William J. Brackenbury
Affiliations: | Biology | University of York (UK) |
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"William Brackenbury"Mean distance: 30533.1 (cluster 29)
Children
Sign in to add trainee| Ming Alan Yang | grad student | 2016 | University of York (UK) |
| Faheem Patel | grad student | 2013-2017 | University of York (UK) (Physiology Academic Tree) |
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Publications
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| Malcolm JR, Sajjaboontawee N, Yerlikaya S, et al. (2023) Voltage-gated sodium channels, sodium transport and progression of solid tumours. Current Topics in Membranes. 92: 71-98 |
| Brackenbury WJ, Palmieri C. (2023) Blocking channels to metastasis: targeting sodium transport in breast cancer. Breast Cancer Research : Bcr. 25: 140 |
| James AD, Unthank KP, Jones I, et al. (2023) Sodium regulates PLC and IP R-mediated calcium signaling in invasive breast cancer cells. Physiological Reports. 11: e15663 |
| Fairhurst C, Martin F, Watt I, et al. (2023) Sodium channel-inhibiting drugs and cancer-specific survival: a population-based study of electronic primary care data. Bmj Open. 13: e064376 |
| Leslie TK, Brackenbury WJ. (2022) Sodium channels and the ionic microenvironment of breast tumours. The Journal of Physiology |
| Haworth AS, Hodges SL, Capatina AL, et al. (2022) Subcellular dynamics and functional activity of the cleaved intracellular domain of the Na channel β1 subunit. The Journal of Biological Chemistry. 102174 |
| Shandell MA, Capatina AL, Lawrence SM, et al. (2022) Inhibition of the Na/K-ATPase by cardiac glycosides suppresses expression of the IDO1 immune checkpoint in cancer cells by reducing STAT1 activation. The Journal of Biological Chemistry. 101707 |
| Lopez-Charcas O, Pukkanasut P, Velu SE, et al. (2021) Pharmacological and nutritional targeting of voltage-gated sodium channels in the treatment of cancers. Iscience. 24: 102270 |
| Capatina AL, Lagos D, Brackenbury WJ. (2020) Targeting Ion Channels for Cancer Treatment: Current Progress and Future Challenges. Reviews of Physiology, Biochemistry and Pharmacology |
| Simon A, Yang M, Marrison JL, et al. (2020) Metastatic breast cancer cells induce altered microglial morphology and electrical excitability in vivo. Journal of Neuroinflammation. 17: 87 |