Robert T. Ownbey

Breast cancer cell surface annexin II induces cell migration and neoangiogenesis via tPA dependent plasmin generation

Annexin II, an abundant phospholipids binding cell surface protein, binds tPA and functions as a regulator of fibrinolysis. Annexin II also mediates angiogenesis and enhances tumor growth and metastasis. However, the mechanism supporting this role is not known. Using human breast cancer model we show that invasive human breast cancer cells (MDA-MB231) synthesize annexin II and tissue plasminogen activator (tPA). In vitro both annexin II and tPA interacts which in turn convert zymogen plasminogen to reactive enzyme plasmin. Cell surface produced plasmin inhibited the migration of MDA-MB231 cells. Silencing of annexin II gene in MDA-MB231 cells abolished tPA binding therefore inhibited tPA dependent plasmin generation. These annexin II suppressed MDA-MB231 cells showed reduced motility. Immunohistochemical analysis of prediagnosed clinical specimens showed abundant secretion of tPA and expression of annexin II on the surface of invasive human breast cancer cells which correlates with neovascularization of the tumor. Taken together, these data indicate that annexin II may regulate localized plasmin generation in breast cancer. This may be an early event switching breast cancer from the prevascular phase to the vascular phase and thus contributing to aggressive cancer with the possibility of metastasis. The data provide a mechanism explaining the role of annexin II in breast cancer progression and suggest that annexin II may be an attractive target for therapeutic strategies aimed to inhibit angiogenesis and breast cancer.

Decreased cervical epithelial sensitivity to nonoxynol-9 (N-9) after four daily applications in a murine model of topical vaginal microbicide safety

BackgroundThe disappointing clinical failures of five topical vaginal microbicides have provided new insights into factors that impact microbicide safety and efficacy. Specifically, the greater risk for human immunodeficiency virus type 1 (HIV-1) acquisition associated with multiple uses of a nonoxynol-9 (N-9)-containing product has highlighted the importance of application frequency as a variable during pre-clinical microbicide development, particularly in animal model studies.MethodsTo evaluate an association between application frequency and N-9 toxicity, experiments were performed using a mouse model of cervicovaginal microbicide safety. In this model system, changes in cervical and vaginal epithelial integrity, cytokine release, and immune cell infiltration were assessed after single and multiple exposures to N-9.ResultsAfter the initial application of N-9 (aqueous, 1%), considerable damage to the cervical epithelium (but not the vaginal epithelium) was observed as early as 10 min post-exposure and up to 8 h post-exposure. Subsequent daily exposures (up to 4 days) were characterized by diminished cervical toxicity relative to single exposures of like duration. Levels of pro-inflammatory cytokines released into the cervicovaginal lumen and the degree of CD14-positive immune cell infiltration proximal to the cervical epithelium were also dependent on the number of N-9 exposures.ConclusionsRather than causing cumulative cervical epithelial damage, repeated applications of N-9 were characterized by decreased sensitivity to N-9-associated toxicity and lower levels of immune cell recruitment. These results provide new insights into the failure of N-9-based microbicides and illustrate the importance of considering multiple exposure protocols in pre-clinical microbicide development strategies.

Benefit of Radiotherapy in Extraskeletal Myxoid Chondrosarcoma: A Propensity Score Weighted Population-based Analysis of the SEER Database.

Objectives: Extraskeletal myxoid chondrosarcoma (EMC) is a rare malignancy for which the role of radiotherapy is not well-defined. We examine the effect of external beam radiotherapy (EBRT) on cancer-specific survival (CSS) for patients with localized EMC, in a propensity score weighted, population-based analysis. Materials and Methods: The Surveillance, Epidemiology, and End Results database (1973 to 2012) was queried for cases of localized EMC arising from soft connective tissues of the trunk and extremities treated with surgery and/or EBRT. Inverse probability treatment weighting was utilized, with survival analysis by weighted Cox regression and Kaplan-Meier analysis with log-rank testing. The primary endpoint was CSS. Results: One hundred seventy-two patients were identified, diagnosed from 2004 to 2012. Ninety-four percent and 32% of 156 assessable patients underwent surgery and EBRT, respectively. By inverse probability treatment weighting, balancing covariates of age group, sex, race, grade, T stage, N stage, receipt of surgery, and anatomic site, we observed CSS of 97% versus 85% and 94% versus 85% in patients receiving EBRT versus no EBRT, at 3 and 5 years, respectively, at median follow-up of 33 months, P=0.01. A trend toward an overall survival benefit associated with EBRT was noted, P=0.06. Further adjusting for type of resection performed, CSS benefit persisted, 97% versus 85% at 3 years and 94% versus 85% at 5 years, P=0.02, with trend toward an overall survival benefit, P=0.08. Conclusions: The receipt of EBRT is associated with a CSS benefit in localized EMC. Aggressive local therapy, including EBRT, should be considered in these patients.

Pancreatic mucinous cystic neoplasm in a transgender patient.

BackgroundCystic pancreatic lesions are increasingly more frequent detected clinical entities. Mucinous cystic neoplasm (MCN) is a hormone-related pancreatic tumor (HRTP) with a strong predominance in young and middle-aged females.Case presentationHere, we present the case of a 31-year-old surgically transgendered female-to-male patient with a history of alcoholic pancreatitis, on chronic testosterone therapy. He was found to have a pancreatic MCN and underwent distal pancreatectomy and splenectomy.ConclusionTo our knowledge, this is the first reported case of a transgender patient with a history of hormone replacement therapy (HRT) and pancreatic MCN. We consider possible mechanisms for the pathogenesis to explain this patient’s neoplasm.

Abstract 1303: Inhibition of human breast cancer cell (MDA-MB231) migration, neoangiogensis and tumor growth by selective disruption of annexin II function: in vitro and in vivo studies

Annexin II, an abundant phospholipid binding cell surface protein, binds tissue plasminogen activator (tPA) and functions as a regulator of fibrinolysis. Annexin II also mediates angiogenesis and enhances tumor growth and metastasis. However, the mechanism supporting this role is not known. Using a human breast cancer model we found that invasive human breast cancer cells (MDA-MB231) synthesize annexin II and tPA. Annexin II interacted with tPA in vitro leading to conversion of zymogen plasminogen to the reactive enzyme plasmin. Cell surface generated plasmin inhibited the migration of MDA-MB231 cells. Silencing of the annexin II gene in mDA-MB231 cells abolished tPA binding thereby inhibiting tPA dependent plasmin generation. Moreover these annexin II suppressed MDA-MB231 cells exhibited reduced motility. Immunohistochemical analysis of prediagnosed clinical specimens showed abundant secretion of tPA and expression of annexin II on the surface of invasive cancer cells which correlates with neovascularization of the tumor. Intravenous administration of the anti-annexin II antibody to mice bearing MDA-MB231 tumors significantly inhibited tumor growth possibly due to blocked neoangiogenic activity. Taken together, these data suggest that annexin II dependent plasmin generation may be an early event switching breast cancer from the prevascular phase to the vascular phase with the possibility of metastasis. Annexin II may be an attractive target for therapeutic strategies aimed to inhibit neoangiogenesis and breast cancer metastasis. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 1303.