• Grants take functional 3Rs Technologies forward

News & Views

Grants take functional 3Rs Technologies forward

NC3Rs has awarded £90K for two collaborative projects focused on cell-based models of disease for functional genomic screens that can be applied more confidently in industry to identify and validate potential new therapeutic targets.

The T2T funding scheme acts to accelerate uptake of new models and tools into industry by offering NC3Rs grant holders the opportunity to develop a collaborative project with the Milner Technology Institute (MTI) and apply their CRISPR gene editing approaches to create human-relevant models of disease for drug development. Each award is complemented with matched in-kind contributions from the MTI, including access to their functional genomics facilities, expertise and industry networks.

Dr Anthony Holmes, NC3Rs Director of Science and Technology, said: “These awards will help increase the reach and impact of NC3Rs-funded project outputs and have the potential to support the pharmaceutical industry in identifying new disease targets in human model systems. There is still much work to be done to get to that stage, but by applying MTI’s functional genomics capabilities to models we have funded the development of, we hope to accelerate that process and maximise the 3Rs impacts of our investment.”

Dr Nicola McCarthy, MTI Interim Director, said: “We are excited to be working with leading UK academics who have previously worked with NC3Rs to develop the next generation of in vitro human disease models, thereby reducing the reliance on animal models. Building on the knowledge and expertise of our academic partners, we will assess whether these disease models can be extended for use in high throughput genetic screens. Importantly, the MTI will work with our 12 Consortium pharma partners to understand the assay conditions and outcomes that could lead to the adoption of these models into industry R&D workflows.”

Awarded projects are:

Adopting ClonoScreen-3D, a high-performance 3D drug-radiation screening platform for CRISPR campaigns towards the identification of novel targets for radiosensitisation in glioblastoma: building on the model developed by Professor Anthony Chalmers and Dr Maria de la Natividad Gomez-Roman, (awarded £46,913) to develop a high-throughput screen to investigate whether specific genetic alterations in brain cells lead to radiotherapy resistance in brain cancer.

Assessment of an in vitro acute lymphoblastic leukaemia model for high-throughput arrayed CRISPR screening: utilising the technology developed by Dr Deepali Pal, this project was awarded £42,268, aiming to identify gene pathways by which leukaemia cells interact with bone marrow cells, and how these interactions might contribute to drug resistance.

More information online


Digital Edition

Lab Asia 31.6 Dec 2024

December 2024

Chromatography Articles - Sustainable chromatography: Embracing software for greener methods Mass Spectrometry & Spectroscopy Articles - Solving industry challenges for phosphorus containi...

View all digital editions

Events

Smart Factory Expo 2025

Jan 22 2025 Tokyo, Japan

Instrumentation Live

Jan 22 2025 Birmingham, UK

SLAS 2025

Jan 25 2025 San Diego, CA, USA

Arab Health

Jan 27 2025 Dubai, UAE

Nano Tech 2025

Jan 29 2025 Tokyo, Japan

View all events