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MOLECULAR MECHANISMS BY WHICH c-ABL AND ARG MEDIATE MELANOMA INVASION AND METASTASISGanguly, Sourik S 01 January 2013 (has links)
Metastasis is one of the main causes of death in cancer patients. Metastatic melanoma is a death sentence, as chemotherapeutic agents have a 5% success rate or do not extend survival beyond 10 months. The lack of effective chemotherapeutic agents for treating metastatic melanoma indicates a dire need to identify new drug targets and develop new therapies. Our lab has previously shown that the kinase activity of Abelson family of non-receptor tyrosine kinases (c-Abl and Arg) is elevated in invasive breast cancer cell lines as compared to non-invasive cell lines. Previous studies from our lab have shown that Abl kinases are convergent point of ErbB2 and Src Kinases in melanoma cells and Abl kinases promote invasion by an undefined mechanism. Although Abl kinases promote invasion, it is not known whether they are important for metastastic potential. For the first time, we report that Abl kinases promote melanoma cell proliferation, survival, matrigel-invasion and single-cell 3D invasion. To investigate the mechanism by which Abl kinases promote invasion, we found out that active c-Abl transcriptionally upregulates MMP-1, and using rescue approaches we show that c-Abl promotes invasion via a STAT3àMMP-1 pathway. In contrast, active Arg drives invasion in a STAT3-independent manner, and upregulates the expression of MMP-3 and MT1-MMP, in addition to MMP-1. We also found that Abl kinases promote invasion via lysosomal degradation of a metastasis suppressor, NM23-H1 by activating lysosomal cathepsins B and L, which directly cleave and degrade NM23-H1. Furthermore, c-Abl and Arg are activated in primary melanomas and cAbl/Arg activity is inversely correlated with NM23-H1 expression both in primary melanoma and human melanoma cells. We also demonstrate, for the first time that active Abl kinases promote metastasis in vivo, as inhibition of c-Abl/Arg with nilotinib, dramatically inhibits lung colonization/metastasis in a mouse model using two different melanoma cell lines. In summary, we identify Abl kinases as critical, novel, drug targets in metastatic melanoma, and our data indicate that nilotinib may be useful in preventing metastasis in a select group of patients, harboring active Abl kinases.
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Role of the Abelson Tyrosine Kinases in Regulating Macrophage Functions in Immunity and CancerGreuber, Emileigh January 2013 (has links)
<p>The Abl family of protein tyrosine kinases regulates diverse cellular processes by coordinating cytoskeletal rearrangements. Recent data indicate that pharmacological inhibition of Abl kinases reduces inflammation in preclinical models and in the clinic. While a previous role for Abl kinases in lymphocytes had been described, it remained unclear if Abl kinases regulate innate immune function. To explore this possibility, we generated a myeloid-specific conditional Abl knockout mouse. Using a combination of molecular, genetic, and pharmacological approaches, we demonstrate a role for Abl kinases in regulating the efficiency of macrophage phagocytosis and inflammatory responses. Bone marrow-derived macrophages from mice lacking Abl and Arg kinases exhibit inefficient phagocytosis of sheep erythrocytes and zymosan particles. Treatment with the Abl kinase inhibitors imatinib and GNF-2 or overexpression of kinase-inactive forms of the Abl family kinases also impairs particle internalization in murine macrophages, indicating Abl kinase activity is required for efficient phagocytosis. Further, Abl kinases are present at the phagocytic cup and are activated by Fcgamma receptor engagement. The regulation of phagocytosis by Abl family kinases is mediated in part by the Syk kinase. Loss of Abl and Arg expression or treatment with Abl inhibitors reduced Syk phosphorylation in response to Fcgamma receptor ligation. The link between Abl family kinases and Syk may be direct as purified Arg kinase phosphorylates Syk in vitro. Further, overexpression of membrane-targeted Syk in cells treated with Abl kinase inhibitors partially rescues the impairment in phagocytosis.</p><p>Our studies also revealed a role for Abl kinases in macrophage and cancer cell invasion. Inhibition of Abl kinases suppressed cell invasion in vitro, whereas overexpression of Abl kinases enhanced extracellular matrix degradation. We found that partial loss of Abl kinase expression in myeloid cells reduced macrophage infiltration into tumors in a mouse model of breast cancer. Furthermore, pharmacological inhibition of Abl kinases reduced myeloid cell infiltration and slowed tumor growth in subcutaneous tumor models. We also found that Abl expression and activity are elevated in subsets of human tumor samples. Taken together, our results suggest Abl kinases have an important role in cancer and inflammation, and represent important therapeutic targets for their treatment.</p> / Dissertation
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