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Structural and functional analysis of chemokine interactions with glycosaminoglycans and chemokine receptors
Abstract
Chemokines are involved in cell migration and activation during routine immune surveillance, inflammation and even cancer metastasis. The migration of chemokine receptor- bearing cells, including leukocytes and tumor cells, occurs in response to the secretion of chemokines, which accumulate on cell surfaces through interaction with glycosaminoglycans (GAGs) where they effectively serve as traffic signals to guide cell movement. Engagement of chemokines with their receptors subsequently causes the activation of signaling pathways that result in firm adhesion and extravasation of the cell into tissue, and in the case of leukocytes, activation of defense mechanisms. However, in cancer cells, the signaling pathways can be exploited or redirected, resulting in responses like survival, growth and proliferation. Herein, a structural and functional approach was used to address specific questions about the interactions of chemokines (i) with GAGs and (ii) with chemokine receptors in the context of cancer. Technically, the use of mass spectrometry has been a strong theme throughout these studies. In Chapter 2, a novel application of hydroxyl radical footprinting coupled with mass spectrometry was used to characterize the GAG binding specificity of the chemokine, MCP-3/CCL7. Potential GAG binding epitopes, identified by mass spectrometry, were then validated by mutagenesis and functional assays. In Chapter 3 and 4, a phosphoproteomic mass spectrometry strategy was used to elucidate CXCL12- mediated survival signaling through the receptor, CXCR4, in cells from patients with chronic lymphocytic leukemia (CLL). While signaling cascades involved in chemokine- mediated migration are well established, pathways involved in cell survival and proliferation in cancer, are not. Methods developed for phosphopeptide enrichment, and subsequent analysis via mass spectrometry are described in Chapter 3, and interesting/novel phosphoproteins, potentially involved in CXCL12-mediated CLL survival are described in Chapter 4. In Chapter 5, a functional approach was taken to elucidate the roles of receptors CXCR4 and CXCR7 in breast cancer growth and metastasis. The data show that CXCR7 affects the functional activity of CXCR4 in vitro, and decreases the extent of lung metastases in vivo, without inhibiting primary tumor growth. Overall, these studies serve to better understand some of the regulatory mechanisms that control chemokine function in normal physiology and in cancer
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