Page 189 - Hematology_ Basic Principles and Practice ( PDFDrive )
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Chapter 13 Chemokines and Hematopoietic Cell Trafficking 144.e3
99. Rot A: Neutrophil attractant/activation protein-1 (interleukin-8) homing of human memory T and B lymphocytes. Adv Exp Med Biol
induces in vitro neutrophil migration by haptotactic mechanism. Eur J 705:549–569, 2011.
Immunol 23(1):303–306, 1993. 123. Streeter PR, Rouse BTN, Butcher EC: Immunohistologic and func-
100. Ulvmar MH, Werth K, Braun A, et al: The atypical chemokine recep- tional characterization of a vascular addressin involved in lymphocyte
tor CCRL1 shapes functional CCL21 gradients in lymph nodes. Nat homing into peripheral lymph nodes. J Cell Biol 107:1853–1862,
Immunol 15(7):623–630, 2014. 1988.
101. Schmidt S, Friedl P: Interstitial cell migration: integrin-dependent and 124. Berg EL, Robinson MK, Warnock RA, et al: The human peripheral
alternative adhesion mechanisms. Cell Tissue Res 339(1):83–92, 2010. lymph node vascular addressin is a ligand for LECAM-1, the peripheral
102. Lammermann T, Bader BL, Monkley SJ, et al: Rapid leukocyte lymph node homing receptor. J Cell Biol 114:343–349, 1991.
migration by integrin-independent flowing and squeezing. Nature 125. Xu B, Wagner N, Pham LN, et al: Lymphocyte homing to bronchus-
453(7191):51–55, 2008. associated lymphoid tissue (BALT) is mediated by L-selectin/PNAd,
103. Korpos E, Wu C, Song J, et al: Role of the extracellular matrix in alpha4beta1 integrin/VCAM-1, and LFA-1 adhesion pathways. J Exp
lymphocyte migration. Cell Tissue Res 339(1):47–57, 2010. Med 197(10):1255–1267, 2003.
104. Kishimoto TK, Hollander N, Roberts TM, et al: Heterogeneous muta- 126. Warnock RA, Askari S, Butcher EC, et al: Molecular mechanisms of
tions in the beta subunit common to the LFA-1, Mac-1, and p150,95 lymphocyte homing to peripheral lymph nodes. J Exp Med 187(2):205–
glycoproteins cause leukocyte adhesion deficiency. Cell 50(2):193–202, 216, 1998.
1987. 127. Sun H, Wu Y, Qi J, et al: The CC’ and DE loops in Ig domains 1 and 2
105. Etzioni A: Genetic etiologies of leukocyte adhesion defects. Curr Opin of MAdCAM-1 play different roles in MAdCAM-1 binding to low- and
Immunol 21(5):481–486, 2009. high-affinity integrin alpha4beta7. J Biol Chem 286(14):12086–12092,
106. Gazit Y, Mory A, Etzioni A, et al: Leukocyte adhesion deficiency type 2011.
II: long-term follow-up and review of the literature. J Clin Immunol 128. Park EJ, Peixoto A, Imai Y, et al: Distinct roles for LFA-1 affinity
30(2):308–313, 2010. regulation during T-cell adhesion, diapedesis, and interstitial migration
107. Robert P, Canault M, Farnarier C, et al: A novel leukocyte adhesion in lymph nodes. Blood 115(8):1572–1581, 2010.
deficiency III variant: kindlin-3 deficiency results in integrin- and 129. Medoff BD, Seung E, Hong S, et al: CD11b+ myeloid cells are the key
nonintegrin-related defects in different steps of leukocyte adhesion. J mediators of Th2 cell homing into the airway in allergic inflammation.
Immunol 186(9):5273–5283, 2011. J Immunol 182(1):623–635, 2009.
108. Meves A, Stremmel C, Gottschalk K, et al: The Kindlin protein family: 130. Gorfu G, Rivera-Nieves J, Hoang S, et al: Beta7 integrin deficiency
new members to the club of focal adhesion proteins. Trends Cell Biol suppresses B cell homing and attenuates chronic ileitis in SAMP1/YitFc
19(10):504–513, 2009. mice. J Immunol 185(9):5561–5568, 2010.
109. Cyster JG: Chemokines, sphingosine-1-phosphate, and cell migration 131. Campbell DJ, Kim CH, Butcher EC: Chemokines in the systemic
in secondary lymphoid organs. Annu Rev Immunol 23:127–159, 2005. organization of immunity. Immunol Rev 195:58–71, 2003.
110. Worbs T, Forster R: T cell migration dynamics within lymph nodes 132. Stein JV, Soriano SF, M’Rini C, et al: CCR7-mediated physiological
during steady state: an overview of extracellular and intracellular factors lymphocyte homing involves activation of a tyrosine kinase pathway.
influencing the basal intranodal T cell motility. Curr Top Microbiol Blood 101(1):38–44, 2003.
Immunol 334:71–105, 2009. 133. Stein JV, Rot A, Luo Y, et al: The CC chemokine thymus-derived
111. Marelli-Berg FM, Cannella L, Dazzi F, et al: The highway code of T chemotactic agent 4 (TCA-4, secondary lymphoid tissue chemokine,
cell trafficking. J Pathol 214(2):179–189, 2008. 6Ckine, exodus-2) triggers lymphocyte function-associated antigen
112. Henrickson SE, von Andrian UH: Single-cell dynamics of T-cell 1-mediated arrest of rolling T lymphocytes in peripheral lymph node
priming. Curr Opin Immunol 19(3):249–258, 2007. high endothelial venules. J Exp Med 191(1):61–76, 2000.
113. Mempel TR, Junt T, von Andrian UH: Rulers over randomness: 134. Baekkevold ES, Yamanaka T, Palframan RT, et al: The CCR7 ligand
stroma cells guide lymphocyte migration in lymph nodes. Immunity ELC (CCL19) is transcytosed in high endothelial venules and mediates
25(6):867–869, 2006. T cell recruitment. J Exp Med 193(9):1105–1112, 2001.
114. Massberg S, von Andrian UH: Fingolimod and sphingosine-1- 135. Palframan RT, Jung S, Cheng G, et al: Inflammatory chemokine
phosphate–modifiers of lymphocyte migration. N Engl J Med transport and presentation in HEV: A remote control mechanism for
355(11):1088–1091, 2006. monocyte recruitment to lymph nodes in inflamed tissues. J Exp Med
115. Bonasio R, von Andrian UH: Generation, migration and function of 194(9):1361–1374, 2001.
circulating dendritic cells. Curr Opin Immunol 18(4):503–511, 2006. 136. Bao X, Moseman EA, Saito H, et al: Endothelial heparan sulfate
116. Villadangos JA, Young L: Antigen-presentation properties of plasmacy- controls chemokine presentation in recruitment of lymphocytes and
toid dendritic cells. Immunity 29(3):352–361, 2008. dendritic cells to lymph nodes. Immunity 33(5):817–829, 2010.
117. Randolph GJ, Angeli V, Swartz MA: Dendritic-cell trafficking to lymph 137. Warnock RA, Campbell JJ, Dorf ME, et al: The role of chemokines
nodes through lymphatic vessels. Nat Rev Immunol 5(8):617–628, in the microenvironmental control of T versus B cell arrest in
2005. Peyer’s patch high endothelial venules. J Exp Med 191(1):77–88,
118. Umemoto E, Hayasaka H, Bai Z, et al: Novel regulators of lympho- 2000.
cyte trafficking across high endothelial venules. Crit Rev Immunol 138. Forster R, Schubel A, Breitfeld D, et al: CCR7 coordinates the primary
31(2):147–169, 2011. immune response by establishing functional microenvironments in
119. Galkina E, Florey O, Zarbock A, et al: T lymphocyte rolling and secondary lymphoid organs. Cell 99(1):23–33, 1999.
recruitment into peripheral lymph nodes is regulated by a saturable 139. Gunn MD, Kyuwa S, Tam C, et al: Mice lacking expression of second-
density of L-selectin (CD62L). Eur J Immunol 37(5):1243–1253, ary lymphoid organ chemokine have defects in lymphocyte homing and
2007. dendritic cell localization. J Exp Med 189:451–460, 1999.
120. Halin C, Scimone ML, Bonasio R, et al: The S1P-analog FTY720 140. Okada T, Ngo VN, Ekland EH, et al: Chemokine requirements for B
differentially modulates T-cell homing via HEV: T-cell-expressed S1P1 cell entry to lymph nodes and Peyer’s patches. J Exp Med 196(1):65–75,
amplifies integrin activation in peripheral lymph nodes but not in Peyer 2002.
patches. Blood 106(4):1314–1322, 2005. 141. Ebisuno Y, Tanaka T, Kanemitsu N, et al: Cutting edge: the B cell
121. Gauguet JM, Rosen SD, Marth JD, et al: Core 2 branching chemokine CXC chemokine ligand 13/B lymphocyte chemoattractant
beta1,6-N-acetylglucosaminyltransferase and high endothelial cell is expressed in the high endothelial venules of lymph nodes and Peyer’s
N-acetylglucosamine-6-sulfotransferase exert differential control over patches and affects B cell trafficking across high endothelial venules. J
B- and T-lymphocyte homing to peripheral lymph nodes. Blood Immunol 171(4):1642–1646, 2003.
104(13):4104–4112, 2004. 142. Tang ML, Steeber DA, Zhang XQ, et al: Intrinsic differences in
122. Kannagi R, Ohmori K, Chen GY, et al: Sialylated and sulfated car- L-selectin expression levels affect T and B lymphocyte subset-specific
bohydrate ligands for selectins and siglecs: involvement in traffic and recirculation pathways. J Immunol 160(10):5113–5121, 1998.
