Defining an NK Cell-enriched Rejection-like Phenotype in Liver Transplant Biopsies from the INTERLIVER Study

Katelynn S. Madill-Thomsen; Patrick T. Gauthier; Marwan Abouljoud; Chandra Bhati; David Bruno; Michał Ciszek; Magdalena Durlik; Sandy Feng; Bartosz Foroncewicz; Michał Grąt; Krzysztof Jurczyk; Josh Levitsky; Geoff McCaughan; Daniel Maluf; Aldo Montano-Loza; Dilip Moonka; Krzysztof Mucha; Marek Myślak; Agnieszka Perkowska-Ptasińska; Grzegorz Piecha; Trevor Reichman; Olga Tronina; Marta Wawrzynowicz-Syczewska; Samir Zeair; Philip F. Halloran

doi:10.1097/TP.0000000000005269

Defining an NK Cell-enriched Rejection-like Phenotype in Liver Transplant Biopsies from the INTERLIVER Study

Katelynn S. Madill-Thomsen, Patrick T. Gauthier, Marwan Abouljoud, Chandra Bhati, David Bruno, Michał Ciszek, Magdalena Durlik, Sandy Feng, Bartosz Foroncewicz, Michał Grąt, Krzysztof Jurczyk, Josh Levitsky, Geoff McCaughan, Daniel Maluf, Aldo Montano-Loza, Dilip Moonka, Krzysztof Mucha, Marek Myślak, Agnieszka Perkowska-Ptasińska, Grzegorz PiechaTrevor Reichman, Olga Tronina, Marta Wawrzynowicz-Syczewska, Samir Zeair, Philip F. Halloran^*

^*Corresponding author for this work

Medicine, Hepatology Division

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

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Abstract

Background. Initial analysis of liver transplant biopsies in the INTERLIVER study (ClinicalTrials.gov; unique identifier NCT03193151) using rejection-associated transcripts failed to find an antibody-mediated rejection state (ie, rich in natural killer [NK] cells and with interferon-gamma effects). We recently developed an optimization strategy in lung transplants that isolated an NK cell-enriched rejection-like (NKRL) state that was molecularly distinct from T cell-mediated rejection (TCMR). Here we apply the same strategy to a liver transplant biopsy population. Methods. We used this strategy to search for a molecular NKRL state in 765 consented liver transplant biopsies collected at participating international centers for gold-standard histology and molecular assessment by genome-wide microarrays. Validation through a training set-test set approach of an optimized selection of variables as inputs into unsupervised rejection classification identified an NKRL state in livers. Results. The full model classified 765 biopsies into the following molecular phenotypes, characterized by their gene expression: no-rejection 54%, TCMR 16%, NKRL 13%, and injury 16%. Top TCMR transcripts were expressed in effector T cells; top NKRL transcripts were almost exclusively expressed in NK cells; and both had increased interferon-γ-inducible transcripts, which were more pronounced in TCMR. Most TCMR biopsies had significant parenchymal injury, molecular fibrosis, and abnormal biochemistry. NKRL biopsies had no excess of injury, fibrosis, or biochemistry abnormalities. Conclusions. Optimized rejection algorithms indicate that some liver transplants manifest an NKRL state that is well tolerated in the short term postbiopsy and with minimal injury and relatively normal biochemistry, while also underscoring the potential of TCMR to produce extensive parenchymal injury.

Original language	English (US)
Journal	Transplantation
DOIs	https://doi.org/10.1097/TP.0000000000005269
State	Accepted/In press - 2025

Funding

This research has been principally supported by grants from Genome Canada, Canada Foundation for Innovation, the University of Alberta Hospital Foundation, the Alberta Ministry of Advanced Education and Technology, the Mendez National Institute of Transplantation Foundation, and the Industrial Research Assistance Program. Partial support was also provided by funding from a licensing agreement with the One Lambda division of Thermo Fisher Scientific. P.F.H. held a Canada Research Chair in Transplant Immunology until 2008 and currently holds the Muttart Chair in Clinical Immunology. P.F.H. holds shares in Transcriptome Sciences Inc, a University of Alberta research company dedicated to developing molecular diagnostics, supported in part by a licensing agreement between TSI and Thermo Fisher Scientific and by a research grant from Natera Inc. P.F.H. is a consultant to Natera Inc and Argenx BV. The other authors declare no conflicts of interest.

ASJC Scopus subject areas

Transplantation

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Madill-Thomsen, K. S., Gauthier, P. T., Abouljoud, M., Bhati, C., Bruno, D., Ciszek, M., Durlik, M., Feng, S., Foroncewicz, B., Grąt, M., Jurczyk, K., Levitsky, J., McCaughan, G., Maluf, D., Montano-Loza, A., Moonka, D., Mucha, K., Myślak, M., Perkowska-Ptasińska, A., ... Halloran, P. F. (Accepted/In press). Defining an NK Cell-enriched Rejection-like Phenotype in Liver Transplant Biopsies from the INTERLIVER Study. Transplantation. https://doi.org/10.1097/TP.0000000000005269

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title = "Defining an NK Cell-enriched Rejection-like Phenotype in Liver Transplant Biopsies from the INTERLIVER Study",

abstract = "Background. Initial analysis of liver transplant biopsies in the INTERLIVER study (ClinicalTrials.gov; unique identifier NCT03193151) using rejection-associated transcripts failed to find an antibody-mediated rejection state (ie, rich in natural killer [NK] cells and with interferon-gamma effects). We recently developed an optimization strategy in lung transplants that isolated an NK cell-enriched rejection-like (NKRL) state that was molecularly distinct from T cell-mediated rejection (TCMR). Here we apply the same strategy to a liver transplant biopsy population. Methods. We used this strategy to search for a molecular NKRL state in 765 consented liver transplant biopsies collected at participating international centers for gold-standard histology and molecular assessment by genome-wide microarrays. Validation through a training set-test set approach of an optimized selection of variables as inputs into unsupervised rejection classification identified an NKRL state in livers. Results. The full model classified 765 biopsies into the following molecular phenotypes, characterized by their gene expression: no-rejection 54%, TCMR 16%, NKRL 13%, and injury 16%. Top TCMR transcripts were expressed in effector T cells; top NKRL transcripts were almost exclusively expressed in NK cells; and both had increased interferon-γ-inducible transcripts, which were more pronounced in TCMR. Most TCMR biopsies had significant parenchymal injury, molecular fibrosis, and abnormal biochemistry. NKRL biopsies had no excess of injury, fibrosis, or biochemistry abnormalities. Conclusions. Optimized rejection algorithms indicate that some liver transplants manifest an NKRL state that is well tolerated in the short term postbiopsy and with minimal injury and relatively normal biochemistry, while also underscoring the potential of TCMR to produce extensive parenchymal injury.",

author = "Madill-Thomsen, {Katelynn S.} and Gauthier, {Patrick T.} and Marwan Abouljoud and Chandra Bhati and David Bruno and Micha{\l} Ciszek and Magdalena Durlik and Sandy Feng and Bartosz Foroncewicz and Micha{\l} Gr{\c a}t and Krzysztof Jurczyk and Josh Levitsky and Geoff McCaughan and Daniel Maluf and Aldo Montano-Loza and Dilip Moonka and Krzysztof Mucha and Marek My{\'s}lak and Agnieszka Perkowska-Ptasi{\'n}ska and Grzegorz Piecha and Trevor Reichman and Olga Tronina and Marta Wawrzynowicz-Syczewska and Samir Zeair and Halloran, {Philip F.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by Wolters Kluwer Health, Inc.",

year = "2025",

doi = "10.1097/TP.0000000000005269",

language = "English (US)",

journal = "Transplantation",

issn = "0041-1337",

publisher = "Lippincott Williams and Wilkins",

}

Madill-Thomsen, KS, Gauthier, PT, Abouljoud, M, Bhati, C, Bruno, D, Ciszek, M, Durlik, M, Feng, S, Foroncewicz, B, Grąt, M, Jurczyk, K, Levitsky, J, McCaughan, G, Maluf, D, Montano-Loza, A, Moonka, D, Mucha, K, Myślak, M, Perkowska-Ptasińska, A, Piecha, G, Reichman, T, Tronina, O, Wawrzynowicz-Syczewska, M, Zeair, S & Halloran, PF 2025, 'Defining an NK Cell-enriched Rejection-like Phenotype in Liver Transplant Biopsies from the INTERLIVER Study', Transplantation. https://doi.org/10.1097/TP.0000000000005269

TY - JOUR

T1 - Defining an NK Cell-enriched Rejection-like Phenotype in Liver Transplant Biopsies from the INTERLIVER Study

AU - Madill-Thomsen, Katelynn S.

AU - Gauthier, Patrick T.

AU - Abouljoud, Marwan

AU - Bhati, Chandra

AU - Bruno, David

AU - Ciszek, Michał

AU - Durlik, Magdalena

AU - Feng, Sandy

AU - Foroncewicz, Bartosz

AU - Grąt, Michał

AU - Jurczyk, Krzysztof

AU - Levitsky, Josh

AU - McCaughan, Geoff

AU - Maluf, Daniel

AU - Montano-Loza, Aldo

AU - Moonka, Dilip

AU - Mucha, Krzysztof

AU - Myślak, Marek

AU - Perkowska-Ptasińska, Agnieszka

AU - Piecha, Grzegorz

AU - Reichman, Trevor

AU - Tronina, Olga

AU - Wawrzynowicz-Syczewska, Marta

AU - Zeair, Samir

AU - Halloran, Philip F.

PY - 2025

Y1 - 2025

N2 - Background. Initial analysis of liver transplant biopsies in the INTERLIVER study (ClinicalTrials.gov; unique identifier NCT03193151) using rejection-associated transcripts failed to find an antibody-mediated rejection state (ie, rich in natural killer [NK] cells and with interferon-gamma effects). We recently developed an optimization strategy in lung transplants that isolated an NK cell-enriched rejection-like (NKRL) state that was molecularly distinct from T cell-mediated rejection (TCMR). Here we apply the same strategy to a liver transplant biopsy population. Methods. We used this strategy to search for a molecular NKRL state in 765 consented liver transplant biopsies collected at participating international centers for gold-standard histology and molecular assessment by genome-wide microarrays. Validation through a training set-test set approach of an optimized selection of variables as inputs into unsupervised rejection classification identified an NKRL state in livers. Results. The full model classified 765 biopsies into the following molecular phenotypes, characterized by their gene expression: no-rejection 54%, TCMR 16%, NKRL 13%, and injury 16%. Top TCMR transcripts were expressed in effector T cells; top NKRL transcripts were almost exclusively expressed in NK cells; and both had increased interferon-γ-inducible transcripts, which were more pronounced in TCMR. Most TCMR biopsies had significant parenchymal injury, molecular fibrosis, and abnormal biochemistry. NKRL biopsies had no excess of injury, fibrosis, or biochemistry abnormalities. Conclusions. Optimized rejection algorithms indicate that some liver transplants manifest an NKRL state that is well tolerated in the short term postbiopsy and with minimal injury and relatively normal biochemistry, while also underscoring the potential of TCMR to produce extensive parenchymal injury.

AB - Background. Initial analysis of liver transplant biopsies in the INTERLIVER study (ClinicalTrials.gov; unique identifier NCT03193151) using rejection-associated transcripts failed to find an antibody-mediated rejection state (ie, rich in natural killer [NK] cells and with interferon-gamma effects). We recently developed an optimization strategy in lung transplants that isolated an NK cell-enriched rejection-like (NKRL) state that was molecularly distinct from T cell-mediated rejection (TCMR). Here we apply the same strategy to a liver transplant biopsy population. Methods. We used this strategy to search for a molecular NKRL state in 765 consented liver transplant biopsies collected at participating international centers for gold-standard histology and molecular assessment by genome-wide microarrays. Validation through a training set-test set approach of an optimized selection of variables as inputs into unsupervised rejection classification identified an NKRL state in livers. Results. The full model classified 765 biopsies into the following molecular phenotypes, characterized by their gene expression: no-rejection 54%, TCMR 16%, NKRL 13%, and injury 16%. Top TCMR transcripts were expressed in effector T cells; top NKRL transcripts were almost exclusively expressed in NK cells; and both had increased interferon-γ-inducible transcripts, which were more pronounced in TCMR. Most TCMR biopsies had significant parenchymal injury, molecular fibrosis, and abnormal biochemistry. NKRL biopsies had no excess of injury, fibrosis, or biochemistry abnormalities. Conclusions. Optimized rejection algorithms indicate that some liver transplants manifest an NKRL state that is well tolerated in the short term postbiopsy and with minimal injury and relatively normal biochemistry, while also underscoring the potential of TCMR to produce extensive parenchymal injury.

UR - http://www.scopus.com/inward/record.url?scp=85215602809&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85215602809&partnerID=8YFLogxK

U2 - 10.1097/TP.0000000000005269

DO - 10.1097/TP.0000000000005269

M3 - Article

C2 - 39780312

AN - SCOPUS:85215602809

SN - 0041-1337

JO - Transplantation

JF - Transplantation

ER -

Defining an NK Cell-enriched Rejection-like Phenotype in Liver Transplant Biopsies from the INTERLIVER Study

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