This is a Senior Scientist Award proposal for Dr. Glen R. Hanson. Dr. Hanson is a tenured professor in the Department of Pharmacology and Toxicology at the University of Utah. He has been active in drug abuse research for over 15 years and has made important contributions to elucidating: (a) the role of dopamine systems in neurotoxicity caused by amphetamine analogs; (b) the role of reactive oxygen species in mediating monoaminergic changes caused by amphetamine analogs; (c) the influence of the stimulants of abuse on neuropeptide systems; (d) the role of dopamine receptor subtypes in the regulation of extrapyrarnidal and limbic neuropeptide systems. Dr. Hanson currently devotes 40-50% of his time to research and student mentoring while 50-60% of his effort is occupied by teaching, departmental and college responsibilities. This Senior Scientist Award will allow Dr. Hanson to increase his research effort to approximately 80%. During the time of support by this award, he will direct research which tests the following principal hypotheses: (a) the generation of dopamine-related reactive oxygen species is a major contributor to the neurochemical deficits occurring in the striatal monoaminergic systems after high doses of methamphetamine (METH); (b) methcathinone, a relatively new designer amphetamine, exerts profound short-and long-term effects on extrapyramidal and limbic monoaminergic systems and has significant neurotoxic potential; (c) METH acutely and selectively alters the nature and function of the dopamine transporter in a reversible manner; (d) low and high doses of METH preferentially influence the indirect (striatal-pallidal) and direct (striatal-nigral) efferent pathways to the basal ganglia output nuclei, respectively; (e) changes in neuropeptide systems occur in humans exposed to the potent stimulants of abuse much like that observed in rats after treatment with these same drugs. The increase in research time resulting from a Senior Scientist Award will allow Dr. Hanson to develop expertise in technologies new to his laboratory required to test these hypotheses, such as: (a) free radical analysis; (b) transporter function and ligand assays; (c) in situ hybridization for neuropeptide precursor mRNA. This award will help Dr. Hanson to mentor more effectively inexperienced researchers at the undergraduate, graduate, postdoctoral and young faculty levels as these developing scientists mature and establish themselves in neuroscience research in general, and drug abuse research in particular. In addition, as a mentor Dr. Hanson will be especially supportive of the involvement of underrepresented minorities in drug abuse research.
Showing the most recent 10 out of 38 publications