Generation of vascular chimerism within donor organs

Shahar Cohen; Shirly Partouche; Michael Gurevich; Vladimir Tennak; Vadym Mezhybovsky; Dmitry Azarov; Sarit Soffer-Hirschberg; Benny Hovav; Hagit Niv-Drori; Chana Weiss; Adi Borovich; Guy Cohen; Avital Wertheimer; Golan Shukrun; Moshe Israeli; Vered Yahalom; Dorit Leshem-Lev; Leor Perl; Ran Kornowski; Arnon Wiznitzer; Ana Tobar; Meora Feinmesser; Eytan Mor; Eli Atar; Eviatar Nesher

doi:10.1038/s41598-021-92823-7

Generation of vascular chimerism within donor organs

Shahar Cohen, Shirly Partouche, Michael Gurevich, Vladimir Tennak, Vadym Mezhybovsky, Dmitry Azarov, Sarit Soffer-Hirschberg, Benny Hovav, Hagit Niv-Drori, Chana Weiss, Adi Borovich, Guy Cohen, Avital Wertheimer, Golan Shukrun, Moshe Israeli, Vered Yahalom, Dorit Leshem-Lev, Leor Perl, Ran Kornowski, Arnon WiznitzerAna Tobar, Meora Feinmesser, Eytan Mor, Eli Atar, Eviatar Nesher

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Whole organ perfusion decellularization has been proposed as a promising method to generate non-immunogenic organs from allogeneic and xenogeneic donors. However, the ability to recellularize organ scaffolds with multiple patient-specific cells in a spatially controlled manner remains challenging. Here, we propose that replacing donor endothelial cells alone, while keeping the rest of the organ viable and functional, is more technically feasible, and may offer a significant shortcut in the efforts to engineer transplantable organs. Vascular decellularization was achieved ex vivo, under controlled machine perfusion conditions, in various rat and porcine organs, including the kidneys, liver, lungs, heart, aorta, hind limbs, and pancreas. In addition, vascular decellularization of selected organs was performed in situ, within the donor body, achieving better control over the perfusion process. Human placenta-derived endothelial progenitor cells (EPCs) were used as immunologically-acceptable human cells to repopulate the luminal surface of de-endothelialized aorta (in vitro), kidneys, lungs and hind limbs (ex vivo). This study provides evidence that artificially generating vascular chimerism is feasible and could potentially pave the way for crossing the immunological barrier to xenotransplantation, as well as reducing the immunological burden of allogeneic grafts.

Original language	English
Article number	13437
Journal	Scientific Reports
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41598-021-92823-7
State	Published - 28 Jun 2021
Externally published	Yes

Bibliographical note

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

Funding

We thank N. First Cohen for providing outstanding expertise in designing artwork and figures. We thank I. Lubin for assistance with flow cytometry analysis performed at the Felsenstien Medical Research Center Core Facility. We thank R. Abir for assistance with immunostaining; A. Atkins for providing SEM expertise; O. Skokov, A. Avraham-Kamensky and C. Tsabari for assistance with histological sample preparation and analysis; I. Binkin and A. Peso for technical insights; S. Cohen for help with biochemical analysis; T. Shochat for assistance with statistical analysis, and B. Tadmor for helpful discussions. We also thank H.E. Shamash-Ladd for editing the manuscript. This work was supported by the Rabin Medical Center research authority.

Funders	Funder number
Rabin medical center

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10.1038/s41598-021-92823-7

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Cohen, S., Partouche, S., Gurevich, M., Tennak, V., Mezhybovsky, V., Azarov, D., Soffer-Hirschberg, S., Hovav, B., Niv-Drori, H., Weiss, C., Borovich, A., Cohen, G., Wertheimer, A., Shukrun, G., Israeli, M., Yahalom, V., Leshem-Lev, D., Perl, L., Kornowski, R., ... Nesher, E. (2021). Generation of vascular chimerism within donor organs. Scientific Reports, 11(1), Article 13437. https://doi.org/10.1038/s41598-021-92823-7

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abstract = "Whole organ perfusion decellularization has been proposed as a promising method to generate non-immunogenic organs from allogeneic and xenogeneic donors. However, the ability to recellularize organ scaffolds with multiple patient-specific cells in a spatially controlled manner remains challenging. Here, we propose that replacing donor endothelial cells alone, while keeping the rest of the organ viable and functional, is more technically feasible, and may offer a significant shortcut in the efforts to engineer transplantable organs. Vascular decellularization was achieved ex vivo, under controlled machine perfusion conditions, in various rat and porcine organs, including the kidneys, liver, lungs, heart, aorta, hind limbs, and pancreas. In addition, vascular decellularization of selected organs was performed in situ, within the donor body, achieving better control over the perfusion process. Human placenta-derived endothelial progenitor cells (EPCs) were used as immunologically-acceptable human cells to repopulate the luminal surface of de-endothelialized aorta (in vitro), kidneys, lungs and hind limbs (ex vivo). This study provides evidence that artificially generating vascular chimerism is feasible and could potentially pave the way for crossing the immunological barrier to xenotransplantation, as well as reducing the immunological burden of allogeneic grafts.",

author = "Shahar Cohen and Shirly Partouche and Michael Gurevich and Vladimir Tennak and Vadym Mezhybovsky and Dmitry Azarov and Sarit Soffer-Hirschberg and Benny Hovav and Hagit Niv-Drori and Chana Weiss and Adi Borovich and Guy Cohen and Avital Wertheimer and Golan Shukrun and Moshe Israeli and Vered Yahalom and Dorit Leshem-Lev and Leor Perl and Ran Kornowski and Arnon Wiznitzer and Ana Tobar and Meora Feinmesser and Eytan Mor and Eli Atar and Eviatar Nesher",

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Cohen, S, Partouche, S, Gurevich, M, Tennak, V, Mezhybovsky, V, Azarov, D, Soffer-Hirschberg, S, Hovav, B, Niv-Drori, H, Weiss, C, Borovich, A, Cohen, G, Wertheimer, A, Shukrun, G, Israeli, M, Yahalom, V, Leshem-Lev, D, Perl, L, Kornowski, R, Wiznitzer, A, Tobar, A, Feinmesser, M, Mor, E, Atar, E & Nesher, E 2021, 'Generation of vascular chimerism within donor organs', Scientific Reports, vol. 11, no. 1, 13437. https://doi.org/10.1038/s41598-021-92823-7

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AU - Cohen, Shahar

AU - Partouche, Shirly

AU - Gurevich, Michael

AU - Tennak, Vladimir

AU - Mezhybovsky, Vadym

AU - Azarov, Dmitry

AU - Soffer-Hirschberg, Sarit

AU - Hovav, Benny

AU - Niv-Drori, Hagit

AU - Weiss, Chana

AU - Borovich, Adi

AU - Cohen, Guy

AU - Wertheimer, Avital

AU - Shukrun, Golan

AU - Israeli, Moshe

AU - Yahalom, Vered

AU - Leshem-Lev, Dorit

AU - Perl, Leor

AU - Kornowski, Ran

AU - Wiznitzer, Arnon

AU - Tobar, Ana

AU - Feinmesser, Meora

AU - Mor, Eytan

AU - Atar, Eli

AU - Nesher, Eviatar

PY - 2021/6/28

Y1 - 2021/6/28

N2 - Whole organ perfusion decellularization has been proposed as a promising method to generate non-immunogenic organs from allogeneic and xenogeneic donors. However, the ability to recellularize organ scaffolds with multiple patient-specific cells in a spatially controlled manner remains challenging. Here, we propose that replacing donor endothelial cells alone, while keeping the rest of the organ viable and functional, is more technically feasible, and may offer a significant shortcut in the efforts to engineer transplantable organs. Vascular decellularization was achieved ex vivo, under controlled machine perfusion conditions, in various rat and porcine organs, including the kidneys, liver, lungs, heart, aorta, hind limbs, and pancreas. In addition, vascular decellularization of selected organs was performed in situ, within the donor body, achieving better control over the perfusion process. Human placenta-derived endothelial progenitor cells (EPCs) were used as immunologically-acceptable human cells to repopulate the luminal surface of de-endothelialized aorta (in vitro), kidneys, lungs and hind limbs (ex vivo). This study provides evidence that artificially generating vascular chimerism is feasible and could potentially pave the way for crossing the immunological barrier to xenotransplantation, as well as reducing the immunological burden of allogeneic grafts.

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Generation of vascular chimerism within donor organs

Abstract

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