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High-probability grants
According to our matching algorithm, Rita Nahta is the likely recipient of the following grants.
Years |
Recipients |
Code |
Title / Keywords |
Matching score |
2006 — 2010 |
Nahta, Rita |
K01Activity Code Description: For support of a scientist, committed to research, in need of both advanced research training and additional experience. |
Her-2/Igf-Ir Cross-Talk and Herceptin Resistance @ University of Texas Md Anderson Can Ctr
[unreadable] DESCRIPTION (provided by applicant): Dr. Rita Nahta's career goal is to become an independent researcher focused on the molecular mechanisms of drug resistance in breast cancer with a specific interest in targeted therapeutics and growth factor receptors. This K01 Award will assist her transition to a fully independent scientific investigator. The next year or two will be critical for polishing her molecular biology skills and developing new skills in the areas of nanotechnology and animal models under the mentorship of Drs. Francisco J. Esteva and Mien-Chie Hung. The M. D. Anderson Cancer Center offers an excellent collaborative environment for implementation of the proposed research plan. Drs. Esteva and Hung are highly regarded among the scientific community, and Dr. Nahta will benefit from their combined expertise in the areas of signal transduction, drug resistance, molecular therapeutics, cell cycle regulation and translational research. The Breast Cancer Translational Research Laboratory, which is directed by Dr. Esteva, is an integral component of the Breast Cancer Research Program directed by Dr. Hung. The stimulating intellectual and scientific environment of this program will greatly enhance Dr. Nahta's career development. Dr. Nahta's current research focus is on the molecular mechanisms of resistance to the HER-2-targeted antibody Herceptin. Using an in vitro model of Herceptin resistance that she developed, she observed the following: 1) HER-2 forms a unique heterodimer with IGF-IR in resistant cells. HER-2 in this complex is phosphorylated, suggesting cross-talk from IGF-IR to HER-2; 2) p27kip1, which lies downstream of both HER-2 and IGF-IR, is downregulated in resistant cells. Ectopic expression of p27kip1 restores Herceptin sensitivity. Based on these findings, the central hypothesis of this application is that Herceptin resistance is mediated by increased binding of HER-2 to IGFIR with subsequent degradation of p27kip1 in breast cancer cells. Our specific aims are to: 1) Characterize the interaction between HER-2 and IGF-IR; 2) Define the molecular mechanism by which HER-2/IGF-IR downregulates p27kip1; 3) Investigate HER-2/IGF-IR as a therapeutic target in vivo. We will use GST pulldown assays, nanotechnology, protein assays, PCR, siRNAtransfection, and in vivo mouse studies. Our studies will ultimately allow the identification of tumors most likely to respond to Herceptin, and will guide the development of more effective targeted therapies for HER-2-overexpressing breast cancer. [unreadable] [unreadable] [unreadable]
|
0.97 |
2012 — 2016 |
Nahta, Rita |
R01Activity Code Description: To support a discrete, specified, circumscribed project to be performed by the named investigator(s) in an area representing his or her specific interest and competencies. |
Mechanisms of Herceptin Resistance
DESCRIPTION (provided by applicant): The her2 gene is overexpressed in approximately 30% of metastatic breast cancers, and is associated with rapid disease progression and reduced overall survival. The median duration of response to the HER2-targeted drug Herceptin is less than one year, indicating that acquired drug resistance is a major clinical problem in the treatment of HER2-overexpressing metastatic breast cancer. The long-term goal of this application is to identify mechanisms and predictors of Herceptin resistance in order to improve the survival of patients with HER2-overexpressing breast cancer. Herceptin-resistant cells express reduced levels of the cyclin-dependent kinase (cdk) inhibitor p27 and show a unique receptor cross-talk between insulin-like growth factor-I receptor (IGF-IR), HER2, and HER3. Our central hypothesis is that the IGF-IR/HER2/HER3 complex activates downstream kinase signaling pathways that promote phosphorylation and degradation of p27, causing increased proliferation of HER2-overexpressing breast cancer cells. Using a particularly innovative multidisciplinary approach that combines nanotechnology, genetics, and pharmacology, we will determine (1) the mechanisms by which p27 is down- regulated in acquired Herceptin resistance, (2) the role of the IGF-IR/HER2/HER3 receptor complex in acquired Herceptin resistance, and (3) if IGF-IR, HER3, and FAK are in vivo targets for improving response to Herceptin. Access to multiple models of acquired Herceptin resistance and multiple patient tumor tissue sets places us in a unique position to discover novel therapeutic targets and markers of resistance. Ultimately, this study will benefit human health by identifying new molecular targets, novel drug combinations, and molecular markers of drug resistance in HER2-overexpressing breast cancer. Understanding the mechanisms leading to acquired Herceptin resistance will ultimately lead to refined therapeutic strategies and improved survival rates for patients with breast cancer. PUBLIC HEALTH RELEVANCE: Resistance to the HER2-targeted drug Herceptin is a major problem in the treatment of breast cancer. We will examine how IGF-IR and p27 regulation contribute to Herceptin resistance. The long-term goal of this application is to identify new drug targets and predictors of Herceptin resistance in order to improve the survival of patients with HER2-overexpressing breast cancer.
|
0.97 |