Dr Michael Tomlinson

Dr Michael Tomlinson DPhil

School of Biosciences
School Communications Lead
Reader in Membrane Protein Biology

Contact details

Telephone: +44 (0)121 41 42507
Fax: +44 (0)121 41 45925
Email: m.g.tomlinson@bham.ac.uk

Address: 813, School of Biosciences
University 麻豆精选
Edgbaston
Birmingham
B15 2TT
UK

Dr Mike Tomlinson is a Reader in Membrane Protein Biology in the School of Biosciences at the University 麻豆精选. He is a member of the Centre of Membrane Proteins and Receptors (COMPARE), and associate member of the Institute of Cardiovascular Sciences. He is Communications Lead for the School of Biosciences. Mike’s research focuses on tetraspanin membrane proteins as potential therapeutic targets for major human diseases such as cancer, cardiovascular and inflammatory diseases. He enjoys research-led teaching on the molecular mechanisms underlying these diseases.

Staff details
Policy information

Qualifications

BSc (University of Bath)

DPhil (University of Oxford)

Biography

Dr Mike Tomlinson grew up in Birmingham before studying as an undergraduate at the University of Bath. Mike was one of the founders of the tetraspanin field during his PhD at the Sir William Dunn School of Pathology in Oxford, supervised by immunologists Neil Barclay and Mark Wright. Between 1996 and 2003 he did post-doctoral work in two leading lymphocyte cell signalling groups in the USA, run by Joe Bolen at DNAX Research Institute in Palo Alto, and by Art Weiss at the University of California, San Francisco.

In 2004 he moved back to the UK to join the platelet research group of Steve Watson in the Institute of Biomedical Research at the University 麻豆精选. Mike started his own research group in 2005 through a MRC New Investigator Award Fellowship to study tetraspanin regulation of platelet receptors. In 2009 he obtained a British Heart Foundation Senior Fellowship to expand his tetraspanin research to endothelial cells, and moved across campus to the School of Biosciences.

Mike became a Senior Lecturer in 2014 and a Reader in Membrane Protein Biology in 2021. He has received research funding from the British Heart Foundation, BBSRC, MRC, European Research Council, Birmingham-Maastricht PhD Programme, MRC Harwell and the biotech industry. His current work aims to capitalise on the growing potential of tetraspanins as drug targets in a variety of human disease processes.

Teaching

Mike is module coordinator for the 2^nd year module Topics in Medical Biosciences and brings his research-led teaching to the following modules:

● Cell Biology & Physiology (1^st year)

● Cell & Developmental Biology (2^nd year)

● Topics in Medical Biosciences (2^nd year)

● Cancer Biology (3^rd year)

● Molecular & Cellular Immunology (3^rd year)

● Functional Genomics (masters)

Research Techniques (masters)

Research Developments & Funding (masters)

Pharmaceuticals & Therapeutic Biologicals from Bench to Market (masters)

Mike also supervises final year research projects for several BSc, MSci, MSc and MRes students each year.

Postgraduate supervision

Mike has supervised eight PhD students to completion and has three current PhD students in his group.

Research

Mike’s group investigates how tetraspanins regulate other important membrane proteins on the surface of human cells.

Mike has recently established a new paradigm in human membrane protein biology, whereby the important cell surface ‘molecular scissor’ ADAM10 is not one scissor, but six different scissors depending on which one of six tetraspanins, termed the TspanC8s, it is associated with – his ‘six scissor’ hypothesis. This has major implications for future therapeutic targeting of diseases such as cancer, Alzheimer’s disease, asthma and inflammatory diseases including those leading to heart attack and stroke. Targeting all six ADAM10 scissors in these diseases would be too toxic for the patient, but targeting the one scissor that is causing the disease has great potential.

Mike has also identified tetraspanin Tspan18 as a critical regulator of the store-operated Ca²⁺ entry channel Orai1 on endothelial cells, and as a potential therapeutic target for thrombo-inflammatory diseases such as deep vein thrombosis.

Dr Tomlinson leads the School of Biosciences Cells and Molecules Research Theme

Website

Related Research:

Centre of Membrane Proteins and Receptors (COMPARE):

Other activities

When not chasing after one of his four young children, Dr Tomlinson can be found watching the Liverpool football team, growing chillies, or contemplating his next snowboarding or fishing trips.

Publications

Recent publications

Article

Wang, X, Slater, A, Lee, SC, Harrison, N, Pollock, NL, Bakker, SE, Navarro, S, Nieswandt, B, Dafforn, TR, Garc铆a, 脕, Watson, SP & Tomlinson, MG 2024, '', Archives of Biochemistry and Biophysics, vol. 754, 109944.

Clark, JC, Martin, EM, Mor谩n, LA, Di, Y, Wang, X, Zuidscherwoude, M, Brown, HC, Kavanagh, DM, Hummert, J, Eble, JA, Nieswandt, B, Stegner, D, Pollitt, AY, Herten, D, Tomlinson, MG, Garc铆a, A & Watson, SP 2023, '', Communications Biology, vol. 6, no. 1, 376.

Maqsood, Z, Clark, JC, Martin, EM, Cheung, YFH, Mor谩n, LA, Watson, SET, Pike, JA, Di, Y, Poulter, NS, Slater, A, Lange, BMH, Nieswandt, B, Eble, JA, Tomlinson, MG, Owen, DM, Stegner, D, Bridge, LJ, Wierling, C & Watson, SP 2022, '', PLoS Computational Biology, vol. 18, no. 11, e1010708.

Koo, CZ, Matthews, AL, Harrison, N, Szyroka, J, Nieswandt, B, Gardiner, E, Poulter, NS & Tomlinson, MG 2022, '', International Journal of Molecular Sciences, vol. 23, no. 5, 2440.

Clark, J, Neagoe, RAI, Zuidscherwoude, M, Kavanagh, D, Slater, A, Martin, E, Soave, M, Stegner, D, Nieswandt, B, Poulter, N, Hummert, J, Herten, D-P, Tomlinson, M, Hill, SJ & Watson, S 2021, '', Thrombosis and Haemostasis, vol. 2021, no. 00, pp. 1-26.

Seifert, A, D眉sterh枚ft, S, Wozniak, J, Koo, CZ, Tomlinson, MG, Nuti, E, Rossello, A, Cuffaro, D, Yildiz, D & Ludwig, A 2021, '', Cellular and Molecular Life Sciences, vol. 78, no. 2, pp. 715-732.

Koo, CZ, Harrison, N, Noy, PJ, Szyroka, J, Matthews, AL, Hsia, H-E, M眉ller, SA, T眉shaus, J, Goulding, J, Willis, K, Apicella, C, Cragoe, B, Davis, E, Keles, M, Malinova, A, McFarlane, TA, Morrison, PR, Nguyen, HTH, Sykes, MC, Ahmed, H, Di Maio, A, Seipold, L, Saftig, P, Cull, E, Pliotas, C, Rubinstein, E, Poulter, NS, Briddon, SJ, Holliday, ND, Lichtenthaler, SF & Tomlinson, MG 2020, '', The Journal of biological chemistry, vol. 295, no. 36, pp. 12822-12839.

Noy, PJ, Gavin, RL, Colombo, D, Haining, EJ, Reyat, JS, Payne, H, Thielmann, I, Lokman, AB, Neag, G, Yang, J, Lloyd, T, Harrison, N, Heath, VL, Gardiner, C, Whitworth, KM, Robinson, J, Koo, CZ, Di Maio, A, Harrison, P, Lee, SP, Michelangeli, F, Kalia, N, Rainger, GE, Nieswandt, B, Brill, A, Watson, SP & Tomlinson, MG 2019, '', Haematologica, vol. 104, no. 9, pp. 1892-1905.

De Winde, CM, Matthews, AL, Van Deventer, S, Van Der Schaaf, A, Tomlinson, ND, Jansen, E, Eble, JA, Nieswandt, B, Mcgettrick, HM, Figdor, CG, Tomlinson, MG, Acton, SE & Van Spriel, AB 2018, '', Journal of Cell Science, vol. 131, no. 19, jcs214551.

Nicolson, P, Hughes, CE, Watson, S, Nock, SH, Hardy, A, Watson, CN, Montague, S, Clifford, H, Huissoon, AP, Malcor, J-D, Thomas, MR, Pollitt, AY, Tomlinson, M, Pratt, G & Watson, S 2018, '', Haematologica, vol. 103, no. 12, pp. 2097-2108.

Matthews, A, Koo, CZ, Szyroka, J, Harrison, N, Kanhere, A & Tomlinson, M 2018, '', Frontiers in immunology, vol. 9, 1451.

Brummer, T, Pigoni, M, Rossello, A, Wang, H, Noy, PJ, Tomlinson, MG, Blobel, CP & Lichtenthaler, SF 2018, '', FASEB Journal, pp. fj201700823RR.

Reyat, J, Chimen, M, Noy, P, Szyroka, J, Rainger, G & Tomlinson, M 2017, '', Journal of Immunology, vol. 199, no. 2, pp. 666-676.

Review article

Harrison, N, Koo, CZ & Tomlinson, MG 2021, '', International Journal of Molecular Sciences, vol. 22, no. 13, 6707.

Gavin, RL, Koo, CZ & Tomlinson, MG 2020, '', Medical Microbiology and Immunology, vol. 209, no. 4, pp. 553-564.

Expertise

regulation of membrane proteins and receptors by tetraspanins; membrane protein proteolysis by the ‘molecular scissor’ ADAM10