Recommended

Discover how to overcome low affinity or poor TCR yields that are slowing you down in this upcoming webinar – register your details today
Facing roadblocks in obesity drug discovery? Discover how integrated, validated strategies are helping teams accelerate development and reduce risk – register your details now
Unlock the science, strategy and real-world impact behind the next generation of precision therapies – access our new brand report now >>
Safety data is no longer just a regulatory checkbox – it’s a strategic advantage. Find out more in our upcoming webinar, register your details today
Explore how AI is reshaping early drug discovery, from target identification and compound screening to predictive modelling and trial design – register now!
news

High-throughput method used to identify cancer drug candidates

A study using high-throughput screening has revealed some promising compounds that could be used in future cancer treatments.

Researchers have tested over 20,000 molecules using a high-throughput screening (HTS) method to reveal promising cancer drug candidates.

The study, conducted at the University of Bath, UK, investigated a protein called α-methylacyl-CoA racemase (AMACR) as a potential target for oncologic treatments. Previous experiments have shown that reducing levels of this protein makes cancer cells less aggressive and induces behaviour similar to normal cells.

The researchers tested the molecules for inhibition of AMACR using a simple colour-change technique to enable the rapid assessment of the active compounds. This allowed the team to identify which molecules were effective.

 

Reserve your FREE place

 


Are low affinity or poor TCR yields slowing you down?

Explore how CHO expression of soluble TCRs and TCR affinity maturation workflows via phage, serving as essential building blocks for early-stage TCR-TCE candidate generation.

22 October 2025 | 16:00 PM BST | FREE Webinar

Join Jiansheng Wu, Ph.D. to explore two integrated strategies:

  • High-titer CHO-based expression of sTCRs (~100 mg/L), enabling scalable and high-throughput production
  • Optimized phage display affinity maturation, improving TCR binding by up to ~10,000-fold

Whether you’re starting a new TCR program or optimizing an existing platform, this session will offer actionable strategies to accelerate discovery and improve candidate quality.

Register Now – It’s Free!

 

…reducing levels of this protein makes cancer cells less aggressive”

Lead author Dr Matthew Lloyd said: “Although previously identified drugs are very effective in laboratory tests, in practice they are difficult to use in therapies because their properties do not allow easy distribution throughout the body. We started this study because we wanted to identify drugs which would be easier to use therapeutically. Although the particular compounds identified in this study did not kill prostate cancer cells very effectively, it is very promising that drug-like molecules were identified.”

According to the researchers, this is the first report of the identification of specific drug-like small-molecule AMACR inhibitors by HTS.

The results were published in Bioorganic Chemistry.