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Mechanisms of Chemotherapy Induced Cognitive Defects

$175,068K08FY2013NSNIH

University Of California-Irvine, Irvine CA

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Abstract

DESCRIPTION (provided by applicant): This application is focused on the study of the mechanisms by which chemotherapeutic drugs impact the cognitive function of cancer patients. Millions of people are diagnosed with cancer every year, and more than 60% of these now survive for 20 years, with severely diminished quality of life due to treatment-induced cognitive impairments. I am a fully trained neuro-oncologist, with a solid background in the lab, where I studied both mitochondrial and brain tumor biology. Over the past years, I recognized the importance of chemotherapy- induced cognitive defects and became passionate about finding the biological explanations for this major pathology. A. The specific aims of this proposal will focus on two DNA-targeting compounds that are widely used in oncology - cisplatin and temozolomide; we aim to explore the mechanisms by which these drugs provoke learning and memory defects. The ultimate goal of these studies would be to prevent or counteract these adverse effects. Aim 1) To determine the relative vulnerability of neural progenitor cells and mature neurons to clinically-relevant doses of cisplatin and temozolomide, using in vitro systems. Aim 2) To determine the mechanism by which cisplatin and temozolomide injure neuronal cell populations, testing if these mechanisms involve mitochondrial dysfunction. Aim 3) To examine the effects of acute and chronic graded cisplatin and temozolomide doses on vulnerable neuronal populations in vivo, and to study the role of this cellular injury in learning and memory defects. Aim 4) To examine if chemotherapy-induced cognitive deficits can be ameliorated by an intervention that augments neurogenesis and dendritic spine growth / stability, i.e., BDNF enhancement using ampakines. B. My career plan is to conduct the research proposed in the nurturing environment offered by the University of California, Irvine. This includes my mentor, an internationally known neuroscientist/clinician (Prof. Tallie Z. Baram), my co-mentor, an international leader in oncology (Prof. Frank Meyskens), my supportive chair and dean, protected research time, and excellent collaboration from my clinical colleagues. My immediate career goal is to immerse myself in cutting-edge neuroscience that will facilitate my understanding of the mechanisms by which cancer treatments impact the brain. This will be accomplished via basic neuroscience courses, hands-on methods, lab meetings, national meetings and intensive self-study. My long-term goals are to assume a senior role in my lab, acquire the skills necessary for productive publications, enlarge my research group, apply successfully for R01 funding and receive tenure. Finally, I want to enhance my involvement in the neuroscience community and to generate an independent, creative, translational research program. In summary, my goal is to develop cutting-edge bench-to bedside research focused on the biological mechanisms underlying the prominent cognitive deficits caused by chemotherapy, and to reverse this process. This grant will provide me with the necessary funding and mentorship to become a successful, independent researcher.

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