Clinical trials pharmacy (Jan Chlebik for the ICR, 2014)

Innovative ICR-discovered drug to enter first clinical trial, targeting HSF1 pathway

26/08/21

Hands dispensing drugs

Cancer patients are set to receive, for the first time, a highly innovative investigational drug called NXP800 – which was discovered at The Institute of Cancer Research, London – in a phase I clinical trial sponsored by an oncology-focused biopharmaceutical company, Nuvectis Pharma.

The investigational oral drug inhibits the so-called Heat Shock Factor-1 (HSF1) pathway, and was discovered by scientists at the Cancer Research UK Cancer Therapeutics Unit at The Institute of Cancer Research (ICR).

The first-in-human study is due to begin later this year.

New cancer trial

The phase I trial will be led by Professor Udai Banerji, Deputy Director of Drug Development at the ICR and The Royal Marsden NHS Foundation Trust, in patients with advanced cancers from The Royal Marsden.

The ICR’s expert teams in pharmacodynamics and pharmacokinetics will lead on gathering data on the body’s handling of NXP800 and its biological effects – providing biomarkers that form a ‘Pharmacological Audit Trail’ of the drug’s behaviour.

As a ‘transcription factor’, HSF1 is a master switch that controls the activity of genes in the cell. In healthy cells HSF1 activates a specific gene programme in response to certain types of cellular stress.

Hijacked gene activation

But in cancers, HSF1 is hijacked and its gene activation programme is modified in a way that is needed by the tumour cells to survive, grow and spread. Cancer cells are subject to a range of stresses and the modified HSF1 gene activation programme helps them to overcome these. Patients with high levels of HSF1 gene activation in their cancers have poorer overall survival.

The trial follows a long-running research project from a team of scientists at the ICR led by Professor Paul Workman, with earlier work funded by organisations including the Battle Against Cancer Investment Trust (BACIT). The medicinal chemistry component of the multidisciplinary research was led by Professor Keith Jones.

Our researchers work with industry partners to discover and optimise new cancer drugs and take them into clinical trials.

Watch the video to find out more

While transcription factors are traditionally known to be very difficult to target directly with drugs, scientists at the ICR identified a small molecule that inhibits HSF1’s gene activation programme.

They did this by using cellular ‘phenotypic screening’ – involving the testing of hundreds of thousands of chemical compounds for their ability to switch off the HSF1 gene activation programme in live cancer cells in culture. This was followed by medicinal chemistry to optimise the handling of the drug in the body.

Ovarian and endometrioid cancers

In pre-clinical studies, NXP800 was shown to potently block human cancer cell growth in culture and cause regression of tumours in mice – with hard-to-treat ovarian clear cell carcinoma (OCCC) and endometrioid ovarian cancers being the most sensitive to treatment.

Nuvectis has licensed worldwide development and commercialization rights to the HSF1 drug candidate NXP800 from its previous commercial investor, the CRT Pioneer Fund (CPF) managed by Sixth Element Capital.

Nuvectis has also today announced the completion of a $15 million Series A Preferred Stock financing with institutional and private investors.

Professor Paul Workman, Chief Executive of The Institute of Cancer Research, London, and the originator and leader of its HSF1 programme, said:

“We’re enormously excited to see our new first-in-class HSF1 pathway inhibitor drug is on the cusp of reaching clinical trials, thanks to this new partnership with the highly experienced team at Nuvectis. This is following a long-running and highly innovative team science project at ICR to discover an oral clinical candidate in partnership with the CPF.

“This is a prime example of the original and creative drug discovery and development that is possible through synergistic partnerships between academics, clinicians and private enterprise and that could lead to a totally new type of treatment for patients with hard-to treat cancers.”

Professor Udai Banerji, Deputy Director of Drug Development at The Institute of Cancer Research, London, and The Royal Marsden NHS Foundation Trust, said:

“NXP800 is an innovative first-in-class drug and we are excited to be nearing the stage of the drug development pathway when patients will start receiving it. This phase I trial will aim to establish a safe dose and dosing schedule for NXP800, as well as provide initial evidence of its clinical activity in a range of cancer types – and we hope that it will lead on to late-stage clinical development.”

Bridging the gap between drug discovery and clinical trials

Ron Bentsur, Chairman and Chief Executive Officer of Nuvectis, said:

"We are excited to have partnered with the ICR and CPF on this important project.  We believe that NXP800 has the potential to become a first-in-class HSF-1 pathway inhibitor and benefit patients suffering from OCCC, late-stage endometroid ovarian as well as other types of cancers. We look forward to the pending commencement of the phase I study in the capable hands of the ICR and The Royal Marsden."

Dr Robert James, Managing Partner at Sixth Element Capital, said: 

“We are delighted to have partnered NXP800 with Nuvectis and that this very novel agent will now march forward into clinical evaluation for the benefit of the cancer patients. This is a further exemplification of the CRT Pioneer Fund’s successful investment strategy to develop and commercialise early stage and highly innovative cancer therapies.”

Tony Hickson, Chief Business Officer at Cancer Research UK, said:

“Projects like this demonstrate exactly what we wanted to achieve when setting up the CRT Pioneer Fund – seamlessly bridging the gap between drug discovery and clinical trials so we can bring innovative treatments to people with cancer in the safest and quickest time possible.

“We are looking forward to seeing the results of the upcoming phase 1 clinical trial and hope to one day see it benefit patients with a range of hard-to-treat cancer types.”

You can help us discover the next cancer treatment

Make a donation today

A £10 donation each month can supply our team with equipment to undertake a number of tests/experiments
With GiftAid you'll also be able to add 25% at no extra cost to you

Please choose a donation amount.

A £10 donation each month can supply our team with equipment to undertake a number of tests/experiments
With GiftAid you'll also be able to add 25% at no extra cost to you

Please choose a donation amount.