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ABSTRACT: Cancer cell resistance to chemotherapy may be mediated by defects in apoptotic pathways. A prior study showed that in vivo apoptosis of Acute Lymphoblastic Leukemia (ALL) blasts in response to chemotherapy could occur through diverse pathways including both p53-dependent and -independent mechanisms. In this study we investigated the apoptotic response in more detail by using a panel of ALL cell lines that differed in respect to p53 status. Upon exposure to a uniform stimulus, expression of apoptotic proteins, including the effector caspase-3, varied among ALL cell lines partly depending on p53 transcriptional activity and caspase-8 activation. Although the expression and contribution to apoptosis differed among known members of the apoptotic pathway, apoptosis was universally mediated by mitochondrial depolarization. The NFkappaB pathway was activated in response to chemotherapy but NFkappaB inhibition appeared to not influence chemosensitivity. This study further documents the highly variable nature of cell death programs in ALL and provides the foundation for cell death pathway modulation to improve ALL cure rates without increasing chemotherapy-related toxicity.
APOPTOSIS 12/2006; 11(11):1977-86. · 4.79 Impact Factor
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ABSTRACT: It has become increasingly evident that the generation of cell surface proteases including plasmin is fundamental to a wide variety of in vivo biological processes. Cell surface receptors allow for specific controlled proteolysis, provide protection from inhibitors, and enhance catalytic efficiency. Here we describe one such receptor, annexin II, which serves as a coreceptor for tissue plasminogen activator and plasminogen and is found on a wide variety of cell types including endothelial cells, some tumor cells, monocytes and macrophages, and neuronal cells. Evidence indicates that annexin II may be crucial to the efficient generation of cell surface plasmin, endothelial cell formation of new blood vessels, and maintenance of vascular patency. Additionally, it has been shown that annexin II expression in acute promyelocytic leukemia contributes to the bleeding diathesis seen in this disease and that inhibition of annexin II may be an important mechanism in the formation of atherosclerotic plaque. Furthermore, emerging evidence reveals the importance of annexin II on the surface of monocytes and macrophages, where it may contribute to the cells' ability to degrade extracellular matrix proteins and migrate to sites of injury or inflammation.
Annals of the New York Academy of Sciences 01/2006; 947(1):143 - 156. · 3.15 Impact Factor
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ABSTRACT: Monocytes and macrophages participate in a wide variety of host defense mechanisms. Annexin II, a fibrinolytic receptor, binds plasminogen and tissue plasminogen activator (t-PA) independently at the cell surface, thereby enhancing the catalytic efficiency of plasmin production. We demonstrated previously that annexin II on the surface of both cultured monocytoid cells and monocyte-derived macrophages promotes their ability to remodel extracellular matrix. Here, we demonstrate that human peripheral blood monocytes represent the major circulating annexin II-expressing cell. Annexin II supported t-PA-dependent generation of cell surface plasmin and the matrix-penetrating activity of human monocytes. Compared to polymorphonuclear leukocytes, monocytes supported a 12.9-fold greater rate of plasmin generation in the presence of exogenous t-PA, and this activity was largely attributable to annexin II. Likewise, anti-annexin II IgG directed against the t-PA-binding tail domain inhibited plasminogen-dependent, cytokine-directed monocyte migration through extracellular matrix. On differentiation of monocytes to macrophages, there was a 2.4-fold increase in annexin II-specific mRNA, and a 7.9-fold increase in surface annexin II. Thioglycolate-elicited peritoneal macrophages, furthermore, displayed an additional 3.8-fold increase in annexin II surface expression compared with resident cells. Thus, annexin II-mediated assembly of plasminogen and t-PA on monocyte/macrophages contributes to plasmin generation, matrix remodeling, and directed migration.
Blood 02/2004; 103(1):317-24. · 9.90 Impact Factor
