Publications
*indicates graduate students & **indicates undergraduate students
*Hunsberger, H.C., **Hickman, J.E., & Reed, M.N. Riluzole rescues alterations in rapid glutamate transients in the hippocampus of rTg4510 mice, Metabolic Brain Disease, [epub ahead of print].
Li, G., Ruan, L., Chen, R., Wang, R., Xie, X., Zhang, M., Chen, L., Yan, Q., Reed, M.N., Chen, J., Xu, Y., Pan, J., Huang, W. (2015). Synergistic antidepressant-like effect of ferulic acid in combination with piperine: involvement of monoaminergic system. Metabolic Brain disease, 30(6), 1505-14. [PDF here]
*Hunsberger, H.C., *Weitzner, D.S., *Rudy, C.C., **Hickman, J.E., **Libell, E.M., **Speer, R.R., Gerhardt, G.A., Reed, M.N. (2015). Riluzole rescues glutamate alterations, cognitive deficits, and tau pathology associated with P301L tau expression. Journal of Neurochemistry, 135(2), 381-94.
Editorial Highlight: Whitcom, D.J. & Molnar, E. Is riluzole a new drug for Alzheimer's disease? Journal of Neurochemistry, 135, 207-209.
Xu, Y., Pan, J., Sun, J., Ding, L., Ruan, L., Reed, M.N., Yu, X., Klabni, J., Lin, D., Li, J., Chen, L., Zhang, C., Zhang, H., & O'Donnell, J.M. (2015). Inhibition of phosphodiesterase 2 reverses impaired cognition and neuronal remodeling caused by chronic stress. Neurobiology of Aging, 36(2),955-70.
*Rudy, C.C., *Hunsberger, H.C., *Weitzner, D.S., & Reed, M.N. (2015). The role of the tripartite glutamatergic synapse in the pathophysiology of Alzheimer's disease. Aging & Disease, 6(2), 131–148.
*Weitzner, D.S., Engler-Chiurazzi, E.B., Kotilinek, L.A., Ashe, K.H., & Reed, M.N. (2015). Morris water maze test: Optimization for strain and testing environment. The Journal of Visualized Experiments (JoVE).
Liu, P., Reed, M.N., Kotilinek, L.A., Grant, M., Forster, C.L., Qiang, W., Shapiro, S.L., Reichl, J.H., Chiang, A., Jankowsky, J.L., Wilmot, C.M., Cleary, J.P., Zahs, K.R., & Ashe, K.H. (2015). Quaternary structure defines a large class of amyloid-β oligomers neutralized by sequestration. Cell Reports, 11, 1-12.
*Hunsberger, H.C., *Rudy, C.C., Batten, S.R., Gerhardt, G.A., & Reed, M.N. (2015). P301L tau expression affects glutamate release and clearance in the hippocampal trisynaptic pathway. Journal of Neurochemistry, 32(2), 169-82.
Newland, M.C., Reed, M.N., & Rasmussen, E. (2015). A hypothesis about how early developmental methylmercury exposure disrupts behavior in adulthood. Behavioural Processes, 114, 41-51.
*Petrone, A.B., *Rudy, C.C., Barr, T.L., Simpkins, J.W., & Reed, M.N. (2015). Neuroprotective effects of estrogen following neural injury. In: Estrogen effects on TBI: Mechanisms of neuroprotection and repair. Ed: K.A. Duncan. Elsevier Inc. Pgs. 91-111.
*Hunsberger, H.C., *Rudy, C.C., *Weitzner, D.S., Zhang, C., *Tosto, D.E., **Knowlan, K., Xu, Y., & Reed, M.N. (2014). Effect size of memory deficits in mice with adult-onset P301L tau expression. Behavioural Brain Research, 6(272C), 181-195.
**Povroznik, J.M., *Rudy, C.C., *Hunsberger, H.C., *Tosto, D.E., & Reed, M.N. (2014). Effects of an α5GABAA inverse agonist on MK-801-induced learning deficits in an incremental repeated acquisition task. Behavioural Pharmacology, 25, 331-335.
Reed, M.N., *Doll, D., Simpkins, J.W., & Barr, T. (2014). Aging & stroke: The human condition. Proceedings Nestle Purina Companion Animal Nutrition Summit: Nutrition for Life. March 27-29, 2014, Austin, Texas.
*Petrone, A.B., Gatson, J.W., Simpkins, J.W., & Reed, M.N. (2014). Non-feminizing estrogens: a novel neuroprotective therapy. Molecular & Cellular Endocrinology, 389, 40-47.
Klyubin, I., Wang, Q., Reed, M.N., Irving, E.A., Upton, N., Hofmeister, J., Cleary, J.P., Anwyl, R., & Rowan, M.J. (2011). Protection against Abeta-mediated rapid disruption of synaptic plasticity and memory by Memantine. Neurobiology of Aging, 32, 614-23.
Reed, M.N., Hofmeister, J.J., Jungbauer, L., Welzel, A.T., Yu, C., Lesne, S., LaDu, M.J., Walsh, D.M., Ashe, K.H., & Cleary, J.P. (2011). Cognitive effects of cell-derived and synthetically-derived Aβ oligomers. Neurobiology of Aging, 32, 1784-94.
Hoover, B.R.#, Reed, M.N.#, Su, J., Kotilinek, K., Penrod, R.D., Pitstick, R., Carlson, G.A., Lanier, L.M., Yuan, L., Ashe, K.H., & Liao, D. (2010). Tau mislocalization to dendritic spines mediates synaptic dysfunction independently of neurodegeneration. Neuron, 68, 1-15. #Authors contributed equally.
Reed, M.N., Kotilinek, L.A., & Ashe, K.H. (2010). Effect size of Morris water maze deficits inTg2576 mice. Behavioural Brain Research, 212, 115-120.
Heath, J.C., Reed, M.N., Banna, K.M., Pesek, E.F., Cole, N., Li, J., & Newland, M.C. (2010). Dietary selenium protects against selected signs of methylmercury exposure and aging. Neurotoxicology, 31, 169-179.
Newland, M.C., Paletz, E.M, & Reed, M.N. (2009). Lactational exposure to mercury in experimental models. Neurotoxicology, 30, 161-163. [PDF here]
Reed, M.N. & Newland, M.C. (2009). Gestational methylmercury exposure selectively increases the sensitivity of operant behavior to cocaine. Behavioral Neuroscience, 123, 408-417.
Newland, M.C., Paletz, E.M, & Reed, M.N. (2008). Methylmercury and nutrition: Adult effects of fetal exposure in experimental models. Neurotoxicology, 29, 783-801.
Reed, M.N., Banna, K.M., Donlin, W.D., & Newland, M.C. (2008). Effects of gestational exposure to methylmercury and dietary selenium on reinforcement efficacy in adulthood. Neurotoxicology & Teratology, 30, 29-37.
Reed, M.N. & Newland, M.C. (2007). Prenatal methylmercury exposure increases responding under clocked and unclocked fixed interval schedules of reinforcement. Neurotoxicology & Teratology, 29, 492-502.
Reed, M.N., Paletz, E.M., & Newland, M.C. (2006). Gestational exposure to methylmercury and selenium: Effects of a spatial discrimination procedure in adulthood. Neurotoxicology, 27, 721-732.
Newland, M.C., Reed, M.N., LeBlanc, A., & Donlin, W.D. (2006). Brain and blood mercury andselenium after chronic and developmental exposure to methylmercury. Neurotoxicology, 27, 710-720.
Day, J.D., Reed, M.N., & Newland, M.C. (2005). Neuromotor deficits and mercury concentrations in rats exposed to methyl mercury and fish oil. Neurotoxicology & Teratology, 27, 629-641.