Cellesce, has announced a collaboration with Repositive, which has developed the Cancer Models product, a searchable web-based platform, that connects cancer researchers to the models and services they need to drive research.

The new partnership will expand the number of Repositive’s partners on Cancer Models to 12. Repositive’s integrated web-based solution, enables researchers to find cancer models derived from human tumours with many from commercial sources now searchable in one place.

Researchers worldwide can use Repositive’s platform to compare standardised molecular features, create collections and share with their team. Cellesce will keep control of data access, learn which models are most popular, and connect with new and existing customers.

Cellesce uses its proprietary bioprocessing technology to consistently expand tumour-derived organoid lines that originate from patient tissue. These organoids accurately recapitulate disease-causing genetic mutations and are produced in sufficient consistency, quality and quantity to support drug applications for compound screening.

This collaboration will provide novel and more complete research solutions to support commercial and academic partners as they undertake basic cancer research and pursue drug discovery programmes using tumour-derived organoids.

Dr Mark Treherne, Chief Executive of Cellesce, commented: “By partnering to provide an integrated drug discovery solution, Cellesce and Repositive are now in a position to provide a more comprehensive package to academic and commercial researchers working on cancer to find the most relevant organoids for their needs. This strategic partnership further underscores the value of providing organoids at scale and highlights the impact our models are having on the global research community.”

“By working with Cellesce, we’re making it easier for oncology researchers and data providers to collaborate and speed up the development of new treatments. Organoids expanded by Cellesce will further enable and expand our web-based solution.” said Dr Fiona Nielsen, Co-Founder and Chief Executive Officer of Repositive.

This new collaboration was announced at EORTC-NCI-AACR 2018, which took place at the Dublin Convention Centre on Wednesday 14th November during which Repositive hosted its Pre-Clinical Oncology Showcase. Dr Mark Treherne, Cellesce CEO was one of the presenters.

Horizon Discovery and Cellesce presented a joint poster at the ELRIG Drug Discovery Exhibition and Conference which took place 9th – 10th October in London. The last panel shows data confirming the activity of Trametinib  and demonstrating the differential effects of Dabrafenib from two lines of Cellesce expanded organoids. Both drugs, which can be used in combination to overcome resistance have been approved for clinical use.

Subsequently Horizon Discovery has published a proof of concept case study – High-Throughput Screening in Colorectal Organoids.


Cellesce is working in collaboration with the National Physical Laboratory (NPL), the UK’s National Measurement Institute, to image and analyse its range of colorectal cancer organoids.

The collaboration is the result of a successful bid to ‘Analysis for Innovators’ – a £4M Innovate UK programme that offers access to funding and expertise to improve companies’ overall performance by offering measurement and analysis expertise to projects that can show a positive business impact through solving an existing problem.

Organoids are 3D in vitro cultures that can self-organise to mimic the organs from which they are derived. They are proving to be a relevant preclinical model for the study of cancer, especially in drug discovery. There is accumulating evidence that organoids grown in 3D are better at predicting efficacy than monolayer cell lines since they replicate key aspects of tumours such as genetic diversity, differentiation, multicellularity, drug penetration and signalling pathway interactions.

The work with NPL will seek to establish an in-house, rapid, quantitative, morphometric imaging method to validate and compare batches of organoids. This will provide the consistent quality assurance necessary for uptake of the model in the pharmaceutical industry. The analysis could potentially be translated into quantifying outputs from high-throughput screening assays as the new accepted standard for drug discovery.

“Currently, individual organoids can be imaged for academic research purposes but there remain significant unmet commercial and technical needs to translate this analysis into a high-throughput and internationally recognised industrial standard,” said Dr Mark Treherne, Cellesce CEO. “A new morphometric imaging standard would solve the current technical, medical and commercial problems we and others have experienced. An effective solution will be transformational for Cellesce and for enabling cancer drug discovery worldwide”.

Mike Shaw, Senior Research Scientist, Biometrology Group, National Physical Laboratory, said: “Organoids have great potential to improve our understanding of many biological and pathological processes. They can also help us to outline new tools for screening new therapeutic treatments. We are excited to be working with Cellesce to develop and apply state-of-the-art imaging and analysis techniques to characterise their tumour organoids and support the wider adoption of organoid technologies.”

Cellesce and Cardiff University have won an Innovate UK competition. The award will fund a collaborative project that aims to improve research into scaling up organoids to enable the discovery of new breast cancer therapies. This project will build on the expertise the two teams have already established with colorectal cancer organoids.

Organoids are three-dimensional (3D) stem cell cultures that can self-organise into ‘mini-organs.’ They facilitate the study of tumour pathology to enable cancer drug discovery. Organoids are closer to in vivo tumours than more conventional 2D cell line cultures and can provide more relevant pharmacological responses to drugs and antibodies. By using organoids in drug discovery screening assays, scientists can identify active compounds for further progression earlier in the drug discovery process and weed out less attractive compounds before incurring higher downstream costs.

Professor Trevor Dale, Cardiff University, said: “One of the hurdles of identifying new and effective treatments is the accuracy of cell responses to the compounds you are testing, since cells in a petri dish frequently don’t behave as they would in the body. By growing cells in 3D, we can recreate much of the complexity that is seen in patients’ tumours and therefore, get a better idea of how effective new therapies will be. We use donated tumour tissue, taken from patients in hospital, to grow organoids. By growing tumours from different patients, pharmaceutical companies may be able to match specific new therapies to specific cancer types.”

“Cellesce is already producing patient-derived colorectal organoids on a commercial scale for research use and screening in drug discovery, by using its proprietary organoid expansion bioprocessor,” said Dr Mark Treherne, Cellesce CEO. “90% of early-stage compounds fail to demonstrate relevant clinical efficacy so extending the range of cancer tissues that we can provide at scale will enable more pharmaceutical companies to embrace organoid technology. We believe this will provide our customers with a more robust, relevant and cost-effective model for screening new drug compounds”.

Cellesce has featured in the latest edition of ‘Advances,’ the journal for science, engineering and technology innovation in Wales.

You can view and download the complete edition of  ‘Advances’ here.

Images in the article are © Cellesce | NPL | M Squared Lasers

Cellesce has appointed Dr. Mark Treherne as its CEO. Mark, a veteran of the biotech industry, will lead the Company through the next phase of its development programme and commercialisation phase. Cellesce’s pioneering organoid expansion technology is focused on cancer research and compound library screening at scale for drug discovery.

John Allbrook and Mark Treherne

John Allbrook, Chairman (left), welcomes Mark Treherne who becomes the new Cellesce CEO

Mark obtained his PhD in pharmacology from Cambridge University and then developed novel 3D tissue culture models, as an academic at the University of Basel until 1992. He has over 25 years’ experience in the discovery of novel treatments for diseases with unmet medical need. Mark formerly worked at Pfizer where he was responsible for research into neurodegenerative diseases, including using stem-cell derived lines for screening compounds. In 1997, Mark set up Cambridge Drug Discovery as Chief Executive, which was then sold to BioFocus (now part of Charles River) in 2001. Since then, Mark has worked with many early-stage biotechnology companies from foundation through to trade sale.‎ More recently, he was Chief Executive of the Life Sciences Organisation of UK Trade & Investment, which helped UK-based Life Sciences companies raise investment and export overseas.

“We are delighted to have Mark on board,” said John Allbrook, Non-Executive Chairman of Cellesce. “His background and experience in the industry, particularly with early-stage biotech companies, is particularly welcome as we begin to commercialise our organoid technology. Mark’s appointment adds credibility to the fast-developing realisation that organoids have an important role to play in the drug discovery arena.”

Cellesce the cancer organoid bioprocessing and scale-up company has announced a successful six-figure funding round that will open up opportunities to introduce its organoid scale-up and expansion technology to the oncology drug discovery screening market. This funding round has, once again, been led by the Development Bank of Wales, a measure of the confidence it has in both the Cellesce technology and the founding team.

The Cellesce Team

The Cellesce Team at the Cardiff Medicentre

In recent months, Cellesce has moved into a state-of-the-art laboratory within the Cardiff Medicentre and has launched its first range of colorectal organoids, originally derived from patients’ tumours. These organoids are opening up exciting new opportunities for cancer research and compound library screening at scale for drug discovery.

Organoids are three-dimensional (3D) stem cell cultures that can self-organise into ex vivo ‘mini-organs.’ They facilitate the study of tumour pathology to enable cancer drug discovery. Organoids are closer to in vivo tumours than more conventional 2D cell line cultures and can provide more relevant pharmacological responses to drugs and antibodies. By using organoids in drug discovery screening assays, scientists can identify active compounds for further progression earlier in the drug discovery process and weed out less attractive compounds before incurring higher downstream costs.

“Cellesce is an exciting start-up, which is poised to take advantage of fast evolving organoid technology,” explained Development Bank of Wales Investment Executive Philip Barnes. “The company has high growth potential and is making exciting progress in an important area of medical research. We’re pleased to offer our continued support to the team as they further develop their organoid technology.”

 Cellesce CEO, Nicholas Duggan added: “We are delighted by the confidence that Development Bank of Wales has shown in Cellesce. We already have our first commercial customers and huge interest is being shown by organisations involved in several areas of medical research. This new funding will enable us to take our expansion technology to the next stage with Cellesce becoming the leading provider of organoids and expansion services to a number of key movers in cancer drug discovery.”

Previously, we briefly commented on the interest generated by the significant study by Georgios Vlachogiannis and co-workers at the Institute of Cancer Research in London, “Patient-derived organoids model treatment response of metastatic gastrointestinal cancers.” This post looks in a bit more detail at this paper which was published in Science on February 23rd, and which supports the evidence that patient-derived organoids are emerging as a relevant and exciting methodology to help develop preclinical diagnostic models for the development of anti-cancer drugs.

Intestinal organoid

Vlachogiannis and co-workers have described a comprehensive piece of work characterising and evaluating patient-derived organoids (PDO) from gastrointestinal cancer patients participating in Phase 1/2 clinical trials.

This paper has  four key aspects:

  • Firstly, that organoids can be established from patients’ metastasised tumour sites, not solely the primary tumour.
  • Secondly, that the patient-derived organoids have genetic, physical and molecular characteristics that are very similar to the patients’ tumour tissue. This opens the door to the use of these PDOs as mimics and models for patient tumours.
  • Thirdly, this study has shown how these PDOs can be used in 3D drug screening assays. The PDOs responded to a library of 55 drugs (used in clinical trials or clinical practice), with a very strong correlation between the replicate assays. The molecular analysis of the PDOs in the screening assays indicate this approach could be used to determine the susceptibility of patients’ tumours to drug treatment.
  • Finally, this paper reported the responses of the PDO panel to four anticancer drugs and compared it with the patients’ responses in the clinical trials. The organoid responses showed a strong overlap with the drug results in the patients: the comparison between the PDOs’ and patients’ response showed 100% sensitivity, 93% specificity, 88% positive prediction and 100% negative prediction.

The authors conclude that this study suggests that “PDOs can recapitulate patient responses in the clinic and could be implemented in personalized medicine programs.”

The Today programme on BBC Radio 4 featured a news piece on Friday 23rd February 2018 which is a timely follow on to our previous news piece ‘Organoids – Method of the Year.’ The piece reported by the James Gallagher, the BBC’s Health and Science correspondent, focused on recent research where scientists have been able to predict how cancer patients will respond to therapy by growing miniature versions of their tumours (organoids) in the laboratory.

Biopsies of patients with advanced gastrointestinal cancer were taken and then grown into miniature 3D cancerous organoids in the laboratory. Researchers treated each organoid with the same drug doctors gave to the patient in the clinic. The results showed:

  • If the drug worked in the organoids, it worked 88% of the time in the patient
  • If the drug failed in the organoids, it failed 100% of the time in the patient

Prof David Cunningham, from the Royal Marsden NHS Foundation Trust, where some of the patients were treated, said: “This promising research moves us forward in the field of personalised medicine, and should ultimately lead to smarter, kinder and more effective treatments for patients.”

The research paper detailing this work, “Patient-derived organoids model treatment response of metastatic gastrointestinal cancers,” was published in the February 2018 edition of the journal, Science.

Cellesce has a range of colorectal cancer organoids for applications in drug discovery and for other research applications where large quantities of organoids are required.

In the last few years fundamental cell biology research has moved from studies in two dimensions (2D) looking at cells on flat plastic plates to more comprehensive tools and understanding of how cells work in three dimensions (3D) both singly and in connection to other cells. 3D cell aggregates can be random constructs, or as in the case of organoid culture,  organised multicellular-matrix structures that recapitulate human tissue and organs.
organoids - method of the year

The Nature Methods journal has awarded ‘organoids’ the method of the year

Organoids represent such exciting tools, models and potential for fundamental human biology that the journal Nature Methods has hailed them as their Method of the Year for 2017. In the January 2018 issue (Volume 15, No 1) Nature Methods has focused on the fundamentals and the potential of organoids to be used: as models in mammalian development, as tools to study biological processes; and as models for disease. In addition to research uses, Cellesce is commercially developing organoids as models for drug discovery, further exploiting their recapitulation of human organ characteristics to give in vivo-like drug responses. For readers who are new to the organoid field, the commentary and papers in this special issue of Nature Methods provide a good starting point to understand their basics and their exciting potential for the future.