Altered NK Cell Development and Enhanced NK Cell-Mediated Resistance to Mouse Cytomegalovirus in NKG2D-Deficient Mice

Biljana Zafirova; Sanja Mandarić; Ronald Antulov; Astrid Krmpotić; Helena Jonsson; Wayne M. Yokoyama; Stipan Jonjić; Bojan Polić

doi:10.1016/j.immuni.2009.06.017

Altered NK Cell Development and Enhanced NK Cell-Mediated Resistance to Mouse Cytomegalovirus in NKG2D-Deficient Mice

Biljana Zafirova, Sanja Mandarić, Ronald Antulov, Astrid Krmpotić, Helena Jonsson, Wayne M. Yokoyama, Stipan Jonjić, Bojan Polić

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

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Abstract

NKG2D is a potent activating receptor on natural killer (NK) cells and acts as a molecular sensor for stressed cells expressing NKG2D ligands such as infected or tumor-transformed cells. Although NKG2D is expressed on NK cell precursors, its role in NK cell development is not known. We have generated NKG2D-deficient mice by targeting the Klrk1 locus. Here we provide evidence for an important regulatory role of NKG2D in the development of NK cells. The absence of NKG2D caused faster division of NK cells, perturbation in size of some NK cell subpopulations, and their augmented sensitivity to apoptosis. As expected, Klrk1^-/- NK cells are less responsive to tumor targets expressing NKG2D ligands. Klrk1^-/- mice, however, showed an enhanced NK cell-mediated resistance to mouse cytomegalovirus infection as a consequence of NK cell dysregulation. Altogether, these findings provide evidence for regulatory function of NKG2D in NK cell physiology.

Original language	English
Pages (from-to)	270-282
Number of pages	13
Journal	Immunity
Volume	31
Issue number	2
DOIs	https://doi.org/10.1016/j.immuni.2009.06.017
State	Published - Aug 21 2009

Keywords

CELLIMMUNO
MOLIMMUNO

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10.1016/j.immuni.2009.06.017

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@article{17874ea51cc54af89403911b43ac8140,

title = "Altered NK Cell Development and Enhanced NK Cell-Mediated Resistance to Mouse Cytomegalovirus in NKG2D-Deficient Mice",

abstract = "NKG2D is a potent activating receptor on natural killer (NK) cells and acts as a molecular sensor for stressed cells expressing NKG2D ligands such as infected or tumor-transformed cells. Although NKG2D is expressed on NK cell precursors, its role in NK cell development is not known. We have generated NKG2D-deficient mice by targeting the Klrk1 locus. Here we provide evidence for an important regulatory role of NKG2D in the development of NK cells. The absence of NKG2D caused faster division of NK cells, perturbation in size of some NK cell subpopulations, and their augmented sensitivity to apoptosis. As expected, Klrk1-/- NK cells are less responsive to tumor targets expressing NKG2D ligands. Klrk1-/- mice, however, showed an enhanced NK cell-mediated resistance to mouse cytomegalovirus infection as a consequence of NK cell dysregulation. Altogether, these findings provide evidence for regulatory function of NKG2D in NK cell physiology.",

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author = "Biljana Zafirova and Sanja Mandari{\'c} and Ronald Antulov and Astrid Krmpoti{\'c} and Helena Jonsson and Yokoyama, {Wayne M.} and Stipan Jonji{\'c} and Bojan Poli{\'c}",

note = "Funding Information: We thank A. Steinle and A. Diefenbach for critical reading of the manuscript and comments as well as J. Arapovic for helpful discussions. We especially express our gratitude to S. Slavic Stupac for excellent technical assistance and to M. Samsa for animal care. We also thank C. Uthoff-Hachenberg and D. Rumora for technical advice and help. This work was supported by the Croatian Ministry of Science, Education and Sport (grants TP01/006201 (103), 0062005, and 062-0621261-1271, as well as a Croatian-Israeli grant to B.P.). ",

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AU - Zafirova, Biljana

AU - Mandarić, Sanja

AU - Antulov, Ronald

AU - Krmpotić, Astrid

AU - Jonsson, Helena

AU - Yokoyama, Wayne M.

AU - Jonjić, Stipan

AU - Polić, Bojan

N1 - Funding Information: We thank A. Steinle and A. Diefenbach for critical reading of the manuscript and comments as well as J. Arapovic for helpful discussions. We especially express our gratitude to S. Slavic Stupac for excellent technical assistance and to M. Samsa for animal care. We also thank C. Uthoff-Hachenberg and D. Rumora for technical advice and help. This work was supported by the Croatian Ministry of Science, Education and Sport (grants TP01/006201 (103), 0062005, and 062-0621261-1271, as well as a Croatian-Israeli grant to B.P.).

PY - 2009/8/21

Y1 - 2009/8/21

N2 - NKG2D is a potent activating receptor on natural killer (NK) cells and acts as a molecular sensor for stressed cells expressing NKG2D ligands such as infected or tumor-transformed cells. Although NKG2D is expressed on NK cell precursors, its role in NK cell development is not known. We have generated NKG2D-deficient mice by targeting the Klrk1 locus. Here we provide evidence for an important regulatory role of NKG2D in the development of NK cells. The absence of NKG2D caused faster division of NK cells, perturbation in size of some NK cell subpopulations, and their augmented sensitivity to apoptosis. As expected, Klrk1-/- NK cells are less responsive to tumor targets expressing NKG2D ligands. Klrk1-/- mice, however, showed an enhanced NK cell-mediated resistance to mouse cytomegalovirus infection as a consequence of NK cell dysregulation. Altogether, these findings provide evidence for regulatory function of NKG2D in NK cell physiology.

AB - NKG2D is a potent activating receptor on natural killer (NK) cells and acts as a molecular sensor for stressed cells expressing NKG2D ligands such as infected or tumor-transformed cells. Although NKG2D is expressed on NK cell precursors, its role in NK cell development is not known. We have generated NKG2D-deficient mice by targeting the Klrk1 locus. Here we provide evidence for an important regulatory role of NKG2D in the development of NK cells. The absence of NKG2D caused faster division of NK cells, perturbation in size of some NK cell subpopulations, and their augmented sensitivity to apoptosis. As expected, Klrk1-/- NK cells are less responsive to tumor targets expressing NKG2D ligands. Klrk1-/- mice, however, showed an enhanced NK cell-mediated resistance to mouse cytomegalovirus infection as a consequence of NK cell dysregulation. Altogether, these findings provide evidence for regulatory function of NKG2D in NK cell physiology.

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Altered NK Cell Development and Enhanced NK Cell-Mediated Resistance to Mouse Cytomegalovirus in NKG2D-Deficient Mice

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