Jeremy B. Tuttle

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Primary Appointment

Professor, Neuroscience

Education

  • BA, Biology, University of Rochester
  • PhD, Physiology, John Hopkins University
  • Postdoc, Neurobiology, University of Connecticut

Research Disciplines

Biotechnology, Molecular Pharmacology, Neuroscience

Research Interests

Neurodegenerative and Aging Dysfunction at the Cellular Level

Research Description

Trophic interactions and factors are necessary for the survival and normal function of both synaptic partners in all systems, whether they are nerve-nerve or nerve-muscle. However, knowledge of the cellular regulation of synthesis of trophic factors is sparse and an understanding of their role in aging or disease is limited. One area of research involves testing the impact of commonly used anticholinergic drugs upon neurotrophin and amyloid-beta metabolism in transgenic and cellular models of Alzheimer disease. A second area of research involves the regulation of the micturition circuits and the role of neurotrophic factors in urological disease. This work is conducted with the Department of Urology and uses whole animal behavior, cell culture and electrophysiological approaches. Funding has been from the National Institutes of Health (National Institute of Diabetes and Digestive and Kidney Diseases, National Institute of Neurological Diseases and Stroke, National Institute on Aging), private foundations and by cooperative agreements with industry.

Personal Statement

Trophic interactions and factors are necessary for the survival and normal function of both synaptic partners in all systems, whether they are nerve-nerve or nerve-muscle. However, knowledge of the cellular regulation of synthesis of trophic factors is sparse and an understanding of their role in aging or disease is limited. One area of research involves testing the impact of commonly used anticholinergic drugs upon neurotrophin and amyloid-beta metabolism in transgenic and cellular models of Alzheimer disease. A second area of research involves the regulation of the micturition circuits and the role of neurotrophic factors in urological disease. This work is conducted with the Department of Urology and uses whole animal behavior, cell culture and electrophysiological approaches. Funding has been from the National Institutes of Health (National Institute of Diabetes and Digestive and Kidney Diseases, National Institute of Neurological Diseases and Stroke, National Institute on Aging), private foundations and by cooperative agreements with industry.

Selected Publications

Onyango IG, Ahn JY, Tuttle JB, Bennett JP, Swerdlow RH, Nerve growth factor attenuates oxidant-induced β-amyloid neurotoxicity in sporadic Alzheimer's disease cybrids., 2010; Journal of neurochemistry. 114(6) 1605-18. PMID: 20561151

Lee KC, Sharma S, Tuttle JB, Steers WD, Origin and characterization of retrograde labeled neurons supplying the rat urethra using fiberoptic confocal fluorescent microscopy in vivo and immunohistochemistry., 2010; The Journal of urology. 184(4) 1550-4. PMID: 20728104

Tuttle JB, Steers WD, Fiberoptic imaging for urologic surgery., 2009; Current urology reports. 10(1) 60-4. PMID: 19116097

Klausner AP, Sharma S, Fletcher S, Neff P, Yang SK, Son H, Tuttle JB, Steers WD, Does oxybutynin alter plaques, amyloid beta peptides and behavior in a mouse model of Alzheimer's disease?, 2008; The Journal of urology. 179(3) 1173-7. PMID: 18206173

Lysiak JJ, Yang SK, Klausner AP, Son H, Tuttle JB, Steers WD, Tadalafil increases Akt and extracellular signal-regulated kinase 1/2 activation, and prevents apoptotic cell death in the penis following denervation., 2007; The Journal of urology. 179(2) 779-85. PMID: 18082193

Boyette LB, Reardon MA, Mirelman AJ, Kirkley TD, Lysiak JJ, Tuttle JB, Steers WD, Fiberoptic imaging of cavernous nerves in vivo., 2007; The Journal of urology. 178(6) 2694-700. PMID: 17945279