Lymph node vascular-stromal growth and function as a potential target for controlling immunity

被引:15
作者
Benahmed, Fairouz [1 ]
Ely, Scott [2 ]
Lu, Theresa T. [1 ,3 ]
机构
[1] Hosp Special Surg, Autoimmun & Inflammat Program, New York, NY 10021 USA
[2] Cornell Univ, Weill Med Coll, Div Hematopathol, Dept Pathol, New York, NY 10065 USA
[3] Cornell Univ, Weill Med Coll, Dept Microbiol & Immunol, New York, NY 10065 USA
来源
CLINICAL IMMUNOLOGY | 2012年 / 144卷 / 02期
关键词
Lymph node; Blood vessels; Lymphatic; High endothelial venules; Stromal; Lupus; FIBROBLASTIC RETICULAR CELLS; ADULT-ONSET; T-CELLS; BLOCKADE INCREASES; ANTIGEN; SECONDARY; DISEASE; LYMPHANGIOGENESIS; LYMPHADENOPATHY; FOLLICLES;
D O I
10.1016/j.clim.2012.05.004
中图分类号
R392 [医学免疫学]; Q939.91 [免疫学];
学科分类号
100102 ;
摘要
Lymphadenopathy occurs in many autoimmune and inflammatory diseases, and vascular proliferation is a common feature in the enlarged lymph nodes. The lymph node vasculature plays critical roles in delivering immune cells as well as oxygen and micronutrients, and therefore represents a potential target for therapeutic manipulation of immunity. In this review, we discuss recent insights made in understanding the growth and function of the vascular and associated stromal compartment in immune-stimulated lymph nodes and the potential utility of altering this process in autoimmune diseases. (C) 2012 Elsevier Inc. All rights reserved.
引用
收藏
页码:109 / 116
页数:8
相关论文
共 60 条
[1]   Follicular dendritic cell networks of primary follicles and germinal centers: Phenotype and function [J].
Allen, Christopher D. C. ;
Cyster, Jason G. .
SEMINARS IN IMMUNOLOGY, 2008, 20 (01) :14-25
[2]  
ANDERSON ND, 1975, AM J PATHOL, V81, P131
[3]   B cell-driven lymphangiogenesis in inflamed lymph nodes enhances dendritic cell mobilization [J].
Angeli, V ;
Ginhoux, F ;
Llodrá, J ;
Quemeneur, L ;
Frenette, PS ;
Skobe, M ;
Jessberger, R ;
Merad, M ;
Randolph, GJ .
IMMUNITY, 2006, 24 (02) :203-215
[4]   Stromal cell networks regulate lymphocyte entry, migration, and territoriality in lymph nodes [J].
Bajenoff, Marc ;
Egen, Jackson G. ;
Koo, Lily Y. ;
Laugier, Jean Pierre ;
Brau, Frederic ;
Glaichenhaus, Nicolas ;
Germain, Ronald N. .
IMMUNITY, 2006, 25 (06) :989-1001
[5]   Comprehensive analysis of lymph node stroma-expressed Ig superfamily members reveals redundant and nonredundant roles for ICAM-1, ICAM-2, and VCAM-1 in lymphocyte homing [J].
Boscacci, Remy T. ;
Pfeiffer, Friederike ;
Gollmer, Kathrin ;
Checa Sevilla, Ana Isabel ;
Maria Martin, Ana ;
Soriano, Silvia Fernandez ;
Natale, Daniela ;
Henrickson, Sarah ;
von Andrian, Ulrich H. ;
Fukui, Yoshinori ;
Mellado, Mario ;
Deutsch, Urban ;
Engelhardt, Britta ;
Stein, Jens V. .
BLOOD, 2010, 116 (06) :915-925
[6]   Stromal cell heterogeneity in lymphoid organs [J].
Buettner, Manuela ;
Pabst, Reinhard ;
Bode, Ulrike .
TRENDS IN IMMUNOLOGY, 2010, 31 (02) :80-86
[7]   STUDIES OF PRIMARY AND SECONDARY IMMUNE RESPONSES OF LYMPH NODES DRAINING HOMOGRAFTS OF FRESH CANCELLOUS BONE (WITH PARTICULAR REFERENCE TO MECHANISMS OF LYMPH NODE REACTIVITY) [J].
BURWELL, RG .
ANNALS OF THE NEW YORK ACADEMY OF SCIENCES, 1962, 99 (03) :821-+
[8]   COMPARISON OF LONG-TERM EVOLUTION OF ADULT ONSET AND JUVENILE ONSET STILL DISEASE, BOTH FOLLOWED UP FOR MORE THAN 10 YEARS [J].
CABANE, J ;
MICHON, A ;
ZIZA, JM ;
BOURGEOIS, P ;
BLETRY, O ;
GODEAU, P ;
KAHN, MF .
ANNALS OF THE RHEUMATIC DISEASES, 1990, 49 (05) :283-285
[9]   Frequency of lymphadenopathy in rheumatoid arthritis and systemic lupus erythematosus [J].
Çalgüneri, M ;
Öztürk, MA ;
Özbalkan, Z ;
Akdogan, A ;
Üreten, K ;
Kiraz, S ;
Ertenli, I .
JOURNAL OF INTERNATIONAL MEDICAL RESEARCH, 2003, 31 (04) :345-349
[10]   Fibroblast-type reticular stromal cells regulate the lymph node vasculature [J].
Chyou, Susan ;
Ekland, Eric H. ;
Carpenter, April C. ;
Tzeng, Te-Chen Jenny ;
Tian, Sha ;
Michaud, Michael ;
Madri, Joseph A. ;
Lu, Theresa T. .
JOURNAL OF IMMUNOLOGY, 2008, 181 (06) :3887-3896
123456