Intergenic risk variant rs56258221 skews the fate of naive CD4+ T cells via miR4464-BACH2 interplay in primary sclerosing cholangitis

Tobias Poch; Jonas Bahn; Christian Casar; Jenny Krause; Ioannis Evangelakos; Hilla Gilladi; Lilly K. Kunzmann; Alena Laschtowitz; Nicola Iuso; Anne Marie Schäfer; Laura A. Liebig; Silja Steinmann; Marcial Sebode; Trine Folseraas; Lise K. Engesæter; Tom H. Karlsen; Andre Franke; Norbert Hubner; Christian Schlein; Eithan Galun; Samuel Huber; Ansgar W. Lohse; Nicola Gagliani; Dorothee Schwinge; Christoph Schramm

doi:10.1016/j.xcrm.2024.101620

Intergenic risk variant rs56258221 skews the fate of naive CD4⁺ T cells via miR4464-BACH2 interplay in primary sclerosing cholangitis

Tobias Poch, Jonas Bahn, Christian Casar, Jenny Krause, Ioannis Evangelakos, Hilla Gilladi, Lilly K. Kunzmann, Alena Laschtowitz, Nicola Iuso, Anne Marie Schäfer, Laura A. Liebig, Silja Steinmann, Marcial Sebode, Trine Folseraas, Lise K. Engesæter, Tom H. Karlsen, Andre Franke, Norbert Hubner, Christian Schlein, Eithan GalunSamuel Huber, Ansgar W. Lohse, Nicola Gagliani, Dorothee Schwinge, Christoph Schramm^*

^*Corresponding author for this work

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

1 Scopus citations

Abstract

Primary sclerosing cholangitis (PSC) is an immune-mediated liver disease of unknown pathogenesis, with a high risk to develop cirrhosis and malignancies. Functional dysregulation of T cells and association with genetic polymorphisms in T cell-related genes were previously reported for PSC. Here, we genotyped a representative PSC cohort for several disease-associated risk loci and identified rs56258221 (BACH2/MIR4464) to correlate with not only the peripheral blood T cell immunophenotype but also the functional capacities of naive CD4⁺ T (CD4⁺ T_N) cells in people with PSC. Mechanistically, rs56258221 leads to an increased expression of miR4464, in turn causing attenuated translation of BACH2, a major gatekeeper of T cell quiescence. Thereby, the fate of CD4⁺ T_N is skewed toward polarization into pro-inflammatory subsets. Clinically, people with PSC carrying rs56258221 show signs of accelerated disease progression. The data presented here highlight the importance of assigning functional outcomes to disease-associated genetic polymorphisms as potential drivers of diseases.

Original language	English
Article number	101620
Journal	Cell Reports Medicine
Volume	5
Issue number	7
DOIs	https://doi.org/10.1016/j.xcrm.2024.101620
State	Published - 16 Jul 2024
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2024 The Authors

Keywords

BACH2
CD4 T cells
TH17 cells
genetic polymorphism
immune-mediated liver disease
miR4464
naive T cells
primary sclerosing cholangitis
regulatory T cells

Access to Document

10.1016/j.xcrm.2024.101620

Cite this

Poch, T., Bahn, J., Casar, C., Krause, J., Evangelakos, I., Gilladi, H., Kunzmann, L. K., Laschtowitz, A., Iuso, N., Schäfer, A. M., Liebig, L. A., Steinmann, S., Sebode, M., Folseraas, T., Engesæter, L. K., Karlsen, T. H., Franke, A., Hubner, N., Schlein, C., ... Schramm, C. (2024). Intergenic risk variant rs56258221 skews the fate of naive CD4⁺ T cells via miR4464-BACH2 interplay in primary sclerosing cholangitis. Cell Reports Medicine, 5(7), Article 101620. https://doi.org/10.1016/j.xcrm.2024.101620

@article{28cc8e330f8d4264bb8373d74ce34356,

title = "Intergenic risk variant rs56258221 skews the fate of naive CD4+ T cells via miR4464-BACH2 interplay in primary sclerosing cholangitis",

abstract = "Primary sclerosing cholangitis (PSC) is an immune-mediated liver disease of unknown pathogenesis, with a high risk to develop cirrhosis and malignancies. Functional dysregulation of T cells and association with genetic polymorphisms in T cell-related genes were previously reported for PSC. Here, we genotyped a representative PSC cohort for several disease-associated risk loci and identified rs56258221 (BACH2/MIR4464) to correlate with not only the peripheral blood T cell immunophenotype but also the functional capacities of naive CD4+ T (CD4+ TN) cells in people with PSC. Mechanistically, rs56258221 leads to an increased expression of miR4464, in turn causing attenuated translation of BACH2, a major gatekeeper of T cell quiescence. Thereby, the fate of CD4+ TN is skewed toward polarization into pro-inflammatory subsets. Clinically, people with PSC carrying rs56258221 show signs of accelerated disease progression. The data presented here highlight the importance of assigning functional outcomes to disease-associated genetic polymorphisms as potential drivers of diseases.",

keywords = "BACH2, CD4 T cells, TH17 cells, genetic polymorphism, immune-mediated liver disease, miR4464, naive T cells, primary sclerosing cholangitis, regulatory T cells",

author = "Tobias Poch and Jonas Bahn and Christian Casar and Jenny Krause and Ioannis Evangelakos and Hilla Gilladi and Kunzmann, {Lilly K.} and Alena Laschtowitz and Nicola Iuso and Sch{\"a}fer, {Anne Marie} and Liebig, {Laura A.} and Silja Steinmann and Marcial Sebode and Trine Folseraas and Enges{\ae}ter, {Lise K.} and Karlsen, {Tom H.} and Andre Franke and Norbert Hubner and Christian Schlein and Eithan Galun and Samuel Huber and Lohse, {Ansgar W.} and Nicola Gagliani and Dorothee Schwinge and Christoph Schramm",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = jul,

day = "16",

doi = "10.1016/j.xcrm.2024.101620",

language = "אנגלית",

volume = "5",

journal = "Cell Reports Medicine",

issn = "2666-3791",

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Poch, T, Bahn, J, Casar, C, Krause, J, Evangelakos, I, Gilladi, H, Kunzmann, LK, Laschtowitz, A, Iuso, N, Schäfer, AM, Liebig, LA, Steinmann, S, Sebode, M, Folseraas, T, Engesæter, LK, Karlsen, TH, Franke, A, Hubner, N, Schlein, C, Galun, E, Huber, S, Lohse, AW, Gagliani, N, Schwinge, D & Schramm, C 2024, 'Intergenic risk variant rs56258221 skews the fate of naive CD4⁺ T cells via miR4464-BACH2 interplay in primary sclerosing cholangitis', Cell Reports Medicine, vol. 5, no. 7, 101620. https://doi.org/10.1016/j.xcrm.2024.101620

TY - JOUR

T1 - Intergenic risk variant rs56258221 skews the fate of naive CD4+ T cells via miR4464-BACH2 interplay in primary sclerosing cholangitis

AU - Poch, Tobias

AU - Bahn, Jonas

AU - Casar, Christian

AU - Krause, Jenny

AU - Evangelakos, Ioannis

AU - Gilladi, Hilla

AU - Kunzmann, Lilly K.

AU - Laschtowitz, Alena

AU - Iuso, Nicola

AU - Schäfer, Anne Marie

AU - Liebig, Laura A.

AU - Steinmann, Silja

AU - Sebode, Marcial

AU - Folseraas, Trine

AU - Engesæter, Lise K.

AU - Karlsen, Tom H.

AU - Franke, Andre

AU - Hubner, Norbert

AU - Schlein, Christian

AU - Galun, Eithan

AU - Huber, Samuel

AU - Lohse, Ansgar W.

AU - Gagliani, Nicola

AU - Schwinge, Dorothee

AU - Schramm, Christoph

PY - 2024/7/16

Y1 - 2024/7/16

N2 - Primary sclerosing cholangitis (PSC) is an immune-mediated liver disease of unknown pathogenesis, with a high risk to develop cirrhosis and malignancies. Functional dysregulation of T cells and association with genetic polymorphisms in T cell-related genes were previously reported for PSC. Here, we genotyped a representative PSC cohort for several disease-associated risk loci and identified rs56258221 (BACH2/MIR4464) to correlate with not only the peripheral blood T cell immunophenotype but also the functional capacities of naive CD4+ T (CD4+ TN) cells in people with PSC. Mechanistically, rs56258221 leads to an increased expression of miR4464, in turn causing attenuated translation of BACH2, a major gatekeeper of T cell quiescence. Thereby, the fate of CD4+ TN is skewed toward polarization into pro-inflammatory subsets. Clinically, people with PSC carrying rs56258221 show signs of accelerated disease progression. The data presented here highlight the importance of assigning functional outcomes to disease-associated genetic polymorphisms as potential drivers of diseases.

AB - Primary sclerosing cholangitis (PSC) is an immune-mediated liver disease of unknown pathogenesis, with a high risk to develop cirrhosis and malignancies. Functional dysregulation of T cells and association with genetic polymorphisms in T cell-related genes were previously reported for PSC. Here, we genotyped a representative PSC cohort for several disease-associated risk loci and identified rs56258221 (BACH2/MIR4464) to correlate with not only the peripheral blood T cell immunophenotype but also the functional capacities of naive CD4+ T (CD4+ TN) cells in people with PSC. Mechanistically, rs56258221 leads to an increased expression of miR4464, in turn causing attenuated translation of BACH2, a major gatekeeper of T cell quiescence. Thereby, the fate of CD4+ TN is skewed toward polarization into pro-inflammatory subsets. Clinically, people with PSC carrying rs56258221 show signs of accelerated disease progression. The data presented here highlight the importance of assigning functional outcomes to disease-associated genetic polymorphisms as potential drivers of diseases.

KW - BACH2

KW - CD4 T cells

KW - TH17 cells

KW - genetic polymorphism

KW - immune-mediated liver disease

KW - miR4464

KW - naive T cells

KW - primary sclerosing cholangitis

KW - regulatory T cells

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