2016 — 2018 |
Imam, Farhad Bryan |
K08Activity Code Description: To provide the opportunity for promising medical scientists with demonstrated aptitude to develop into independent investigators, or for faculty members to pursue research aspects of categorical areas applicable to the awarding unit, and aid in filling the academic faculty gap in these shortage areas within health profession's institutions of the country. |
Mechanistic Insights Into Hypoxic Preconditioning Using Genetic and Genomic Approaches in Zebrafish @ University of California San Diego
? DESCRIPTION (provided by applicant): Dr. Imam has pursued his dual career interests in the hospital and the laboratory via the NIH Medical Scientist Training Program (MSTP) and Accelerated Research Pathway fellowship in Neonatology. His graduate training included model organism genetics, molecular and developmental biology, and genomics, and his subsequent medical training in the neonatal intensive care unit introduced him to acutely ill premature and term newborn infants. Many of these infants were exposed to environmental perturbations as part of their disease process, such as low oxygen levels causing injury during a critical time of organogenesis and contributing to cerebral palsy, seizure disorders, and cardiac failure. These pathological changes in oxygen and other physiologic factors cause metabolic and cellular stress to the developing brain and heart that disrupt normal function and organ formation. Accordingly, Dr. Imam decided to focus his studies on the problem of hypoxia-induced cellular injury as a means to better understand how cells in the brain and heart become injured, with the ultimate hope of being able to diminish or prevent the end-organ damage from hypoxic stress. Inspired by the desire to improve developmental outcomes for prematurely born infants, Dr. Imam has established and published a robust model to study the protective phenomenon of hypoxic preconditioning. In this zebrafish model, embryos that are exposed to mild or moderate hypoxia are able to recover to a transient protected state during which they can withstand severe hypoxia exposures that would be overwhelmingly lethal for naïve embryos. His unique proposal takes advantage of the novel zebrafish system he has developed, including the mutants he has generated in the discovered hypoxia resistance genes. The multitude of cell biological, genetic, and epigenetic tools available for Dr. Imam's zebrafish model empowers his system with a wealth of approaches to determine the biological mechanism of this transient, yet robustly resilient state. Ultimately, Dr. Imam's goal is to translate his discoveries in model organisms into specific therapies that could activate the hypoxic preconditioning response and thereby protect premature infants or adult patients at risk for hypoxia/ischemia against injury to the brain, heart, or other organs. This K08 Award would provide Dr. Imam with the support necessary to pursue the protective mechanisms of the novel hypoxia-protective genes he has discovered with the purpose of moving us closer to new therapies for severe and devastating diseases such as cerebral palsy, stroke and heart attack.
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