Liver development is restored by blastocyst complementation of HHEX knockout in mice and pigs

M. Ruiz-Estevez; A. T. Crane; P. Rodriguez-Villamil; F. L. Ongaratto; Yun You; A. R. Steevens; C. Hill; T. Goldsmith; D. A. Webster; L. Sherry; S. Lim; N. Denman; W. C. Low; D. F. Carlson; J. R. Dutton; C. J. Steer; O. Gafni

doi:10.1186/s13287-021-02348-z

Liver development is restored by blastocyst complementation of HHEX knockout in mice and pigs

M. Ruiz-Estevez, A. T. Crane, P. Rodriguez-Villamil, F. L. Ongaratto, Yun You, A. R. Steevens, C. Hill, T. Goldsmith, D. A. Webster, L. Sherry, S. Lim, N. Denman, W. C. Low, D. F. Carlson, J. R. Dutton, C. J. Steer, O. Gafni

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Abstract

Background: There are over 17,000 patients in the US waiting to receive liver transplants, and these numbers are increasing dramatically. Significant effort is being made to obtain functional hepatocytes and liver tissue that can for therapeutic use in patients. Blastocyst complementation is a challenging, innovative technology that could fundamentally change the future of organ transplantation. It requires the knockout (KO) of genes essential for cell or organ development in early stage host embryos followed by injection of donor pluripotent stem cells (PSCs) into host blastocysts to generate chimeric offspring in which progeny of the donor cells populate the open niche to develop functional tissues and organs. Methods: The HHEX gene is necessary for proper liver development. We engineered loss of HHEX gene expression in early mouse and pig embryos and performed intraspecies blastocyst complementation of HHEX KO embryos with eGFP-labeled PSCs in order to rescue the loss of liver development. Results: Loss of HHEX gene expression resulted in embryonic lethality at day 10.5 in mice and produced characteristics of lethality at day 18 in pigs, with absence of liver tissue in both species. Analyses of mouse and pig HHEX KO fetuses confirmed significant loss of liver-specific gene and protein expression. Intraspecies blastocyst complementation restored liver formation and liver-specific proteins in both mouse and pig. Livers in complemented chimeric fetuses in both species were comprised of eGFP-labeled donor-derived cells and survived beyond the previously observed time of HHEX KO embryonic lethality. Conclusions: This work demonstrates that loss of liver development in the HHEX KO can be rescued via blastocyst complementation in both mice and pigs. This complementation strategy is the first step towards generating interspecies chimeras for the goal of producing human liver cells, tissues, and potentially complete organs for clinical transplantation.

Original language	English (US)
Article number	292
Journal	Stem Cell Research and Therapy
Volume	12
Issue number	1
DOIs	https://doi.org/10.1186/s13287-021-02348-z
State	Published - Dec 2021

Bibliographical note

Publisher Copyright:
© 2021, The Author(s).

Keywords

Development
Embryo
Gene editing
Stem cells
Transplantation

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Ruiz-Estevez, M., Crane, A. T., Rodriguez-Villamil, P., Ongaratto, F. L., You, Y., Steevens, A. R., Hill, C., Goldsmith, T., Webster, D. A., Sherry, L., Lim, S., Denman, N., Low, W. C., Carlson, D. F., Dutton, J. R., Steer, C. J., & Gafni, O. (2021). Liver development is restored by blastocyst complementation of HHEX knockout in mice and pigs. Stem Cell Research and Therapy, 12(1), Article 292. https://doi.org/10.1186/s13287-021-02348-z

Ruiz-Estevez, M, Crane, AT, Rodriguez-Villamil, P, Ongaratto, FL, You, Y , Steevens, AR, Hill, C, Goldsmith, T, Webster, DA, Sherry, L, Lim, S, Denman, N, Low, WC, Carlson, DF, Dutton, JR , Steer, CJ & Gafni, O 2021, 'Liver development is restored by blastocyst complementation of HHEX knockout in mice and pigs', Stem Cell Research and Therapy, vol. 12, no. 1, 292. https://doi.org/10.1186/s13287-021-02348-z

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abstract = "Background: There are over 17,000 patients in the US waiting to receive liver transplants, and these numbers are increasing dramatically. Significant effort is being made to obtain functional hepatocytes and liver tissue that can for therapeutic use in patients. Blastocyst complementation is a challenging, innovative technology that could fundamentally change the future of organ transplantation. It requires the knockout (KO) of genes essential for cell or organ development in early stage host embryos followed by injection of donor pluripotent stem cells (PSCs) into host blastocysts to generate chimeric offspring in which progeny of the donor cells populate the open niche to develop functional tissues and organs. Methods: The HHEX gene is necessary for proper liver development. We engineered loss of HHEX gene expression in early mouse and pig embryos and performed intraspecies blastocyst complementation of HHEX KO embryos with eGFP-labeled PSCs in order to rescue the loss of liver development. Results: Loss of HHEX gene expression resulted in embryonic lethality at day 10.5 in mice and produced characteristics of lethality at day 18 in pigs, with absence of liver tissue in both species. Analyses of mouse and pig HHEX KO fetuses confirmed significant loss of liver-specific gene and protein expression. Intraspecies blastocyst complementation restored liver formation and liver-specific proteins in both mouse and pig. Livers in complemented chimeric fetuses in both species were comprised of eGFP-labeled donor-derived cells and survived beyond the previously observed time of HHEX KO embryonic lethality. Conclusions: This work demonstrates that loss of liver development in the HHEX KO can be rescued via blastocyst complementation in both mice and pigs. This complementation strategy is the first step towards generating interspecies chimeras for the goal of producing human liver cells, tissues, and potentially complete organs for clinical transplantation.",

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author = "M. Ruiz-Estevez and Crane, {A. T.} and P. Rodriguez-Villamil and Ongaratto, {F. L.} and Yun You and Steevens, {A. R.} and C. Hill and T. Goldsmith and Webster, {D. A.} and L. Sherry and S. Lim and N. Denman and Low, {W. C.} and Carlson, {D. F.} and Dutton, {J. R.} and Steer, {C. J.} and O. Gafni",

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AU - Ruiz-Estevez, M.

AU - Crane, A. T.

AU - Rodriguez-Villamil, P.

AU - Ongaratto, F. L.

AU - You, Yun

AU - Steevens, A. R.

AU - Hill, C.

AU - Goldsmith, T.

AU - Webster, D. A.

AU - Sherry, L.

AU - Lim, S.

AU - Denman, N.

AU - Low, W. C.

AU - Carlson, D. F.

AU - Dutton, J. R.

AU - Steer, C. J.

AU - Gafni, O.

PY - 2021/12

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N2 - Background: There are over 17,000 patients in the US waiting to receive liver transplants, and these numbers are increasing dramatically. Significant effort is being made to obtain functional hepatocytes and liver tissue that can for therapeutic use in patients. Blastocyst complementation is a challenging, innovative technology that could fundamentally change the future of organ transplantation. It requires the knockout (KO) of genes essential for cell or organ development in early stage host embryos followed by injection of donor pluripotent stem cells (PSCs) into host blastocysts to generate chimeric offspring in which progeny of the donor cells populate the open niche to develop functional tissues and organs. Methods: The HHEX gene is necessary for proper liver development. We engineered loss of HHEX gene expression in early mouse and pig embryos and performed intraspecies blastocyst complementation of HHEX KO embryos with eGFP-labeled PSCs in order to rescue the loss of liver development. Results: Loss of HHEX gene expression resulted in embryonic lethality at day 10.5 in mice and produced characteristics of lethality at day 18 in pigs, with absence of liver tissue in both species. Analyses of mouse and pig HHEX KO fetuses confirmed significant loss of liver-specific gene and protein expression. Intraspecies blastocyst complementation restored liver formation and liver-specific proteins in both mouse and pig. Livers in complemented chimeric fetuses in both species were comprised of eGFP-labeled donor-derived cells and survived beyond the previously observed time of HHEX KO embryonic lethality. Conclusions: This work demonstrates that loss of liver development in the HHEX KO can be rescued via blastocyst complementation in both mice and pigs. This complementation strategy is the first step towards generating interspecies chimeras for the goal of producing human liver cells, tissues, and potentially complete organs for clinical transplantation.

AB - Background: There are over 17,000 patients in the US waiting to receive liver transplants, and these numbers are increasing dramatically. Significant effort is being made to obtain functional hepatocytes and liver tissue that can for therapeutic use in patients. Blastocyst complementation is a challenging, innovative technology that could fundamentally change the future of organ transplantation. It requires the knockout (KO) of genes essential for cell or organ development in early stage host embryos followed by injection of donor pluripotent stem cells (PSCs) into host blastocysts to generate chimeric offspring in which progeny of the donor cells populate the open niche to develop functional tissues and organs. Methods: The HHEX gene is necessary for proper liver development. We engineered loss of HHEX gene expression in early mouse and pig embryos and performed intraspecies blastocyst complementation of HHEX KO embryos with eGFP-labeled PSCs in order to rescue the loss of liver development. Results: Loss of HHEX gene expression resulted in embryonic lethality at day 10.5 in mice and produced characteristics of lethality at day 18 in pigs, with absence of liver tissue in both species. Analyses of mouse and pig HHEX KO fetuses confirmed significant loss of liver-specific gene and protein expression. Intraspecies blastocyst complementation restored liver formation and liver-specific proteins in both mouse and pig. Livers in complemented chimeric fetuses in both species were comprised of eGFP-labeled donor-derived cells and survived beyond the previously observed time of HHEX KO embryonic lethality. Conclusions: This work demonstrates that loss of liver development in the HHEX KO can be rescued via blastocyst complementation in both mice and pigs. This complementation strategy is the first step towards generating interspecies chimeras for the goal of producing human liver cells, tissues, and potentially complete organs for clinical transplantation.

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KW - Transplantation

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Liver development is restored by blastocyst complementation of HHEX knockout in mice and pigs

Abstract

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