Ashley Galloway
University of South Carolina
4 Papers
5 Citations
Ashley Galloway is an academic researcher from University of South Carolina. The author has contributed to research in topics: Dopamine receptor & ISFET. The author has an hindex of 4, co-authored 4 publications.
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Papers
Microglia morphology and proinflammatory signaling in the nucleus accumbens during nicotine withdrawal
Adewale Adeluyi,Lindsey Guerin,Miranda L. Fisher,Miranda L. Fisher,Ashley Galloway,Robert D. Cole,Robert D. Cole,Sherine S.L. Chan,Michael D. Wyatt,Shannon W. Davis,Linnea R. Freeman,Pavel I. Ortinski,Pavel I. Ortinski,Jill R. Turner,Jill R. Turner +14 more
TL;DR: It is shown that both nicotine and withdrawal induce microglial morphological changes; however, proinflammatory effects and anxiogenic behaviors were observed only during nicotine withdrawal, and pharmacological microglia depletion during withdrawal prevented these effects.
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Application of ion-senstitive field effect transistors for measuring glial cell K+ transport
Yihao Zhu,Goutam Koley,Kenneth B. Walsh,Ashley Galloway,Pavel I. Ortinski +4 more
- 01 Oct 2016
TL;DR: The fabrication and utilization of graphene-based, ion-sensitive field effect transistors (ISFETs) for measuring K+ efflux from immortalized and primary brain glial cells and will be useful for future multi-array, cell-based screening and toxicological studies of primary cell cultures.
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Dopamine Triggers CTCF-Dependent Morphological and Genomic Remodeling of Astrocytes
Ashley Galloway,Adewale Adeluyi,Bernadette O'Donovan,Miranda L. Fisher,Chintada Nageswara Rao,Peyton Critchfield,Mathew Sajish,Jill R. Turner,Pavel I. Ortinski +8 more
TL;DR: A temporally dynamic pattern of genomic plasticity that triggers pronounced changes in astrocyte morphology and function is demonstrated and it is shown that this plasticity depends on activation of genes sensitive to DNA-binding protein CTCF.
Identification of Novel Protein Targets of Dimethyl Fumarate Modification in Neurons and Astrocytes Reveals Actions Independent of Nrf2 Stabilization.
Gerardo G. Piroli,Allison M. Manuel,Tulsi Patel,Michael D. Walla,Liang Shi,Scott A. Lanci,Jingtian Wang,Ashley Galloway,Pavel I. Ortinski,Deanna S. Smith,Norma Frizzell +10 more
TL;DR: New insights are provided into the mechanisms supporting the neuroprotective and remyelination benefits associated with DMF treatment in addition to the antioxidant response by Nrf2.