NK1.1
Animals
CD8-Positive T-Lymphocytes
/ immunology
Cell Differentiation
/ immunology
Immunity, Innate
/ immunology
Immunologic Memory
/ immunology
Killer Cells, Natural
/ immunology
Lymphocytic Choriomeningitis
/ immunology
Lymphocytic choriomeningitis virus
/ immunology
Mice
Mice, Inbred C57BL
NK Cell Lectin-Like Receptor Subfamily K
/ immunology
Natural Cytotoxicity Triggering Receptor 1
/ immunology
Perforin
/ immunology
Salivary Glands
/ immunology
TNF-Related Apoptosis-Inducing Ligand
/ immunology
LCMV
innate lymphoid cells
salivary glands
tissue-resident memory T cells
Journal
European journal of immunology
ISSN: 1521-4141
Titre abrégé: Eur J Immunol
Pays: Germany
ID NLM: 1273201
Informations de publication
Date de publication:
12 2020
12 2020
Historique:
received:
11
05
2020
revised:
06
07
2020
accepted:
29
07
2020
pubmed:
1
8
2020
medline:
30
1
2021
entrez:
1
8
2020
Statut:
ppublish
Résumé
NK1.1
Identifiants
pubmed: 32734619
doi: 10.1002/eji.202048741
doi:
Substances chimiques
NK Cell Lectin-Like Receptor Subfamily K
0
Natural Cytotoxicity Triggering Receptor 1
0
TNF-Related Apoptosis-Inducing Ligand
0
Perforin
126465-35-8
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Pagination
1952-1958Subventions
Organisme : the Deutsche Forschungsgemeinschaft DFG
ID : PI 295/7-1
Pays : International
Informations de copyright
© 2020 Wiley-VCH GmbH.
Références
Andrews, D. M., Estcourt, M. J., Andoniou, C. E., Wikstrom, M. E., Khong, A., Voigt, V., Fleming, P. et al., Innate immunity defines the capacity of antiviral T cells to limit persistent infection. J. Exp .Med. 2010. 207: 1333-1343.
Cook, K. D. and Whitmire, J. K., The depletion of NK cells prevents T cell exhaustion to efficiently control disseminating virus infection. J. Immunol. 2013. 190: 641-649.
Lang, P. A., Lang, K. S., Xu, H. C., Grusdat, M., Parish, I. A., Recher, M., Elford, A. R. et al., Natural killer cell activation enhances immune pathology and promotes chronic infection by limiting CD8+ T-cell immunity. Proc. Natl Acad. Sci. USA 2012. 109: 1210-1215.
Soderquest, K., Walzer, T., Zafirova, B., Klavinskis, L. S., Polic, B., Vivier, E., Lord, G. M. et al., Cutting edge: CD8+ T cell priming in the absence of NK cells leads to enhanced memory responses. J. Immunol. 2011. 186: 3304-3308.
Waggoner, S. N., Cornberg, M., Selin, L. K. and Welsh, R. M., Natural killer cells act as rheostats modulating antiviral T cells. Nature 2011. 481: 394-398.
Waggoner, S. N., Taniguchi, R. T., Mathew, P. A., Kumar, V. and Welsh, R. M., Absence of mouse 2B4 promotes NK cell-mediated killing of activated CD8+ T cells, leading to prolonged viral persistence and altered pathogenesis. J. Clin. Invest. 2010. 120: 1925-1938.
Crouse, J., Bedenikovic, G., Wiesel, M., Ibberson, M., Xenarios, I., Von Laer, D., Kalinke, U. et al., Type Iinterferons protect T cells against NK cell attack mediated by the activating receptor NCR1. Immunity 2014. 40: 961-973.
Lang, P. A., Crome, S. Q., Xu, H. C., Lang, K. S., Chapatte, L., Deenick, E. K., Grusdat, M. et al., NK cells regulate CD8(+) T-cell mediated autoimmunity. Front Cell Infect Microbiol 2020. 10: 36.
Pallmer, K., Barnstorf, I., Baumann, N. S., Borsa, M., Jonjic, S. and Oxenius, A., NK cells negatively regulate CD8 T cells via natural cytotoxicity receptor (NCR) 1 during LCMV infection. PLoS Pathog. 2019. 15: e1007725.
Schuster, I. S., Wikstrom, M. E., Brizard, G., Coudert, J. D., Estcourt, M. J., Manzur, M., O'Reilly, L. A. et al., TRAIL+ NK cells control CD4+ T cell responses during chronic viral infection to limit autoimmunity. Immunity. 2014. 41: 646-656.
Hofmann, M. and Pircher, H., E-cadherin promotes accumulation of a unique memory CD8 T-cell population in murine salivary glands. Proc. Natl Acad. Sci. USA 2011. 108: 16741-16746.
Smith, C. J., Caldeira-Dantas, S., Turula, H. and Snyder, C. M., Murine CMV infection induces the continuous production of mucosal resident T cells. Cell Rep. 2015. 13: 1137-1148.
Steinert, E. M., Schenkel, J. M., Fraser, K. A., Beura, L. K., Manlove, L. S., Igyarto, B. Z., Southern, P. J. et al., Quantifying memory CD8 T cells reveals regionalization of immunosurveillance. Cell. 2015. 161: 737-749.
Thom, J. T., Weber, T. C., Walton, S. M., Torti, N. and Oxenius, A., The salivary gland acts as a sink for tissue-resident memory CD8(+) T cells, facilitating protection from local cytomegalovirus infection. Cell Rep. 2015. 13: 1125-1136.
Woyciechowski, S., Hofmann, M. and Pircher, H., alpha4 beta1 integrin promotes accumulation of tissue-resident memory CD8(+) T cells in salivary glands. Eur. J. Immunol. 2017. 47: 244-250.
Cortez, V. S., Cervantes-Barragan, L., Robinette, M. L., Bando, J. K., Wang, Y., Geiger, T. L., Gilfillan, S. et al., Transforming growth factor-beta signaling guides the differentiation of innate lymphoid cells in salivary glands. Immunity 2016. 44: 1127-1139.
Cortez, V. S., Fuchs, A., Cella, M., Gilfillan, S. and Colonna, M., Cutting edge: Salivary gland NK cells develop independently of Nfil3 in steady-state. J. Immunol. 2014. 192: 4487-4491.
Tessmer, M. S., Reilly, E. C. and Brossay, L., Salivary gland NK cells are phenotypically and functionally unique. PLoS Pathog. 2011. 7: e1001254.
Pircher, H., Burki, K., Lang, R., Hengartner, H. and Zinkernagel, R. M., Tolerance induction in double specific T-cell receptor transgenic mice varies with antigen. Nature. 1989. 342: 559-561.
Ehl, S., Nuesch, R., Tanaka, T., Myasaka, M., Hengartner, H. and Zinkernagel, R., A comparison of efficacy and specificity of three NK depleting antibodies. J. Immunol. Methods 1996. 199: 149-153.
Straub, T., Freudenberg, M. A., Schleicher, U., Bogdan, C., Gasteiger, G. and Pircher, H., Bacterial coinfection restrains antiviral CD8 T-cell response via LPS-induced inhibitory NK cells. Nat. Commun. 2018. 9: 4117.
Skon, C. N., Lee, J. Y., Anderson, K. G., Masopust, D., Hogquist, K. A. and Jameson, S. C., Transcriptional downregulation of S1pr1 is required for the establishment of resident memory CD8+ T cells. Nat. Immunol. 2013. 14: 1285-1293.
Cardoso Alves, L., Berger, M.D., Koutsandreas, T., Kirschke, N., Lauer, C., Sporri, R., Chatziioannou, A. et al., Non-apoptotic TRAIL function modulates NK cell activity during viral infection. EMBO Rep. 2020. 21: e48789.
Secchiero, P., Gonelli, A., Carnevale, E., Milani, D., Pandolfi, A., Zella, D. and Zauli, G., TRAIL promotes the survival and proliferation of primary human vascular endothelial cells by activating the Akt and ERK pathways. Circulation. 2003. 107: 2250-2256.
Gordon, S. M., Chaix, J., Rupp, L. J., Wu, J., Madera, S., Sun, J. C., Lindsten, T. et al., The transcription factors T-bet and Eomes control key checkpoints of natural killer cell maturation. Immunity. 2012. 36: 55-67.
Pikovskaya, O., Chaix, J., Rothman, N. J., Collins, A., Chen, Y. H., Scipioni, A. M., Vivier, E. et al., Cutting edge: Eomesodermin is sufficient to direct type 1 innate lymphocyte development into the conventional NK lineage. J. Immunol. 2016. 196: 1449-1454.
Mingueneau, M., Boudaoud, S., Haskett, S., Reynolds, T. L., Nocturne, G., Norton, E., Zhang, X. et al., Cytometry by time-of-flight immunophenotyping identifies a blood Sjogren's signature correlating with disease activity and glandular inflammation. J. Allergy Clin. Immunol. 2016. 137: 1809-1821.
Tasaki, S., Suzuki, K., Nishikawa, A., Kassai, Y., Takiguchi, M., Kurisu, R., Okuzono, Y. et al., Multiomic disease signatures converge to cytotoxic CD8 T cells in primary Sjogren's syndrome. Ann. Rheum. Dis. 2017. 76: 1458-1466.
Gao, C. Y., Yao, Y., Li, L., Yang, S. H., Chu, H., Tsuneyama, K., Li, X. M. et al., Tissue-resident memory CD8+ T cells acting as mediators of salivary gland damage in a murine model of Sjogren's syndrome. Arthritis Rheumatol. 2019. 71: 121-132.
Martin, C. E., Spasova, D. S., Frimpong-Boateng, K., Kim, H. O., Lee, M., Kim, K. S. and Surh, C. D., Interleukin-7 availability is maintained by a hematopoietic cytokine sink comprising innate lymphoid cells and T cells. Immunity 2017. 47: 171-182.
Stolp, B., Thelen, F., Ficht, X., Altenburger, L. M., Ruef, N., Inavalli, V., Germann, P. et al., Salivary gland macrophages and tissue-resident CD8(+) T cells cooperate for homeostatic organ surveillance. Sci. Immunol. 2020. 5.
Almeida, F. F., Tognarelli, S., Marcais, A., Kueh, A. J., Friede, M. E., Liao, Y., Willis, S. N. et al., A point mutation in the Ncr1 signal peptide impairs the development of innate lymphoid cell subsets. Oncoimmunology 2018. 7: e1475875.
Guerra, N., Tan, Y. X., Joncker, N. T., Choy, A., Gallardo, F., Xiong, N., Knoblaugh, S. et al., NKG2D-deficient mice are defective in tumor surveillance in models of spontaneous malignancy. Immunity. 2008. 28: 571-580.
Kagi, D., Ledermann, B., Burki, K., Seiler, P., Odermatt, B., Olsen, K. J., Podack, E. R. et al., Cytotoxicity mediated by T cells and natural killer cells is greatly impaired in perforin-deficient mice. Nature 1994. 369: 31-37.
Sedger, L. M., Glaccum, M. B., Schuh, J. C., Kanaly, S. T., Williamson, E., Kayagaki, N., Yun, T. et al., Characterization of the in vivo function of TNF-alpha-related apoptosis-inducing ligand, TRAIL/Apo2L, using TRAIL/Apo2L gene-deficient mice. Eur. J. Immunol. 2002. 32: 2246-2254.
Arnold, S. J., Sugnaseelan, J., Groszer, M., Srinivas, S. and Robertson, E. J., Generation and analysis of a mouse line harboring GFP in the Eomes/Tbr2 locus. Genesis 2009. 47: 775-781.
Narni-Mancinelli, E., Chaix, J., Fenis, A., Kerdiles, Y. M., Yessaad, N., Reynders, A., Gregoire, C. et al., Fate mapping analysis of lymphoid cells expressing the NKp46 cell surface receptor. Proc. Natl Acad. Sci. USA 2011. 108: 18324-18329.
Cossarizza, A., Chang, H. D., Radbruch, A., Acs, A., Adam, A., Adam-Klages, S., Agace, W. et al., Guidelines for the use of flow cytometry and cell sorting in immunological studies (second edition). Eur. J. Immunol. 2019. 49: 1457-1973.