A postnatal network of co-hepato/pancreatic stem/progenitors in the biliary trees of pigs and humans.

IF 6.4 1区 医学 Q1 CELL & TISSUE ENGINEERING
Wencheng Zhang, Xicheng Wang, Giacomo Lanzoni, Eliane Wauthier, Sean Simpson, Jennifer Ashley Ezzell, Amanda Allen, Carolyn Suitt, Jonah Krolik, Alexander Jhirad, Juan Dominguez-Bendala, Vincenzo Cardinale, Domenico Alvaro, Diletta Overi, Eugenio Gaudio, Praveen Sethupathy, Guido Carpino, Christopher Adin, Jorge A Piedrahita, Kyle Mathews, Zhiying He, Lola McAdams Reid
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引用次数: 1

Abstract

A network of co-hepato/pancreatic stem/progenitors exists in pigs and humans in Brunner's Glands in the submucosa of the duodenum, in peribiliary glands (PBGs) of intrahepatic and extrahepatic biliary trees, and in pancreatic duct glands (PDGs) of intrapancreatic biliary trees, collectively supporting hepatic and pancreatic regeneration postnatally. The network is found in humans postnatally throughout life and, so far, has been demonstrated in pigs postnatally at least through to young adulthood. These stem/progenitors in vivo in pigs are in highest numbers in Brunner's Glands and in PDGs nearest the duodenum, and in humans are in Brunner's Glands and in PBGs in the hepato/pancreatic common duct, a duct missing postnatally in pigs. Elsewhere in PDGs in pigs and in all PDGs in humans are only committed unipotent or bipotent progenitors. Stem/progenitors have genetic signatures in liver/pancreas-related RNA-seq data based on correlation, hierarchical clustering, differential gene expression and principal component analyses (PCA). Gene expression includes representative traits of pluripotency genes (SOX2, OCT4), endodermal transcription factors (e.g. SOX9, SOX17, PDX1), other stem cell traits (e.g. NCAM, CD44, sodium iodide symporter or NIS), and proliferation biomarkers (Ki67). Hepato/pancreatic multipotentiality was demonstrated by the stem/progenitors' responses under distinct ex vivo conditions or in vivo when patch grafted as organoids onto the liver versus the pancreas. Therefore, pigs are logical hosts for translational/preclinical studies for cell therapies with these stem/progenitors for hepatic and pancreatic dysfunctions.

Abstract Image

猪和人类胆道树中肝/胰腺干细胞/祖细胞的产后网络。
猪和人十二指肠粘膜下的布鲁纳氏腺、肝内和肝外胆道的周围腺(PBGs)、胰内胆道的胰管腺(PDGs)中都存在肝/胰干/祖细胞网络,共同支持肝脏和胰腺的再生。这个网络在人类出生后的整个生命中都有发现,到目前为止,在猪出生后至少到成年早期也有发现。在猪体内,这些干细胞/祖细胞在布伦纳腺和靠近十二指肠的PDGs中数量最多,在人类中,在布伦纳腺和肝/胰总管中的PBGs中数量最多,这是猪出生后缺失的管道。在猪和所有人的PDGs中,其他地方只有单能或双能祖细胞。基于相关性、分层聚类、差异基因表达和主成分分析(PCA),干细胞/祖细胞在肝脏/胰腺相关RNA-seq数据中具有遗传特征。基因表达包括多能基因(SOX2, OCT4)、内胚层转录因子(如SOX9, SOX17, PDX1)、其他干细胞性状(如NCAM, CD44,碘化钠同转运体或NIS)和增殖生物标志物(Ki67)的代表性性状。肝/胰腺的多潜能性是通过干细胞/祖细胞在不同的离体条件下或在体内作为类器官贴片移植到肝脏和胰腺时的反应来证明的。因此,猪是利用这些干细胞/祖细胞治疗肝脏和胰腺功能障碍的转化/临床前研究的合理宿主。
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来源期刊
npj Regenerative Medicine
npj Regenerative Medicine Engineering-Biomedical Engineering
CiteScore
10.00
自引率
1.40%
发文量
71
审稿时长
12 weeks
期刊介绍: Regenerative Medicine, an innovative online-only journal, aims to advance research in the field of repairing and regenerating damaged tissues and organs within the human body. As a part of the prestigious Nature Partner Journals series and in partnership with ARMI, this high-quality, open access journal serves as a platform for scientists to explore effective therapies that harness the body's natural regenerative capabilities. With a focus on understanding the fundamental mechanisms of tissue damage and regeneration, npj Regenerative Medicine actively encourages studies that bridge the gap between basic research and clinical tissue repair strategies.
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