Impaired lymphocyte development and antibody class switching and increased malignancy in a murine model of DNA ligase IV syndrome

Anastasia Nijnik; Sara Dawson; Tanya L. Crockford; Lisa Woodbine; Supawan Visetnoi; Sophia Bennett; Margaret Jones; Gareth D. Turner; Penelope A. Jeggo; Christopher C. Goodnow; Richard J. Cornall

doi:10.1172/JCI32743

Impaired lymphocyte development and antibody class switching and increased malignancy in a murine model of DNA ligase IV syndrome

Anastasia Nijnik, Sara Dawson, Tanya L. Crockford, Lisa Woodbine, Supawan Visetnoi, Sophia Bennett, Margaret Jones, Gareth D. Turner, Penelope A. Jeggo, Christopher C. Goodnow, Richard J. Cornall

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26 Citations (Scopus)

Abstract

Hypomorphic mutations in DNA ligase IV (LIG4) cause a human syndrome of immunodeficiency, radiosensitivity, and growth retardation due to defective DNA repair by the nonhomologous end-joining (NHEJ) pathway. Lig4-null mice are embryonic lethal, and better mouse models are needed to study human LigIV syndrome. We recently identified a viable mouse strain with a Y288C hypomorphic mutation in the Lig4 gene. Lig4^Y288C mice exhibit a greater than 10-fold reduction of LigIV activity in vivo and recapitulate the immunodeficiency and growth retardation seen in human patients. Here, we have demonstrated that the Lig4^Y288C mutation leads to multiple defects in lymphocyte development and function, including impaired V(D)J recombination, peripheral lymphocyte survival and proliferation, and B cell class switch recombination. We also highlight a high incidence of thymic tumors in the Lig4^Y288C mice, suggesting that wild-type LigIV protects against malignant transformation. These findings provide explanations for the complex lymphoid phenotype of human LigIV syndrome.

Original language	English
Pages (from-to)	1696-1705
Number of pages	10
Journal	Journal of Clinical Investigation
Volume	119
Issue number	6
DOIs	https://doi.org/10.1172/JCI32743
Publication status	Published - 1 Jun 2009

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Nijnik, A., Dawson, S., Crockford, T. L., Woodbine, L., Visetnoi, S., Bennett, S., Jones, M., Turner, G. D., Jeggo, P. A., Goodnow, C. C., & Cornall, R. J. (2009). Impaired lymphocyte development and antibody class switching and increased malignancy in a murine model of DNA ligase IV syndrome. Journal of Clinical Investigation, 119(6), 1696-1705. https://doi.org/10.1172/JCI32743

@article{cedc9369eba648bf83876ca6e52f84f7,

title = "Impaired lymphocyte development and antibody class switching and increased malignancy in a murine model of DNA ligase IV syndrome",

abstract = "Hypomorphic mutations in DNA ligase IV (LIG4) cause a human syndrome of immunodeficiency, radiosensitivity, and growth retardation due to defective DNA repair by the nonhomologous end-joining (NHEJ) pathway. Lig4-null mice are embryonic lethal, and better mouse models are needed to study human LigIV syndrome. We recently identified a viable mouse strain with a Y288C hypomorphic mutation in the Lig4 gene. Lig4Y288C mice exhibit a greater than 10-fold reduction of LigIV activity in vivo and recapitulate the immunodeficiency and growth retardation seen in human patients. Here, we have demonstrated that the Lig4Y288C mutation leads to multiple defects in lymphocyte development and function, including impaired V(D)J recombination, peripheral lymphocyte survival and proliferation, and B cell class switch recombination. We also highlight a high incidence of thymic tumors in the Lig4Y288C mice, suggesting that wild-type LigIV protects against malignant transformation. These findings provide explanations for the complex lymphoid phenotype of human LigIV syndrome.",

author = "Anastasia Nijnik and Sara Dawson and Crockford, {Tanya L.} and Lisa Woodbine and Supawan Visetnoi and Sophia Bennett and Margaret Jones and Turner, {Gareth D.} and Jeggo, {Penelope A.} and Goodnow, {Christopher C.} and Cornall, {Richard J.}",

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Nijnik, A, Dawson, S, Crockford, TL, Woodbine, L, Visetnoi, S, Bennett, S, Jones, M, Turner, GD, Jeggo, PA, Goodnow, CC & Cornall, RJ 2009, 'Impaired lymphocyte development and antibody class switching and increased malignancy in a murine model of DNA ligase IV syndrome', Journal of Clinical Investigation, vol. 119, no. 6, pp. 1696-1705. https://doi.org/10.1172/JCI32743

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T1 - Impaired lymphocyte development and antibody class switching and increased malignancy in a murine model of DNA ligase IV syndrome

AU - Nijnik, Anastasia

AU - Dawson, Sara

AU - Crockford, Tanya L.

AU - Woodbine, Lisa

AU - Visetnoi, Supawan

AU - Bennett, Sophia

AU - Jones, Margaret

AU - Turner, Gareth D.

AU - Jeggo, Penelope A.

AU - Goodnow, Christopher C.

AU - Cornall, Richard J.

PY - 2009/6/1

Y1 - 2009/6/1

N2 - Hypomorphic mutations in DNA ligase IV (LIG4) cause a human syndrome of immunodeficiency, radiosensitivity, and growth retardation due to defective DNA repair by the nonhomologous end-joining (NHEJ) pathway. Lig4-null mice are embryonic lethal, and better mouse models are needed to study human LigIV syndrome. We recently identified a viable mouse strain with a Y288C hypomorphic mutation in the Lig4 gene. Lig4Y288C mice exhibit a greater than 10-fold reduction of LigIV activity in vivo and recapitulate the immunodeficiency and growth retardation seen in human patients. Here, we have demonstrated that the Lig4Y288C mutation leads to multiple defects in lymphocyte development and function, including impaired V(D)J recombination, peripheral lymphocyte survival and proliferation, and B cell class switch recombination. We also highlight a high incidence of thymic tumors in the Lig4Y288C mice, suggesting that wild-type LigIV protects against malignant transformation. These findings provide explanations for the complex lymphoid phenotype of human LigIV syndrome.

AB - Hypomorphic mutations in DNA ligase IV (LIG4) cause a human syndrome of immunodeficiency, radiosensitivity, and growth retardation due to defective DNA repair by the nonhomologous end-joining (NHEJ) pathway. Lig4-null mice are embryonic lethal, and better mouse models are needed to study human LigIV syndrome. We recently identified a viable mouse strain with a Y288C hypomorphic mutation in the Lig4 gene. Lig4Y288C mice exhibit a greater than 10-fold reduction of LigIV activity in vivo and recapitulate the immunodeficiency and growth retardation seen in human patients. Here, we have demonstrated that the Lig4Y288C mutation leads to multiple defects in lymphocyte development and function, including impaired V(D)J recombination, peripheral lymphocyte survival and proliferation, and B cell class switch recombination. We also highlight a high incidence of thymic tumors in the Lig4Y288C mice, suggesting that wild-type LigIV protects against malignant transformation. These findings provide explanations for the complex lymphoid phenotype of human LigIV syndrome.

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U2 - 10.1172/JCI32743

DO - 10.1172/JCI32743

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SN - 0021-9738

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JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 6

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Impaired lymphocyte development and antibody class switching and increased malignancy in a murine model of DNA ligase IV syndrome

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