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International Journal of Hyperthermia Volume 19, 2003 - Issue 5
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Research Article

Thermal regulation of dendritic cell activation and migration from skin explants

J. R. Ostberg Department of Immunology Roswell Park Cancer Institute Elm and Carlton Streets Buffalo NY 14263 USA
,
E. Kabingu Department of Immunology Roswell Park Cancer Institute Elm and Carlton Streets Buffalo NY 14263 USA
&
E. A. Repasky Department of Immunology Roswell Park Cancer Institute Elm and Carlton Streets Buffalo NY 14263 USA
Pages 520-533 | Published online: 09 Jul 2009

  • Maurer D, Sting] G. Dendritic cells in the context of skin immunity. In: Lotze MT, Thomson AW, eds. Dendritic Cells. New York: Academic Press, 1999; 111-22.
  • Ostberg JR, Patel R, Repasky EA. Regulation of immune activity by mild (fever-range) whole body hyperthermia: effects on epidermal Langerhans cells. Cell Stress Chaperones 2000; 5: 458-61.
  • Ostberg JR, Gellin C, Patel R, Repasky EA. Regulatory potential of fever-range whole body hyperthermia on Langerhans cells and lymphocytes in an antigen-dependent cellular immune response. J Immunol 2001; 167: 2666-70.
  • Kluger MJ, Kozak W, Conn CA, Leon LR, Soszynski D. The adaptive value of fever. Infect Dis Clin N Am 1996; 10: 1-20.
  • Myhre K, Cabanac M, Myhre G. Fever and behavioural temperature regulation in the frog Rana esculenta. Acta Phys Scand 1977; 101: 219-29.
  • Covert JB, Reynolds WW. Survival value of fever in fish. Nature 1977; 267: 43-5.
  • Kluger MJ, Ringler DH, Anver MR. Fever and survival. Science 1975; 188: 166-8.
  • Jiang Q, Cross AS, Singh IS, Chen TT, Viscardi RM, Hasday JD. Febrile core temperature is essential for optimal host defense in bacterial peritonitis. Infect Imm 2000; 68: 1265-70.
  • Larsen CP, Steinman RM, Witmer-Pack M, Hankins DF, Morris PJ, Austyn JM. Migration and maturation of Langerhans cells in skin transplants and expiants. / Exp Med 1990; 172: 1483-93.
  • Witsell AL, Schook LB. Clonal analysis of gene expression by PCR. BioTechniques 1990; 9: 318-22.
  • Saeki H, Moore AM, Brown MJ, Hwang ST. Cutting edge: secondary lymphoid-tissue chemokine (SLC) and CC chemokine receptor 7 (CCR7) participate in the emigration pathway of mature dendritic cells from the skin to regional lymph nodes. J Immunol 1999; 162: 2472-5.
  • Repasky EA, Symer DE, Bankert RB. Spectrin immunofluorescence distinguishes a population of naturally capped lymphocytes in situ. J Cell Biol 1984; 99: 350-5.
  • Wang B, Amerio P, Sauder DN. Role of cytokines in epidermal Langerhans cell migration. J Leuk Biol 1999; 66: 33-9.
  • Banchereau J, Briere F, Caux C, Davoust J, Lebecque S, Liu Y-J, Pulendran B, Palucka K. Immunobiology of dendritic cells. Anna Rev Immunol 2000; 18: 767-811.
  • Rambukkana A, Pistoor FHM, Bos JD, Kapsenberg ML, Das PK. Effects of contact allergens on human langerhans cells in skin organ culture: migration, modulation of cell surface molecules, and early expression of interleukin-1b protein. Lab Invest 1996; 74: 422-36.
  • Di YP, Repasky EA, Subjeck JR. Distribution of HSP70, protein kinase C, and spectrin is altered in lymphocytes during a fever-like hyperthermia exposure. J Cell Biol 1997; 172: 44-54.
  • Ostberg JR, Kaplan KC, Repasky EA. Induction of stress proteins in a panel of mouse tissues by fever-range whole body hyperthermia. Int J Hyperthermia 2002; 18: 552-62.
  • Rosenberg HF, Gallin JI. Inflammation. In: Paul WE, ed. Fundamental Immunology, 4th edn. Philadelphia: Lippincott-Raven Publishers, 1999; 1051-66.
  • Hasday JD, Fairchild KD, Shanholtz C. The role of fever in the infected host. Microbes Infect 2000; 2: 1891-904.
  • Leung SM, Senisterra G, Ritchie KP, Sadis SE, Lepock JR, Hightower LE. Thermal activation of the bovine Hsc70 molecular chaperone at physiological temperatures: physical evidence of a molecular thermometer. Cell Stress Chaperones 1996; 1: 78-89.
  • Przepiorka D, Srivastava PK. Heat shock protein-peptide complexes as immunotherapy for human cancer. MoI Med Today 1998; 4: 478-84.
  • Singh-Jasuja H, Hilf N, Arnold-Schild D, Schild H. The role of heat shock proteins and their receptors in the activation of the immune system. Biol Chem 2001; 382: 629-36.
  • Asea A, Kraeft S-K, Kurt-Jones EA, Stevenson MA, Chen LB, Finberg RW, Koo GC, Calderwood SK. HSP70 stimulates cytokine production through a CD14-dependent pathway, demonstrating its dual role as a chaperone and cytokine. Nature Med 2000; 6: 43542.
  • Multhoff G, Botzler C, Issels R. The role of heat shock proteins in the stimulation of an immune response. Biol Chem 1998; 379: 295-300.
  • Lipsker D, Ziylan U, Spehner D, Proamer F, Bausinger H, Jeannin P, Salamero J, Bohbot A, Cazenare JP, Drillien R, Delneste Y, Hanau D, de la Salle H. Heat shock proteins 70 and 60 share common receptors which are expressed on human monocyte-derived but not epidermal dendritic cells. Eur J Immunol 2002; 32: 322-32.
  • Malhotra V, Eaves-Pyles T, Odoms K, Quaid G, Shanley TP, Wong HR. Heat shock inhibits activation of NF-kappaB in the absence of heat shock factor-1. Biochem Biophys Res Comm 2002; 291: 453-7.
  • Perez-Diez A, Marincola FM. Immunotherapy against antigenic tumors: a game with a lot of players. Cell MoI Life Sd 2002; 59: 230-40.
  • Schijns VE. Induction and direction of immune responses by vaccine adjuvants. CnY Rev Immunol 2001; 21: 75-85.
  • Kraybill WG, Olenki T, Evans SS, Ostberg JR, O'Leary KA, Gibbs J, Repasky EA. A phase I study of fever-range whole body hyperthermia (FR-WBH) in patients with advanced solid tumors: correlation with mouse models. Int J Hyperthermia 2002; 18: 25366.
  • Ostberg JR, Repasky EA. Comparison of the effects of two different whole body hypothermia protocols on the distribution of murine leukocyte populations. Int J Hyperthermia 2000; 16: 29-43.
  • Hughes CS, Repasky EA, Bankert RB, Johnson RJ, Subjeck JR. Effects of hyperthermia on spectrin expression patterns of murine lymphocytes. Radiat Res 1987; 112: 116-23.
  • Wang XY, Ostberg JR, Repasky EA. Effect of fever-like whole-body hyperthermia on lymphocyte spectrin distribution, protein kinase C activity, and uropod formation. J Immunol 1999; 162: 3378-87.
  • Wang WC, Goldman LM, Schleider DM, Appenheimer MM, Subjeck JR, Repasky EA, Evans SS. Fever-range hyperthermia enhances L-selectin-dependent adhesion of lymphocytes to vascular endothelium. J Immunol 1998; 160: 961-9.
  • Evans SS, Wang W-C, Bain MD, Burd R, Ostberg JR, Repasky EA. Fever-range hyperthermia dynamically regulates lymphocyte delivery to high endothelial venules. Blood 2001; 97: 2727-32.
  • Burd R, Dziedzic TS, Xu Y, Caligiuri MA, Subjeck JR, Repasky EA. Tumor cell apoptosis, lymphocyte recruitment and tumor vascular changes are induced by low temperature, long duration (fever-like) whole body hyperthermia. / Cell Physiol 1998; 177: 13747.

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