Pulmonary dendritic cell development and antigen acquisition
详细信息 查看全文
- 作者:A. Nicole Desch (2)
Peter M. Henson (1) (2)
Claudia V. Jakubzick (1) (2) - 关键词:Dendritic cell ; Lung ; draining lymph node ; Pulmonary ; Antigen acquisition
- 刊名:Immunologic Research
- 出版年:2013
- 出版时间:March 2013
- 年:2013
- 卷:55
- 期:1-3
- 页码:178-186
- 全文大小:317KB
- 参考文献:1. Banchereau J, Steinman RM. Dendritic cells and the control of immunity. Nature. 1998;392(6673):245鈥?2. CrossRef
2. Steinman RM. The dendritic cell system and its role in immunogenicity. Annu Rev Immunol. 1991;9:271鈥?6. CrossRef
3. Tsitoura DC, DeKruyff RH, Lamb JR, Umetsu DT. Intranasal exposure to protein antigen induces immunological tolerance mediated by functionally disabled CD4+ T cells. J Immunol. 1999;163(5):2592鈥?00.
4. Matzinger P. Tolerance, danger, and the extended family. Annu Rev Immunol. 1994;12:991鈥?045. CrossRef
5. Heath WR, Carbone FR. Immunology: dangerous liaisons. Nature. 2003;425(6957):460鈥?. CrossRef
6. Inaba K, Turley S, Iyoda T, et al. The formation of immunogenic major histocompatibility complex class II-peptide ligands in lysosomal compartments of dendritic cells is regulated by inflammatory stimuli. J Exp Med. 2000;191(6):927鈥?6. CrossRef
7. Brimnes MK, Bonifaz L, Steinman RM, Moran TM. Influenza virus-induced dendritic cell maturation is associated with the induction of strong T cell immunity to a coadministered, normally nonimmunogenic protein. J Exp Med. 2003;198(1):133鈥?4. CrossRef
8. Medzhitov R, Janeway CA Jr. Decoding the patterns of self and nonself by the innate immune system. Science. 2002;296(5566):298鈥?00. CrossRef
9. Kim TS, Braciale TJ. Respiratory dendritic cell subsets differ in their capacity to support the induction of virus-specific cytotoxic CD8+ T cell responses. PLoS ONE. 2009;4(1):e4204. CrossRef
10. Lukens MV, Kruijsen D, Coenjaerts FE, Kimpen JL, van Bleek GM. Respiratory syncytial virus-induced activation and migration of respiratory dendritic cells and subsequent antigen presentation in the lung-draining lymph node. J Virol. 2009;83(14):7235鈥?3. CrossRef
11. Randolph GJ, Jakubzick C, Qu C. Antigen presentation by monocytes and monocyte-derived cells. Curr Opin Immunol. 2008;20(1):52鈥?0. CrossRef
12. Sung SS, Fu SM, Rose CE Jr, Gaskin F, Ju ST, Beaty SR. A major lung CD103 (alphaE)-beta7 integrin-positive epithelial dendritic cell population expressing Langerin and tight junction proteins. J Immunol. 2006;176(4):2161鈥?2.
13. Steinman RM, Hemmi H. Dendritic cells: translating innate to adaptive immunity. Curr Top Microbiol Immunol. 2006;311:17鈥?8. CrossRef
14. Jakubzick C, Tacke F, Ginhoux F, Wagers AJ, van Rooijen N, Mack M, Merad M, Randolph GJ. Blood monocyte subsets differentially give rise to CD103+ and CD103鈭?pulmonary dendritic cell populations. J Immunol. 2008;180(5):3019鈥?7.
15. Gong JL, McCarthy KM, Telford J, Tamatani T, Miyasaka M, Schneeberger EE. Intraepithelial airway dendritic cells: a distinct subset of pulmonary dendritic cells obtained by microdissection. J Exp Med. 1992;175(3):797鈥?07. CrossRef
16. von Garnier C, Filgueira L, Wikstrom M, Smith M, Thomas JA, Strickland DH, Holt PG, Stumbles PA. Anatomical location determines the distribution and function of dendritic cells and other APCs in the respiratory tract. J Immunol. 2005;175(3):1609鈥?8.
17. Jakubzick C, Randolph GJ. Methods to study pulmonary dendritic cell migration. Methods Mol Biol. 2009;595:371鈥?2.
18. Kirby AC, Raynes JG, Kaye PM. CD11b regulates recruitment of alveolar macrophages but not pulmonary dendritic cells after pneumococcal challenge. J Infect Dis. 2006;193(2):205鈥?3. CrossRef
19. Janssen WJ, Barthel L, Muldrow A, Oberley-Deegan RE, Kearns MT, Jakubzick C, Henson PM. Fas determines differential fates of resident and recruited macrophages during resolution of acute lung injury. Am J Respir Crit Care Med. 2011;184(5):547鈥?0.
20. Vermaelen K, Pauwels R. Accurate and simple discrimination of mouse pulmonary dendritic cell and macrophage populations by flow cytometry: methodology and new insights. Cytometry A. 2004;61(2):170鈥?. CrossRef
21. Holt PG, Haining S, Nelson DJ, Sedgwick JD. Origin and steady-state turnover of class II MHC-bearing dendritic cells in the epithelium of the conducting airways. J Immunol. 1994;153(1):256鈥?1.
22. Ginhoux F, Liu K, Helft J, et al. The origin and development of nonlymphoid tissue CD103+ DCs. J Exp Med. 2009;206(13):3115鈥?0. CrossRef
23. Inaba K, Inaba M, Romani N, Aya H, Deguchi M, Ikehara S, Muramatsu S, Steinman RM. Generation of large numbers of dendritic cells from mouse bone-marrow cultures supplemented with granulocyte macrophage colony-stimulating factor. J Exp Med. 1992;176(6):1693鈥?02. CrossRef
24. Delamarre L, Pack M, Chang H, Mellman I, Trombetta ES. Differential lysosomal proteolysis in antigen-presenting cells determines antigen fate. Science. 2005;307(5715):1630鈥?. CrossRef
25. Garrett WS, Chen LM, Kroschewski R, Ebersold M, Turley S, Trombetta S, Galan JE, Mellman I. Developmental control of endocytosis in dendritic cells by Cdc42. Cell. 2000;102(3):325鈥?4. CrossRef
26. Turley SJ, Inaba K, Garrett WS, Ebersold M, Unternaehrer J, Steinman RM, Mellman I. Transport of peptide-MHC class II complexes in developing dendritic cells. Science. 2000;288(5465):522鈥?. CrossRef
27. Vremec D, Lieschke GJ, Dunn AR, Robb L, Metcalf D, Shortman K. The influence of granulocyte/macrophage colony-stimulating factor on dendritic cell levels in mouse lymphoid organs. Eur J Immunol. 1997;27(1):40鈥?. CrossRef
28. Fogg DK, Sibon C, Miled C, Jung S, Aucouturier P, Littman DR, Cumano A, Geissmann F. A clonogenic bone marrow progenitor specific for macrophages and dendritic cells. Science. 2006;311(5757):83鈥?. CrossRef
29. Liu K, Victora GD, Schwickert TA, et al. In vivo analysis of dendritic cell development and homeostasis. Science. 2009;324(5925):392鈥?.
30. Onai N, Obata-Onai A, Schmid MA, Ohteki T, Jarrossay D, Manz MG. Identification of clonogenic common Flt3+ M-CSFR+ plasmacytoid and conventional dendritic cell progenitors in mouse bone marrow. Nat Immunol. 2007;8(11):1207鈥?6. CrossRef
31. Naik SH, Sathe P, Park HY, et al. Development of plasmacytoid and conventional dendritic cell subtypes from single precursor cells derived in vitro and in vivo. Nat Immunol. 2007;8(11):1217鈥?6. CrossRef
32. Ginhoux F, Tacke F, Angeli V, et al. Langerhans cells arise from monocytes in vivo. Nat Immunol. 2006;7(3):265鈥?3. CrossRef
33. Varol C, Landsman L, Fogg DK, et al. Monocytes give rise to mucosal, but not splenic, conventional dendritic cells. J Exp Med. 2007;204(1):171鈥?0. CrossRef
34. Landsman L, Jung S. Lung macrophages serve as obligatory intermediate between blood monocytes and alveolar macrophages. J Immunol. 2007;179(6):3488鈥?4.
35. Serbina NV, Salazar-Mather TP, Biron CA, Kuziel WA, Pamer EG. TNF/iNOS-producing dendritic cells mediate innate immune defense against bacterial infection. Immunity. 2003;19(1):59鈥?0. CrossRef
36. Belz GT, Nutt SL. Transcriptional programming of the dendritic cell network. Nat Rev Immunol. 2012;12(2):101鈥?3.
37. Cheong C, Matos I, Choi JH, et al. Microbial stimulation fully differentiates monocytes to DC-SIGN/CD209(+) dendritic cells for immune T cell areas. Cell. 2010;143(3):416鈥?9.
38. Desch AN, Randolph GJ, Murphy K, et al. CD103+ pulmonary dendritic cells preferentially acquire and present apoptotic cell-associated antigen. J Exp Med. 2011;208(9):1789鈥?7.
39. Masten BJ, Olson GK, Kusewitt DF, Lipscomb MF. Flt3 ligand preferentially increases the number of functionally active myeloid dendritic cells in the lungs of mice. J Immunol. 2004;172(7):4077鈥?3.
40. Waskow C, Liu K, Darrasse-Jeze G, et al. The receptor tyrosine kinase Flt3 is required for dendritic cell development in peripheral lymphoid tissues. Nat Immunol. 2008;9(6):676鈥?3. CrossRef
41. Geissmann F, Manz MG, Jung S, Sieweke MH, Merad M, Ley K. Development of monocytes, macrophages, and dendritic cells. Science. 2010;327(5966):656鈥?1.
42. Carotta S, Dakic A, D鈥橝mico A, Pang SH, Greig KT, Nutt SL, Wu L. The transcription factor PU.1 controls dendritic cell development and Flt3 cytokine receptor expression in a dose-dependent manner. Immunity. 2010;32(5):628鈥?1.
43. Schiavoni G, Mattei F, Sestili P, Borghi P, Venditti M, Morse HC III, Belardelli F, Gabriele L. ICSBP is essential for the development of mouse type I interferon-producing cells and for the generation and activation of CD8alpha(+) dendritic cells. J Exp Med. 2002;196(11):1415鈥?5. CrossRef
44. Tsujimura H, Tamura T, Ozato K. Cutting edge: IFN consensus sequence binding protein/IFN regulatory factor 8 drives the development of type I IFN-producing plasmacytoid dendritic cells. J Immunol. 2003;170(3):1131鈥?.
45. Tailor P, Tamura T, Morse HC III, Ozato K. The BXH2 mutation in IRF8 differentially impairs dendritic cell subset development in the mouse. Blood. 2008;111(4):1942鈥?. CrossRef
46. Schiavoni G, Mattei F, Borghi P, Sestili P, Venditti M, Morse HC III, Belardelli F, Gabriele L. ICSBP is critically involved in the normal development and trafficking of Langerhans cells and dermal dendritic cells. Blood. 2004;103(6):2221鈥?. CrossRef
47. Meredith MM, Liu K, Darrasse-Jeze G, et al. Expression of the zinc finger transcription factor zDC (Zbtb46, Btbd4) defines the classical dendritic cell lineage. J Exp Med. 2012;209(6):1153鈥?5.
48. Satpathy AT, Wumesh KC, Albring JC, Edelson BT, Kretzer NM, Bhattacharya D, Murphy TL, Murphy KM. Zbtb46 expression distinguishes classical dendritic cells and their committed progenitors from other immune lineages. J Exp Med. 2012;209(6):1135鈥?2.
49. Edelson BT, Wumesh KC, Juang R, et al. Peripheral CD103+ dendritic cells form a unified subset developmentally related to CD8alpha+ conventional dendritic cells. J Exp Med. 2010;207(4):823鈥?6. CrossRef
50. Jackson JT, Hu Y, Liu R, et al. Id2 expression delineates differential checkpoints in the genetic program of CD8alpha+ and CD103+ dendritic cell lineages. EMBO J. 2011;30(13):2690鈥?04.
51. Ichikawa E, Hida S, Omatsu Y, Shimoyama S, Takahara K, Miyagawa S, Inaba K, Taki S. Defective development of splenic and epidermal CD4+ dendritic cells in mice deficient for IFN regulatory factor-2. Proc Natl Acad Sci USA. 2004;101(11):3909鈥?4. CrossRef
52. Tamura T, Tailor P, Yamaoka K, Kong HJ, Tsujimura H, O鈥橲hea JJ, Singh H, Ozato K. IFN regulatory factor-4 and -8 govern dendritic cell subset development and their functional diversity. J Immunol. 2005;174(5):2573鈥?1.
53. Suzuki S, Honma K, Matsuyama T, et al. Critical roles of interferon regulatory factor 4 in CD11bhighCD8alpha鈭?dendritic cell development. Proc Natl Acad Sci USA. 2004;101(24):8981鈥?. CrossRef
54. Wu L, D鈥橝mico A, Winkel KD, Suter M, Lo D, Shortman K. RelB is essential for the development of myeloid-related CD8alpha鈭?dendritic cells but not of lymphoid-related CD8alpha+ dendritic cells. Immunity. 1998;9(6):839鈥?7. CrossRef
55. Burkly L, Hession C, Ogata L, et al. Expression of relB is required for the development of thymic medulla and dendritic cells. Nature. 1995;373(6514):531鈥?. CrossRef
56. Dickinson RE, Griffin H, Bigley V, et al. Exome sequencing identifies GATA-2 mutation as the cause of dendritic cell, monocyte, B and NK lymphoid deficiency. Blood. 2011;118(10):2656鈥?.
57. Hambleton S, Salem S, Bustamante J, et al. IRF8 mutations and human dendritic-cell immunodeficiency. N Engl J Med. 2011;365(2):127鈥?8.
58. Bigley V, Haniffa M, Doulatov S, et al. The human syndrome of dendritic cell, monocyte, B and NK lymphoid deficiency. J Exp Med. 2011;208(2):227鈥?4.
59. Holt PG, Schon-Hegrad MA, Oliver J. MHC class II antigen-bearing dendritic cells in pulmonary tissues of the rat. Regulation of antigen presentation activity by endogenous macrophage populations. J Exp Med. 1988;167(2):262鈥?4. CrossRef
60. Lipscomb MF, Pollard AM, Yates JL. A role for TGF-beta in the suppression by murine bronchoalveolar cells of lung dendritic cell initiated immune responses. Reg Immunol. 1993;5(3鈥?):151鈥?.
61. MacLean JA, Xia W, Pinto CE, Zhao L, Liu HW, Kradin RL. Sequestration of inhaled particulate antigens by lung phagocytes. A mechanism for the effective inhibition of pulmonary cell-mediated immunity. Am J Pathol. 1996;148(2):657鈥?6.
62. Jakubzick C, Tacke F, Llodra J, van Rooijen N, Randolph GJ. Modulation of dendritic cell trafficking to and from the airways. J Immunol. 2006;176(6):3578鈥?4.
63. Holt PG, Oliver J, Bilyk N, McMenamin C, McMenamin PG, Kraal G, Thepen T. Downregulation of the antigen presenting cell function(s) of pulmonary dendritic cells in vivo by resident alveolar macrophages. J Exp Med. 1993;177(2):397鈥?07. CrossRef
64. Jakubzick C, Helft J, Kaplan TJ, Randolph GJ. Optimization of methods to study pulmonary dendritic cell migration reveals distinct capacities of DC subsets to acquire soluble versus particulate antigen. J Immunol Methods. 2008;337(2):121鈥?1. CrossRef
65. Thornton EE, Looney MR, Bose O, Sen D, Sheppard D, Locksley R, Huang X, Krummel MF. Spatiotemporally separated antigen uptake by alveolar dendritic cells and airway presentation to T cells in the lung. J Exp Med. 2012;209(6):1183鈥?9.
66. Vermaelen KY, Carro-Muino I, Lambrecht BN, Pauwels RA. Specific migratory dendritic cells rapidly transport antigen from the airways to the thoracic lymph nodes. J Exp Med. 2001;193(1):51鈥?0. CrossRef
67. Belz GT, Bedoui S, Kupresanin F, Carbone FR, Heath WR. Minimal activation of memory CD8+ T cell by tissue-derived dendritic cells favors the stimulation of naive CD8+ T cells. Nat Immunol. 2007;8(10):1060鈥?. CrossRef
68. Legge KL, Braciale TJ. Accelerated migration of respiratory dendritic cells to the regional lymph nodes is limited to the early phase of pulmonary infection. Immunity. 2003;18(2):265鈥?7. CrossRef
69. Belz GT, Smith CM, Kleinert L, Reading P, Brooks A, Shortman K, Carbone FR, Heath WR. Distinct migrating and nonmigrating dendritic cell populations are involved in MHC class I-restricted antigen presentation after lung infection with virus. Proc Natl Acad Sci USA. 2004;101(23):8670鈥?. CrossRef
70. GeurtsvanKessel CH, Willart MA, van Rijt LS, et al. Clearance of influenza virus from the lung depends on migratory langerin+CD11b鈭?but not plasmacytoid dendritic cells. J Exp Med. 2008;205(7):1621鈥?4. CrossRef
71. Iwasaki A, Medzhitov R. Toll-like receptor control of the adaptive immune responses. Nat Immunol. 2004;5(10):987鈥?5. CrossRef
72. Edwards AD, Diebold SS, Slack EM, Tomizawa H, Hemmi H, Kaisho T, Akira S. Reis e Sousa C. Toll-like receptor expression in murine DC subsets: lack of TLR7 expression by CD8 alpha+ DC correlates with unresponsiveness to imidazoquinolines. Eur J Immunol. 2003;33(4):827鈥?3. CrossRef
73. Colonna M, Trinchieri G, Liu YJ. Plasmacytoid dendritic cells in immunity. Nat Immunol. 2004;5(12):1219鈥?6. CrossRef
74. Gilliet M, Cao W, Liu YJ. Plasmacytoid dendritic cells: sensing nucleic acids in viral infection and autoimmune diseases. Nat Rev Immunol. 2008;8(8):594鈥?06. CrossRef
75. de Heer HJ, Hammad H, Soullie T, Hijdra D, Vos N, Willart MA, Hoogsteden HC, Lambrecht BN. Essential role of lung plasmacytoid dendritic cells in preventing asthmatic reactions to harmless inhaled antigen. J Exp Med. 2004;200(1):89鈥?8. CrossRef
76. Pascale F, Contreras V, Bonneau M, et al. Plasmacytoid dendritic cells migrate in afferent skin lymph. J Immunol. 2008;180(9):5963鈥?2.
77. Yrlid U, Cerovic V, Milling S, Jenkins CD, Zhang J, Crocker PR, Klavinskis LS, MacPherson GG. Plasmacytoid dendritic cells do not migrate in intestinal or hepatic lymph. J Immunol. 2006;177(9):6115鈥?1.
78. Jakubzick C, Bogunovic M, Bonito AJ, Kuan EL, Merad M, Randolph GJ. Lymph-migrating, tissue-derived dendritic cells are minor constituents within steady-state lymph nodes. J Exp Med. 2008;205(12):2839鈥?0. CrossRef
79. Jahnsen FL, Strickland DH, Thomas JA, et al. Accelerated antigen sampling and transport by airway mucosal dendritic cells following inhalation of a bacterial stimulus. J Immunol. 2006;177(9):5861鈥?.
80. McWilliam AS, Nelson D, Thomas JA, Holt PG. Rapid dendritic cell recruitment is a hallmark of the acute inflammatory response at mucosal surfaces. J Exp Med. 1994;179(4):1331鈥?. CrossRef
81. Hintzen G, Ohl L, del Rio ML, et al. Induction of tolerance to innocuous inhaled antigen relies on a CCR7-dependent dendritic cell-mediated antigen transport to the bronchial lymph node. J Immunol. 2006;177(10):7346鈥?4.
82. Coombes JL, Siddiqui KR, Arancibia-Carcamo CV, Hall J, Sun CM, Belkaid Y, Powrie F. A functionally specialized population of mucosal CD103+ DCs induces Foxp3+ regulatory T cells via a TGF-beta and retinoic acid-dependent mechanism. J Exp Med. 2007;204(8):1757鈥?4. CrossRef
83. Sun CM, Hall JA, Blank RB, Bouladoux N, Oukka M, Mora JR, Belkaid Y. Small intestine lamina propria dendritic cells promote de novo generation of Foxp3 T reg cells via retinoic acid. J Exp Med. 2007;204(8):1775鈥?5. CrossRef
84. Benson MJ, Pino-Lagos K, Rosemblatt M, Noelle RJ. All-trans retinoic acid mediates enhanced T reg cell growth, differentiation, and gut homing in the face of high levels of co-stimulation. J Exp Med. 2007;204(8):1765鈥?4. CrossRef
85. Steinman RM, Turley S, Mellman I, Inaba K. The induction of tolerance by dendritic cells that have captured apoptotic cells. J Exp Med. 2000;191(3):411鈥?. CrossRef
86. del Rio ML, Rodriguez-Barbosa JI, Kremmer E, Forster R. CD103鈭?and CD103+ bronchial lymph node dendritic cells are specialized in presenting and cross-presenting innocuous antigen to CD4+ and CD8+ T cells. J Immunol. 2007;178(11):6861鈥?.
87. McGill J, Van Rooijen N, Legge KL. IL-15 trans-presentation by pulmonary dendritic cells promotes effector CD8 T cell survival during influenza virus infection. J Exp Med. 2010;207(3):521鈥?4.
88. Allan RS, Waithman J, Bedoui S, et al. Migratory dendritic cells transfer antigen to a lymph node-resident dendritic cell population for efficient CTL priming. Immunity. 2006;25(1):153鈥?2. CrossRef
89. Wakim LM, Bevan MJ. Cross-dressed dendritic cells drive memory CD8+ T-cell activation after viral infection. Nature. 2011;471(7340):629鈥?2.
90. Allenspach EJ, Lemos MP, Porrett PM, Turka LA, Laufer TM. Migratory and lymphoid-resident dendritic cells cooperate to efficiently prime naive CD4 T cells. Immunity. 2008;29(5):795鈥?06. CrossRef - 作者单位:A. Nicole Desch (2)
Peter M. Henson (1) (2)
Claudia V. Jakubzick (1) (2)
2. Integrated Department of Immunology, University of Colorado School of Medicine, Denver, CO, USA
1. Department of Pediatrics, National Jewish Health, 1400 Jackson Street, Denver, CO, 80206, USA
文摘
Pulmonary dendritic cells (DCs) constantly sample the tissue and traffic inhaled antigens to the lung-draining lymph node where they normally orchestrate an appropriate immune response. The dynamic ability of these professional antigen-presenting cells to promote tolerance or immunity has been intensively studied by several groups, including ours. Distinct DC subsets in both lymphoid and non-lymphoid tissues have been described based on their surface molecule expression and location. Current efforts to unravel DC development and function are providing insight into the various roles each subset offers the immune system. Elucidating DC functions, particularly in the lung, may then allow use of the inherent ability of these cells for enhanced vaccine strategies and therapeutics for pulmonary infections and diseases.