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Evans, Sharon S. PhD
Department of Immunology
Roswell Park Cancer Institute
Elm and Carlton Streets
Buffalo, New York USA 14263
Tel: 716-845-3421
Fax: 716-845-1322
E-mail: sharon.evans@roswellpark.org
Lab Website: www.roswellpark.org/evans_lab
Program: Molecular Mechanisms Controlling Lymphocyte Trafficking
The process of lymphocyte trafficking across blood vessel walls represents a critical checkpoint in the development of a fine-tuned adaptive immune response. The major focus of our laboratory has been to define the molecular mechanisms that control the trafficking patterns of lymphocytes throughout the body, with an aim toward developing novel therapeutic strategies to enhance the effectiveness of cancer immunotherapy. To this end, we have investigated the thermal element of fever as a model of acute inflammation. These studies revealed that fever-range thermal stress (38-40°C) has a profound influence on the delivery of blood-borne lymphocytes to lymphoid organs that are the powerhouse of the immune system. The thermal response was found to be unexpectedly integrated, invoking independent activities in lymphocytes and in vascular endothelium. Moreover, we have shown that multiple trafficking molecules (L-selectin, α4β7 integrin, CCL21, ICAM-1) are targeted by febrile temperatures to heighten immune surveillance of peripheral lymphoid organs.
Recent studies by our group have identified a novel role for the proinflammatory cytokine, interleukin-6 (IL-6), in mediating thermal effects on lymphocyte homing. We have shown that this process involves a trans-signaling mechanism in which the gp130 signal transduction molecule is dually engaged by IL-6 and a soluble form of the IL-6 receptor. This signaling nexus targets discrete events in the multistep adhesion cascade that governs lymphocyte entry into tissues. Collectively, the picture to emerge is that the thermal element of fever acts as a rheostat to mobilize trafficking of lymphocytes to physiologically relevant sites. Understanding of the dynamics of lymphocyte trafficking during acute inflammation has provided clues regarding impediments to lymphocyte entry across vascular gateways in the tumor microenvironment. We are presently exploring new avenues to modify the adhesive landscape of tumor vessels in order to improve the access of cytolytic effector T cells to tumor cell targets in situ.
Some of our current directions are:
- To define the IL-6 signal transduction pathways that propel lymphocyte migration across vascular endothelial barriers.
- To identify the cellular sources of the IL-6 and soluble IL-6 receptor that drive IL-6 trans-signaling in response to thermal stress.
- To investigate the mechanisms responsible for restoring homeostatic trafficking of lymphocytes during the resolution phase of inflammation.
- To develop trafficking-based strategies to improve cancer immunity and immunotherapy.
Selected Publications
- Appenheimer, MM, RA Girard, Q Chen, WC Wang, KC Bankert, J Hardison, MD Bain, F Ridgley, EJ Sarcione, S Buitrago, S Kothlow, B Kaspers, J Robert, S Rose-John, H Baumann, and SS Evans. Conservation of IL-6 trans-signaling mechanisms controlling L-selectin adhesion by fever-range thermal stress. Eur. J. Immunol. 37: 2856-67, 2007.
- Chen, Q, DT Fisher, KA Clancy, JM Gauguet, WC Wang, E Unger, S Rose-John, UH von Andrian, H Baumann, and SS Evans. Fever-range thermal stress promotes lymphocyte trafficking across high endothelial venules via an IL-6 trans-signaling mechanism. Nature Immunol, 7: 1299-1308, 2006.
- Chen, Q, DT Fisher, SA Kucinska, WC Wang, and SS Evans. Dynamic control of lymphocyte trafficking by fever-range thermal stress. Cancer Immunol. Immunother. 55: 299-311, 2006.
- Chen, Q, WC Wang, R Bruce, H Li, DM Schleider, MJ Mulbury, MD Bain, PK Wallace, H Baumann, and SS Evans. Central role of IL-6 receptor signal-transducing chain gp130 in activation of L-selectin adhesion by fever-range thermal stress. Immunity 20:59-70. 2004.
- Evans, SS, WC Wang, MD Bain, R Burd, JR Ostberg, and EA Repasky. Fever-range hyperthermia dynamically regulates lymphocyte delivery to high endothelial venules. Blood 97: 2727-33, 2001.
Please select the link to the left to view a selected list of Dr. Evans' publications, or you can visit this link for a complete list through PubMed.
