Increased human complement pathway regulatory protein gene dose is associated with increased endothelial expression and prolonged survival during ex-vivo perfusion of GTKO pig lungs with human blood

Ryan Chaban; Gannon McGrath; Zahra Habibabady; Ivy Rosales; Lars Burdorf; David L Ayares; Elana Rybak; Tianshu Zhang; Donald G Harris; Siamak Dahi; Franchesca Ali; Dawn M Parsell; Gheorghe Braileanu; Xiangfei Cheng; Evelyn Sievert; Carol Phelps; Agnes M Azimzadeh; Richard N Pierson 3rd

doi:10.1111/xen.12812

Increased human complement pathway regulatory protein gene dose is associated with increased endothelial expression and prolonged survival during ex-vivo perfusion of GTKO pig lungs with human blood

Xenotransplantation. 2023 Jul-Aug;30(4):e12812. doi: 10.1111/xen.12812. Epub 2023 Jul 28.

Authors

Ryan Chaban^{1

2}, Gannon McGrath¹, Zahra Habibabady^{1

3}, Ivy Rosales¹, Lars Burdorf^{1

3

4}, David L Ayares⁴, Elana Rybak³, Tianshu Zhang³, Donald G Harris³, Siamak Dahi³, Franchesca Ali³, Dawn M Parsell³, Gheorghe Braileanu³, Xiangfei Cheng³, Evelyn Sievert³, Carol Phelps⁴, Agnes M Azimzadeh^{1

3}, Richard N Pierson 3rd^{1

3}

Affiliations

¹ Center for Transplantation Sciences and Department of Surgery, Massachusetts General Hospital and Harvard School of Medicine, Boston, Massachusetts, USA.
² Department of Cardiac and Vascular Surgery, University Hospital of Johannes Gutenberg University Mainz, Mainz, Germany.
³ Department of Surgery, University of Maryland School of Medicine, Baltimore, Maryland, USA.
⁴ Revivicor, Inc., Blacksburg, Virginia, USA.

PMID: 37504492
DOI: 10.1111/xen.12812

Abstract

Introduction: Expression of human complement pathway regulatory proteins (hCPRP's) such as CD46 or CD55 has been associated with improved survival of pig organ xenografts in multiple different models. Here we evaluate the hypothesis that an increased human CD46 gene dose, through homozygosity or additional expression of a second hCPRP, is associated with increased protein expression and with improved protection from injury when GTKO lung xenografts are perfused with human blood.

Methods: Twenty three GTKO lungs heterozygous for human CD46 (GTKO.heteroCD46), 10 lungs homozygous for hCD46 (GTKO.homoCD46), and six GTKO.homoCD46 lungs also heterozygous for hCD55 (GTKO.homoCD46.hCD55) were perfused with human blood for up to 4 h in an ex vivo circuit.

Results: Relative to GTKO.heteroCD46 (152 min, range 5-240; 6/23 surviving at 4 h), survival was significantly improved for GTKO.homoCD46 (>240 min, range 45-240, p = .034; 7/10 surviving at 4 h) or GTKO.homoCD46.hCD55 lungs (>240 min, p = .001; 6/6 surviving at 4 h). Homozygosity was associated with increased capillary expression of hCD46 (p < .0001). Increased hCD46 expression was associated with significantly prolonged lung survival (p = .048),) but surprisingly not with reduction in measured complement factor C3a. Hematocrit, monocyte count, and pulmonary vascular resistance were not significantly altered in association with increased hCD46 gene dose or protein expression.

Conclusion: Genetic engineering approaches designed to augment hCPRP activity - increasing the expression of hCD46 through homozygosity or co-expressing hCD55 with hCD46 - were associated with prolonged GTKO lung xenograft survival. Increased expression of hCD46 was associated with reduced coagulation cascade activation, but did not further reduce complement activation relative to lungs with relatively low CD46 expression. We conclude that coagulation pathway dysregulation contributes to injury in GTKO pig lung xenografts perfused with human blood, and that the survival advantage for lungs with increased hCPRP expression is likely attributable to improved endothelial thromboregulation.

Keywords: CD46; CD55; GTKO; ex-vivo perfusion; homozygosity; human blood; lung; xenotransplantation.

MeSH terms

Animals
Animals, Genetically Modified
Heterografts
Humans
Lung*
Perfusion
Swine
Transplantation, Heterologous