Generation of salivary glands derived from pluripotent stem cells via conditional blastocyst complementation

Tanaka, Junichi; Miura, Akihiro; Shimamura, Yuko; Hwang, Youngmin; Shimizu, Dai; Kondo, Yuri; Sawada, Anri; Sarmah, Hemanta; Ninish, Zurab; Mishima, Kenji; Mori, Munemasa

doi:10.1101/2023.11.13.566845

2023

DOI: 10.1101/2023.11.13.566845

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Generation of salivary glands derived from pluripotent stem cells via conditional blastocyst complementation

Junichi Tanaka,

Akihiro Miura,

Yuko Shimamura

et al.

Abstract: SummaryVarious patients suffer from dry mouth due to salivary gland dysfunction. Whole salivary gland generation and transplantation is a potential therapy to resolve this issue. However, the lineage permissible to design the entire salivary gland generation has been enigmatic. Here, we discovered Foxa2 as a lineage critical for generating a salivary gland via conditional blastocyst complementation (CBC). Foxa2 linage, but not Shh nor Pitx2, initiated to label between the boundary region of the endodermal and … Show more

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2024

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Chimeric Livers: Interspecies Blastocyst Complementation and Xenotransplantation for End-Stage Liver Disease

Blake,

Steer

2024

HMER

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Orthotopic liver transplantation (OLT) currently serves as the sole definitive treatment for thousands of patients suffering from end-stage liver disease; and the existing supply of donor livers for OLT is drastically outpaced by the increasing demand. To alleviate this significant gap in treatment, several experimental approaches have been devised with the aim of either offering interim support to patients waiting on the transplant list or bioengineering complete livers for OLT by infusing them with fresh hepatic cells. Recently, interspecies blastocyst complementation has emerged as a promising method for generating complete organs in utero over a short timeframe. When coupled with gene editing technology, it has brought about a potentially revolutionary transformation in regenerative medicine. Blastocyst complementation harbors notable potential for generating complete human livers in large animals, which could be used for xenotransplantation in humans, addressing the scarcity of livers for OLT. Nevertheless, substantial experimental and ethical challenges still need to be overcome to produce human livers in larger domestic animals like pigs. This review compiles the current understanding of interspecies blastocyst complementation and outlines future possibilities for liver xenotransplantation in humans.

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Chimeric Livers: Interspecies Blastocyst Complementation and Xenotransplantation for End-Stage Liver Disease

Blake,

Steer

2024

HMER

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Generation of salivary glands derived from pluripotent stem cells via conditional blastocyst complementation

Cited by 1 publication

References 49 publications

Chimeric Livers: Interspecies Blastocyst Complementation and Xenotransplantation for End-Stage Liver Disease

Chimeric Livers: Interspecies Blastocyst Complementation and Xenotransplantation for End-Stage Liver Disease

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