Mark Carr

Structure-based drug discovery

Mark Carr 2.0

Research Summary

There is an urgent and unmet need for new drugs to treat major human diseases. Structure-based drug discovery, design and development (SBD3) has been developed as a major translational research focus by my group, with successful research partnerships built with UCB Biopharma, LifeArc (formerly MRC Technology) and a network of Cancer Research UK (CRUK) Centres across the UK. This work encompasses both small molecule and therapeutic antibody discovery programmes, with world-leading expertise developed in my group to use NMR-based methods to characterise complexes formed between potential therapeutic antibodies and target proteins. We are also developing innovative new approaches, such as antibody-assisted structure-based drug discovery

The canonical Wnt signalling pathway has emerged as a key regulator of bone growth and remodelling, with activation of the pathway leading to increased bone density. Osteoporosis and related conditions occur as a consequence of the loss of bone integrity, and represent a major and growing medical challenge across the world. The activation of Wnt signalling is tightly regulated by a number of secreted proteins, including members of the Dickkopf family (Dkk-1, Dkk-2, Dkk-3 and Dkk-4) and sclerostin, which share the ability to interact with membrane-bound co-receptors for Wnt proteins (LRP5 and LRP6) leading to inhibition of Wnt signalling. These natural regulatory systems, together with the central role of Wnt signalling in bone homeostasis, highlight modulation of the regulation of Wnt signalling as an attractive target for the development of effective therapeutics to treat osteoporosis. Our collaboration with UCB Biopharma has resulted in determination of the first structure of sclerostin, as well as mapping of its interactions with functional partners and candidate therapeutic antibodies. In addition, we have recently determined the first structure of an N-terminal domain from a Dkk family protein (Dkk4).

Antibody-Assisted SBD3: The innovative use of antibodies as tools in SBD3 promises a number of important advances in knowledge-based drug discovery, including:

i) The identification and characterisation of novel regulatory or allosteric sites on target proteins,
ii) The stabilisation and characterisation of rare, functionally important conformational states of target proteins, and
iii) The determination of structures for selected antibodt-target protein complexes to guide the design of potential small molecule therapeutics.

Importantly, antibody-assisted SBD3 has the potential to transform the ability to successfully target challenging protein therapeutic targets associated with major human diseases. We have recently established a pre-competitive Antibody-Assisted Structure-Based Drug Discovery Consortium with LifeArc and UCB Biopharma, which will jointly pioneer the development and application of antibody-assisted approaches.

Impact of SBD3 Programmes: The global impact of research in my group is exemplified by our mapping of the epitopes for a number of potential therapeutic antibodies, including the anti-TNF Cimzia (UCB Biopharma). Cimzia has now treated more than 98,000 patients in 62 countries with a range of major inflammatory diseases including rheumatoid arthritis, and Crohn’s disease, and has proved to be a highly effective therapeutic since its launch in 2009, which is reflected in sales of over 1.3 billion Euros in 2016. We have also made a major contribution to a UCB Biopharma programme targeting the treatment and prevention of osteoporosis by a therapeutic antibody (Romosozumab) against sclerostin, which is currently going through FDA approval and is expected to be transformative for osteoporosis treatment, as well as generate revenue of over a billion Euros per year. Similarly, our research partnership with LifeArc is also leading to new candidate therapeutics, with major contributions to at least two therapeutic antibody programmes that have now been licensed to industry for clinical development.

The global healthcare and massive economic impact of the SBD3 work in my group was recently recognised by the award of a Research Impact Award by the University for Best Economic Impact.

IL-16-14.1 Fab: CDR Loop-IL-16 Interaction
IL-16-14.1 Fab: CDR Loop-IL-16 Interaction

Comparison of Docked and Crystal Structures of the Fab-IL-1β Complex
Comparison of Docked and Crystal Structures of the Fab-IL-1β Complex

Inhibitory Antibody Binding to Sclerostin
Inhibitory Antibody Binding to Sclerostin

Key Publications

Group Members:

Lorna Waters, Christine Prosser, Sarah Strong, Gareth Hall, Richard Cowan, Daniel Burschowsky, Chitra Seewooruthun, Yinan (Ellen) Fu, Jacqueline Kalms, Helena Wright and Roberta Baravalle, Sura Abbood, Matthew Grabaskey, Kirsty Ford, Amaliawati Latiffi, Patrick McIntyre, Sophie Millett, Nicholas Mwale, Ra’eesah Shaikh and Kayleigh Walker.

To see Professor Mark Carr's departmental home page, please click here.

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