Prof Mike Shipston
My laboratory is particularly interested in posttranscriptional and posttranslational mechanisms of ion channel regulation and their role in the dynamic control of cellular excitability and systems level function in health and disease.
Professor Mike Shipston
Dean of BMS, Professor of Physiology
- Hugh Robson Building
- 15 George Square
- Edinburgh EH8 9XD
Contact details
- Work: +44 (0)131 650 3253
- PA: +44 (0)131 651 1692
- PA: Deanbms@ed.ac.uk
- Email: Mike.Shipston@ed.ac.uk
Personal profile
- Wellcome Trust Advanced Training Fellow 1993-1996, University of Edinburgh and NIEHS, USA
- PhD, MRC Brain Metabolism Unit 1992
- BSc (1st Class Hons), University of St Andrews 1989
Research Theme
Research
Prof. Mike Shipston's research briefing
Research is particularly focused on post-transcriptional and post-translational mechanisms, such as alternative pre mRNA splicing and protein S-acylation, that control ion channel physiology and how dysregulation may lead to major stress and endocrine related disorders.
The laboratory takes an Integrative Physiology approach examining from the level of single ion channel proteins, through control of cell and systems physiology to whole body function.
Funding
Team members
- Peter Duncan (Postdoctoral Fellow)
- Heather McClafferty (Research Associate)
- Mengdie Deng (PhD student)
- Sooraj V. Nair (PhD student)
Collaborations
- Peter Ruth, University of Tuebingen
- Hans-Guenther Knaus, University of Innsbruck
- Richard Bertram, Florida State University
- John Terry, University of Exeter
-
Robert Lukowski, Tuebingen
- Stafford Lightman, University of Bristol
- Luke Chamberlain, University of Strathclyde
Recent publications
Romanó N, McClafferty H, Walker JT, leTissier, P & Shipston MJ (2017) Heterogeneity of calcium responses to secretagogues in corticotrophs from male rats. Endocrinology 158:1849-1858
Illison J, Tian L, McClafferty H, Werno M, Chamberlain LH, Leiss V, Sassmann A, Offermanns S, Ruth P, Shipston MJ, Lukowski R (2016). Obesogenic and diabetogenic effects of high-calorie nutrition require adipocyte BK channels. Diabetes 65:3621-3635
Duncan PJ, Tabak J, Ruth P, Bertram R, Shipston MJ (2016) Glucocorticoids inhibit CRH/AVP-evoked bursting activity of male murine anterior pituitary corticotrophs. Endocrinology 157:3108-312.
Duncan PJ, Şengül S, Tabak J, Ruth P, Bertram R, Shipston MJ (2015) Large conductance Ca2+ -activated K+ (BK) channels promote secretagogue-induced transition from spiking to bursting in murine anterior pituitary corticotrophs. J Physiol. 593:1197-1211
Chamberlain LH & Shipston MJ (2015) The physiology of protein S-acylation. Physiological Reviews 95:341-376
Howie J, Reilly L, Fraser NJ, Vlachaki Walker JM, Wypijewski KJ, Ashford ML, Calaghan SC, McClafferty H, Tian L, Shipston MJ, Boguslavskyi A, Shattock MJ, Fuller W. (2014) Substrate recognition by the cell surface palmitoyl transferase DHHC5. Proc Natl Acad Sci U S A. 111:17534-9
Chen L, Bi D, Tian L, McClafferty H, Steeb F, Ruth P, Knaus HG, Shipston MJ. (2013) Palmitoylation of the b4-subunit regulates surface expression of large conductance calcium-activated potassium channel splice variants J Biol Chem 288:13136-13144 PMID: 23504458
Tian L, McClafferty H, Knaus H-G, Ruth P & Shipston MJ (2012). Distinct acyl protein transferases and thioesterases control surface expression of calcium-activated potassium (BK) channels. J Biol Chem 287:14718-14725
Tian, L., McClafferty, H., Jeffries, O & Shipston M.J. (2010) Multiple palmitoyltransferases are required for palmitoylation-dependent regulation of large conductance calcium- and voltage- activated potassium channels. J Biol Chem 285: 23954-23962.
Tian, L., Jeffries, O.J., McClafferty, H., Molyvdas, A., Rowe, I.C.M. Saleem, F., Chen L., Greaves, J., Chamberlain, L.H., Knaus, H.G., Ruth P., & Shipston, M.J. (2008) Palmitoylation gates phosphorylation-dependent regulation of BK potassium channels. Proc. Natl. Acad. Sci. USA 105:21006-21011.
Mike Shipston publication list (PDF)
Video
Information for students:
Willingness to discuss research projects with undergraduate and postgraduate students: YES - please click here