Robust expansion and functional maturation of human hepatoblasts by chemical strategy

Pan, Tingcai; Tao, Jiawang; Chen, Yan; Zhang, Jiaye; Getachew, Anteneh; Zhuang, Yuanqi; Wang, Ning; Xu, Yingying; Tan, Shina; Ji, Fang; Yang, Fan; Lin, Xian-Hua; You, Kai; Gao, Yi; Li, Yin-xiong

doi:10.1186/s13287-021-02233-9

Cited by 9 publications

(16 citation statements)

References 33 publications

(50 reference statements)

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“…Our recent study has identi ed that Vc, FSK, and Dihexa could replace BMP4, EGF, and HGF, respectively, supporting HBs expansion and maintenance [13]. Also, we demonstrated that Vc could phosphorylate BMP downstream Smad1/5/8, consistent with the previous report that Vc serves a similar effect in cardiomyogenesis [40].…”

Section: Discussionsupporting

confidence: 91%

“…Hence expanding HBs, especially in small-molecule culture conditions to scalable expand HBs derived from hPSCs would be an ideal strategy for e cient, large-scale, and cost-effective generating hepatic cells for the potential clinical application [12,42]. According to this view, our previous study has established a robust and cost-effective small-molecule culture condition for the generation of self-renewing HBs and functional mature HLCs [13]. Thus, we then adopted the previously established culture condition to expand the small-molecule derived HBs.…”

Section: Discussionmentioning

confidence: 99%

“…For hepatic maturation, the proliferative HBs then cultured in previously established small-molecule culture conditions, including A8301, Dex, Dihexa, and NH4Cl (DNAD) [13]. After ve days of induction, differentiated cells displayed a homogenous and typical mature hepatocyte-like polygonal morphology (Fig.…”

Section: Differentiation Of Proliferative Hbs Into Functional Mature Hepatocytesmentioning

confidence: 99%

“…Our previous study established a synergistic cocktail to regulate BMP, Wnt, Hedgehog, and other signaling pathways, creating a delicate balance for HBs expansion and bipotency maintenance [12]. Based on this, we further created a robust and cost-effective culture condition for the generation of self-renewing HBs and functional mature HLCs, using a small-molecule cocktail in a de ned culture system [13]. Further use of a small-molecule protocol to direct hPSCs differentiation into HBs, and establish a complete small-molecule formula to generate expanded HBs and functional mature HLCs e ciently would bene t many hepatic cell potential clinical applications, including cell transplantation, bio-arti cial liver, drug development, and disease modeling.…”

Section: Introductionmentioning

confidence: 99%

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Efficiently generate functional hepatic cells from human pluripotent stem cells by complete small-molecule strategy

Pan

Wang

Zhang

et al. 2021

Preprint

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Background: Various methods have been developed to generate hepatic cells from human pluripotent stem cells (hPSCs) that rely on the combined use of multiple expensive growth factors, limiting industrial-scale production and widespread applications. Small molecules offer an attractive alternative to growth factors for producing hepatic cells since they are more economical and relatively stable. Methods: We dissect small-molecule combinations and identify the ideal cocktails to achieve an optimally efficient and cost-effective strategy for hepatic cells differentiation, expansion, and maturation.Results: We demonstrated that small-molecule cocktail CIP efficiently induced definitive endoderm (DE) formation via increased endogenous TGF-β/Nodal signaling. Furthermore, we identified that combining Vitamin C, Dihexa, and Forskolin (VDF) could substitute growth factors to induce hepatic specification. The obtained hepatoblasts (HBs) could subsequently expand and mature into functional hepatocyte-like cells (HLCs) by the established chemical formulas. Thus, we established a stepwise strategy with complete small molecules for efficiently producing scalable HBs and functionally matured HLCs. The small-molecule derived HLCs displayed typical functional characteristics as mature hepatocytes in vitro and repopulating injured liver in vivo. Conclusion: Our current small-molecule based hepatic generation protocol presents an efficient and cost-effective platform for the large-scale production of functional human hepatic cells for cell-based therapy and drug discovery using.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Section: Differentiation Of Proliferative Hbs Into Functional Mature Hepatocytesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Efficiently generate functional hepatic cells from human pluripotent stem cells by complete small-molecule strategy

Pan

Wang

Zhang

et al. 2021

Preprint

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“…The hiPSC-derived AT2-like cell cultures were also analyzed regarding other endodermal phenotypes. No similarities were detected between AT2-like cells and hepatocytes (Alpha-1-Fetoprotein expression 51 , 52 ), thyroid-like cells (PAX8 expression in LPCs) or proximal airway markers (see Supplementary Figs. S5 f, S6 , S13 , online).…”

Section: Resultsmentioning

confidence: 99%

Functional human iPSC-derived alveolar-like cells cultured in a miniaturized 96‑Transwell air–liquid interface model

Bluhmki

Traub²,

Müller³

et al. 2021

Sci Rep

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In order to circumvent the limited access and donor variability of human primary alveolar cells, directed differentiation of human pluripotent stem cells (hiPSCs) into alveolar-like cells, provides a promising tool for respiratory disease modeling and drug discovery assays. In this work, a unique, miniaturized 96-Transwell microplate system is described where hiPSC-derived alveolar-like cells were cultured at an air–liquid interface (ALI). To this end, hiPSCs were differentiated into lung epithelial progenitor cells (LPCs) and subsequently matured into a functional alveolar type 2 (AT2)-like epithelium with monolayer-like morphology. AT2-like cells cultured at the physiological ALI conditions displayed characteristics of AT2 cells with classical alveolar surfactant protein expressions and lamellar-body like structures. The integrity of the epithelial barriers between the AT2-like cells was confirmed by applying a custom-made device for 96-parallelized transepithelial electric resistance (TEER) measurements. In order to generate an IPF disease-like phenotype in vitro, the functional AT2-like cells were stimulated with cytokines and growth factors present in the alveolar tissue of IPF patients. The cytokines stimulated the secretion of pro-fibrotic biomarker proteins both on the mRNA (messenger ribonucleic acid) and protein level. Thus, the hiPSC-derived and cellular model system enables the recapitulation of certain IPF hallmarks, while paving the route towards a miniaturized medium throughput approach of pharmaceutical drug discovery.

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Efficiently generate functional hepatic cells from human pluripotent stem cells by complete small-molecule strategy

et al. 2022

Self Cite

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Background Various methods have been developed to generate hepatic cells from human pluripotent stem cells (hPSCs) that rely on the combined use of multiple expensive growth factors, limiting industrial-scale production and widespread applications. Small molecules offer an attractive alternative to growth factors for producing hepatic cells since they are more economical and relatively stable. Methods We dissect small-molecule combinations and identify the ideal cocktails to achieve an optimally efficient and cost-effective strategy for hepatic cells differentiation, expansion, and maturation. Results We demonstrated that small-molecule cocktail CIP (including CHIR99021, IDE1, and PD0332991) efficiently induced definitive endoderm (DE) formation via increased endogenous TGF-β/Nodal signaling. Furthermore, we identified that combining Vitamin C, Dihexa, and Forskolin (VDF) could substitute growth factors to induce hepatic specification. The obtained hepatoblasts (HBs) could subsequently expand and mature into functional hepatocyte-like cells (HLCs) by the established chemical formulas. Thus, we established a stepwise strategy with complete small molecules for efficiently producing scalable HBs and functionally matured HLCs. The small-molecule-derived HLCs displayed typical functional characteristics as mature hepatocytes in vitro and repopulating injured liver in vivo. Conclusion Our current small-molecule-based hepatic generation protocol presents an efficient and cost-effective platform for the large-scale production of functional human hepatic cells for cell-based therapy and drug discovery using.

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Robust expansion and functional maturation of human hepatoblasts by chemical strategy

Cited by 9 publications

References 33 publications

Efficiently generate functional hepatic cells from human pluripotent stem cells by complete small-molecule strategy

Efficiently generate functional hepatic cells from human pluripotent stem cells by complete small-molecule strategy

Functional human iPSC-derived alveolar-like cells cultured in a miniaturized 96‑Transwell air–liquid interface model

Efficiently generate functional hepatic cells from human pluripotent stem cells by complete small-molecule strategy

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