/β-catenin signaling pathway inhibiting osteogenic differentiation of rat dental pulp stem cells [J]. Acta Anatomica Sinica, 2024, 55(1): 67-72.
[3]	YUAN Lei YANG Zhi-wei YANG Hui LIU Zheng-hai HE Jie WAN Wei. Panax notoginseng saponin relieving the inflammatory pain caused by complete Freund’s adjuvant by inhibiting the activation of astrocytes in mice [J]. Acta Anatomica Sinica, 2024, 55(1): 25-31.
[4]	MA Ting-ting CHEN Jian-hong LIU Ai-cui LI Hai-ning. Role of inhibiting lncRNA TUG1 to down-regulate nucleotide binding oligomerization domain like receptor protein 1 inflammasome in delaying the progression of Alzheimer’s disease [J]. Acta Anatomica Sinica, 2024, 55(1): 32-42.
[5]	ZOU Cheng-gong FENG Hao CHEN Bing TANG Hui SHAO Chuan SUN Mou YANG Rong HE Jia-quan . Research on the dynamic changes of neurological dysfunction and cognitive function impairment in traumatic brain injury [J]. Acta Anatomica Sinica, 2024, 55(1): 43-48.
[6]	ZHENG Li-ping LIU Xia DU Xiao-hua WU Ya-juan LIU Shan-shan . Expression and distribution of brain-derived neurotrophic factor in different cerebrum regions of yak and cattle [J]. Acta Anatomica Sinica, 2024, 55(1): 10-16.
[7]	ZHANG Qin YANG Jun-xia JIANG Qing-song. Effect of fosinopril on angiotensin converting enzyme 2 and vascular endothelial growth factor in diabetic retinopathy mice [J]. Acta Anatomica Sinica, 2023, 54(6): 628-634.
[8]	CHEN Zi-xuan SI Li-na SHU Wei-han ZHANG Xin WEI Chen-yang CHENG Lu-yang YANG Song-he QIAO Yue-bing. Mechanism of melatonin regulation of PI3K/Akt/mTOR signaling in hypothalamus delaying the initiation of puberty in female mice mice [J]. Acta Anatomica Sinica, 2023, 54(6): 644-651.
[9]	LIU Zhe-chuan LI Kun MA Shuai-nan MENG Jia-qi WANG Yan-qin. Effects of liraglutide on inflammation and mitochondrial fusion/division in Parkinson’s disease model of mice induced by paraquat [J]. Acta Anatomica Sinica, 2023, 54(6): 676-681.
[10]	LIU Ye CHU Ya-nan XU Ce-lu HE Jia-cheng SU Bing-yin TAI Hao-ran. Roscovitine rescuing neuronal loss and neuroinflammation in brain regions associated with Parkinson’s disease mice [J]. Acta Anatomica Sinica, 2023, 54(6): 635-643.
[11]	WEI Chun-chun WANG Ping LIN Fang-xing MA Xian-hua ZHANG Wei-ping XIE Zhi-fang. An improved fixation method for preparing mouse brown adipose tissue for transmission electron microscopy [J]. Acta Anatomica Sinica, 2023, 54(6): 738-743.
[12]	YAN Kun WU Xiao-lin LIU Ying-juan GE Ke-li1 REN Lei-ming LI Hong-yun . Effect of cerebrotein hydrolysate-Ⅰon intestinal microflora regulation of mice with Parkinson’s disease [J]. Acta Anatomica Sinica, 2023, 54(5): 497-504.
[13]	Ling GU ZHANG Ping SONG KeXin Na Li Hong-yu Chen Zhang Jie CONG Jing ZHAI XiaoYue GU Ling ZHANG Ping SONG Ke-xin LI Na CHEN Hong-yu ZHANG Jie CONG -Jing ZHAI Xiao-yue . Morphometry of the ureteric bud branching in the developing mouse kidney [J]. Acta Anatomica Sinica, 2023, 54(5): 593-598.
[14]	HE Ke-ke LI Yuan-di WEN Ting-hao ZHU Jie GAO Jie HU Rong HAN Feng SU Min . Erythrocyte membrane-associated protein inhibiting Th17 cell differentiation via IL-6/STAT3/ROR-γt signaling pathway in experimental autoimmune encephalomyelitis mice encephalomyelitis mice [J]. Acta Anatomica Sinica, 2023, 54(5): 538-545.
[15]	FAN Wen-juan CHEN Xu-dong CHEN Yong-fang YANG Xu-guang JIN Shao-ju ZHAO Zhi-jun DENG Jin-bo. Developmental comparison between cerebral organoids in vitro and body’s cortices in vivo [J]. Acta Anatomica Sinica, 2023, 54(4): 383-391.