Human ITGAV variants are associated with immune dysregulation, brain abnormalities, and colitis

Sina Ghasempour; Neil Warner; Rei Guan; Marco M. Rodari; Danton Ivanochko; Ryder Whittaker Hawkins; Ashish Marwaha; Jan K. Nowak; Yijing Liang; Daniel J. Mulder; Lorraine Stallard; Michael Li; Daniel D. Yu; Fred G. Pluthero; Vritika Batura; Mo Zhao; Iram Siddiqui; Julia E.M. Upton; Jessie M. Hulst; Walter H.A. Kahr; Roberto Mendoza-Londono; Fabienne Charbit-Henrion; Lies H. Hoefsloot; Anis Khiat; Diana Moreira; Eunice Trindade; Maria do Céu Espinheira; Isabel Pinto Pais; Marjolein J.A. Weerts; Hannie Douben; Daniel Kotlarz; Scott B. Snapper; Christoph Klein; James J. Dowling; Jean Philippe Julien; Marieke Joosten; Nadine Cerf-Bensussan; Spencer A. Freeman; Marianna Parlato; Tjakko J. van Ham; Aleixo M. Muise

doi:10.1084/jem.20240546

Human ITGAV variants are associated with immune dysregulation, brain abnormalities, and colitis

Sina Ghasempour, Neil Warner, Rei Guan, Marco M. Rodari, Danton Ivanochko, Ryder Whittaker Hawkins, Ashish Marwaha, Jan K. Nowak, Yijing Liang, Daniel J. Mulder, Lorraine Stallard, Michael Li, Daniel D. Yu, Fred G. Pluthero, Vritika Batura, Mo Zhao, Iram Siddiqui, Julia E.M. Upton, Jessie M. Hulst, Walter H.A. KahrRoberto Mendoza-Londono, Fabienne Charbit-Henrion, Lies H. Hoefsloot, Anis Khiat, Diana Moreira, Eunice Trindade, Maria do Céu Espinheira, Isabel Pinto Pais, Marjolein J.A. Weerts, Hannie Douben, Daniel Kotlarz, Scott B. Snapper, Christoph Klein, James J. Dowling, Jean Philippe Julien, Marieke Joosten, Nadine Cerf-Bensussan, Spencer A. Freeman^*, Marianna Parlato^*, Tjakko J. van Ham^*, Aleixo M. Muise^*

^*Corresponding author for this work

Clinical Genetics

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Abstract

Integrin heterodimers containing an Integrin alpha V subunit are essential for development and play critical roles in cell adhesion and signaling. We identified biallelic variants in the gene coding for Integrin alpha V (ITGAV) in three independent families (two patients and four fetuses) that either caused abnormal mRNA and the loss of functional protein or caused mistargeting of the integrin. This led to eye and brain abnormalities, inflammatory bowel disease, immune dysregulation, and other developmental issues. Mechanistically, the reduction of functional Integrin αV resulted in the dysregulation of several pathways including TGF-β-dependent signaling and αVβ3-regulated immune signaling. These effects were confirmed using immunostaining, RNA sequencing, and functional studies in patient-derived cells. The genetic deletion of itgav in zebrafish recapitulated patient phenotypes including retinal and brain defects and the loss of microglia in early development as well as colitis in juvenile zebrafish with reduced SMAD3 expression and transcriptional regulation. Taken together, the ITGAV variants identified in this report caused a previously unknown human disease characterized by brain and developmental defects in the case of complete loss-of-function and atopy, neurodevelopmental defects, and colitis in cases of incomplete loss-of-function.

Original language	English
Article number	e20240546
Number of pages	19
Journal	The Journal of experimental medicine
Volume	221
Issue number	12
DOIs	https://doi.org/10.1084/jem.20240546
Publication status	Published - 11 Nov 2024

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Publisher Copyright:
© 2024 Ghasempour et al.

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Human ITGAV variants are associated with immune dysregulation, brain abnormalities, and colitisFinal published version, 5.34 MBLicence: CC BY

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Ghasempour, S., Warner, N., Guan, R., Rodari, M. M., Ivanochko, D., Whittaker Hawkins, R., Marwaha, A., Nowak, J. K., Liang, Y., Mulder, D. J., Stallard, L., Li, M., Yu, D. D., Pluthero, F. G., Batura, V., Zhao, M., Siddiqui, I., Upton, J. E. M., Hulst, J. M., ... Muise, A. M. (2024). Human ITGAV variants are associated with immune dysregulation, brain abnormalities, and colitis. The Journal of experimental medicine, 221(12), Article e20240546. https://doi.org/10.1084/jem.20240546

@article{39c2b72bcbb84a238a60a706d055de69,

title = "Human ITGAV variants are associated with immune dysregulation, brain abnormalities, and colitis",

abstract = "Integrin heterodimers containing an Integrin alpha V subunit are essential for development and play critical roles in cell adhesion and signaling. We identified biallelic variants in the gene coding for Integrin alpha V (ITGAV) in three independent families (two patients and four fetuses) that either caused abnormal mRNA and the loss of functional protein or caused mistargeting of the integrin. This led to eye and brain abnormalities, inflammatory bowel disease, immune dysregulation, and other developmental issues. Mechanistically, the reduction of functional Integrin αV resulted in the dysregulation of several pathways including TGF-β-dependent signaling and αVβ3-regulated immune signaling. These effects were confirmed using immunostaining, RNA sequencing, and functional studies in patient-derived cells. The genetic deletion of itgav in zebrafish recapitulated patient phenotypes including retinal and brain defects and the loss of microglia in early development as well as colitis in juvenile zebrafish with reduced SMAD3 expression and transcriptional regulation. Taken together, the ITGAV variants identified in this report caused a previously unknown human disease characterized by brain and developmental defects in the case of complete loss-of-function and atopy, neurodevelopmental defects, and colitis in cases of incomplete loss-of-function.",

author = "Sina Ghasempour and Neil Warner and Rei Guan and Rodari, {Marco M.} and Danton Ivanochko and {Whittaker Hawkins}, Ryder and Ashish Marwaha and Nowak, {Jan K.} and Yijing Liang and Mulder, {Daniel J.} and Lorraine Stallard and Michael Li and Yu, {Daniel D.} and Pluthero, {Fred G.} and Vritika Batura and Mo Zhao and Iram Siddiqui and Upton, {Julia E.M.} and Hulst, {Jessie M.} and Kahr, {Walter H.A.} and Roberto Mendoza-Londono and Fabienne Charbit-Henrion and Hoefsloot, {Lies H.} and Anis Khiat and Diana Moreira and Eunice Trindade and Espinheira, {Maria do C{\'e}u} and {Pinto Pais}, Isabel and Weerts, {Marjolein J.A.} and Hannie Douben and Daniel Kotlarz and Snapper, {Scott B.} and Christoph Klein and Dowling, {James J.} and Julien, {Jean Philippe} and Marieke Joosten and Nadine Cerf-Bensussan and Freeman, {Spencer A.} and Marianna Parlato and {van Ham}, {Tjakko J.} and Muise, {Aleixo M.}",

note = "Publisher Copyright: {\textcopyright} 2024 Ghasempour et al.",

year = "2024",

month = nov,

day = "11",

doi = "10.1084/jem.20240546",

language = "English",

volume = "221",

journal = "The Journal of experimental medicine",

issn = "0022-1007",

publisher = "Rockefeller University Press",

number = "12",

}

Ghasempour, S, Warner, N, Guan, R, Rodari, MM, Ivanochko, D, Whittaker Hawkins, R, Marwaha, A, Nowak, JK, Liang, Y, Mulder, DJ, Stallard, L, Li, M, Yu, DD, Pluthero, FG, Batura, V, Zhao, M, Siddiqui, I, Upton, JEM, Hulst, JM, Kahr, WHA, Mendoza-Londono, R, Charbit-Henrion, F, Hoefsloot, LH, Khiat, A, Moreira, D, Trindade, E, Espinheira, MDC, Pinto Pais, I, Weerts, MJA, Douben, H, Kotlarz, D, Snapper, SB, Klein, C, Dowling, JJ, Julien, JP, Joosten, M, Cerf-Bensussan, N, Freeman, SA, Parlato, M, van Ham, TJ & Muise, AM 2024, 'Human ITGAV variants are associated with immune dysregulation, brain abnormalities, and colitis', The Journal of experimental medicine, vol. 221, no. 12, e20240546. https://doi.org/10.1084/jem.20240546

TY - JOUR

T1 - Human ITGAV variants are associated with immune dysregulation, brain abnormalities, and colitis

AU - Ghasempour, Sina

AU - Warner, Neil

AU - Guan, Rei

AU - Rodari, Marco M.

AU - Ivanochko, Danton

AU - Whittaker Hawkins, Ryder

AU - Marwaha, Ashish

AU - Nowak, Jan K.

AU - Liang, Yijing

AU - Mulder, Daniel J.

AU - Stallard, Lorraine

AU - Li, Michael

AU - Yu, Daniel D.

AU - Pluthero, Fred G.

AU - Batura, Vritika

AU - Zhao, Mo

AU - Siddiqui, Iram

AU - Upton, Julia E.M.

AU - Hulst, Jessie M.

AU - Kahr, Walter H.A.

AU - Mendoza-Londono, Roberto

AU - Charbit-Henrion, Fabienne

AU - Hoefsloot, Lies H.

AU - Khiat, Anis

AU - Moreira, Diana

AU - Trindade, Eunice

AU - Espinheira, Maria do Céu

AU - Pinto Pais, Isabel

AU - Weerts, Marjolein J.A.

AU - Douben, Hannie

AU - Kotlarz, Daniel

AU - Snapper, Scott B.

AU - Klein, Christoph

AU - Dowling, James J.

AU - Julien, Jean Philippe

AU - Joosten, Marieke

AU - Cerf-Bensussan, Nadine

AU - Freeman, Spencer A.

AU - Parlato, Marianna

AU - van Ham, Tjakko J.

AU - Muise, Aleixo M.

PY - 2024/11/11

Y1 - 2024/11/11

N2 - Integrin heterodimers containing an Integrin alpha V subunit are essential for development and play critical roles in cell adhesion and signaling. We identified biallelic variants in the gene coding for Integrin alpha V (ITGAV) in three independent families (two patients and four fetuses) that either caused abnormal mRNA and the loss of functional protein or caused mistargeting of the integrin. This led to eye and brain abnormalities, inflammatory bowel disease, immune dysregulation, and other developmental issues. Mechanistically, the reduction of functional Integrin αV resulted in the dysregulation of several pathways including TGF-β-dependent signaling and αVβ3-regulated immune signaling. These effects were confirmed using immunostaining, RNA sequencing, and functional studies in patient-derived cells. The genetic deletion of itgav in zebrafish recapitulated patient phenotypes including retinal and brain defects and the loss of microglia in early development as well as colitis in juvenile zebrafish with reduced SMAD3 expression and transcriptional regulation. Taken together, the ITGAV variants identified in this report caused a previously unknown human disease characterized by brain and developmental defects in the case of complete loss-of-function and atopy, neurodevelopmental defects, and colitis in cases of incomplete loss-of-function.

AB - Integrin heterodimers containing an Integrin alpha V subunit are essential for development and play critical roles in cell adhesion and signaling. We identified biallelic variants in the gene coding for Integrin alpha V (ITGAV) in three independent families (two patients and four fetuses) that either caused abnormal mRNA and the loss of functional protein or caused mistargeting of the integrin. This led to eye and brain abnormalities, inflammatory bowel disease, immune dysregulation, and other developmental issues. Mechanistically, the reduction of functional Integrin αV resulted in the dysregulation of several pathways including TGF-β-dependent signaling and αVβ3-regulated immune signaling. These effects were confirmed using immunostaining, RNA sequencing, and functional studies in patient-derived cells. The genetic deletion of itgav in zebrafish recapitulated patient phenotypes including retinal and brain defects and the loss of microglia in early development as well as colitis in juvenile zebrafish with reduced SMAD3 expression and transcriptional regulation. Taken together, the ITGAV variants identified in this report caused a previously unknown human disease characterized by brain and developmental defects in the case of complete loss-of-function and atopy, neurodevelopmental defects, and colitis in cases of incomplete loss-of-function.

UR - http://www.scopus.com/inward/record.url?scp=85209477154&partnerID=8YFLogxK

U2 - 10.1084/jem.20240546

DO - 10.1084/jem.20240546

M3 - Article

C2 - 39526957

AN - SCOPUS:85209477154

SN - 0022-1007

VL - 221

JO - The Journal of experimental medicine

JF - The Journal of experimental medicine

IS - 12

M1 - e20240546

ER -

Human ITGAV variants are associated with immune dysregulation, brain abnormalities, and colitis

Abstract

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