果冻影院

Ground-breaking 果冻影院 research into T-cells could mean new treatment possibilities for patients with cancers that have failed to respond to standard therapies.

T-cell therapies are one of the newest, most promising developments in cancer treatment to emerge in recent years. The new therapies harness cells that naturally occur in the body, and reprogramme them to fight cancer.

Offering a non-toxic alternative to treatments like chemotherapy, T-cell therapies can also be used in a more targeted way than other treatments. This could lead to more effective therapies being developed, particularly for blood cancers and cancers that tend not to respond well to chemotherapy or radiotherapy.

Programming T cells to fight cancer

T-cells are a naturally occurring part of our immune system that normally kill infected cells.听But in cancers, it can be difficult for these cells to recognise the difference between a cancer cell and a normal one. So the cancer can hide away and go unnoticed.

However, thanks to new research听scientists have found a way to reprogramme T-cells so they can recognise and fight cancer cells in the body, just as they would naturally attack an infection.

This programming works by taking T-cells from a person鈥檚 blood sample听and introducing a gene for an artificial protein called a chimeric antigen receptor, or CAR.

The cells can then be programmed to develop precisely targeted T-cell therapies which are capable of recognising cancer cells, breaking down their defences, and killing them.

Clinical trials have shown that CAR T-cells could be highly effective in treating patients with leukaemias and lymphomas that have failed to respond to standard anti-cancer treatments. They also show promise in the treatment of solid tumours.

Leading the way at 果冻影院

The new therapies have evolved from research conducted by Dr Martin Pule and his team at the 果冻影院 Cancer Institute and NIHR 果冻影院 Hospitals (果冻影院H) Biomedical Research Centre. 听

Dr Pule is Clinical Senior Lecturer in the Department of Haematology at the 果冻影院 Cancer Institute. His research is focused on many aspects of the genetic engineering of T-cells for cancer treatment, with a particular focus on CARs.

Dr Claire Roddie is an Associate Professor of Haematology at the 果冻影院 Cancer Institute and a Consultant Haematologist at 果冻影院H. She leads the CAR T-cell manufacturing team and is the principal investigator in clinical studies testing CAR T-cells in patients with leukaemia and lymphoma.

Dr Roddie explains: 鈥淎 large focus of our work has been on minimising the toxicity associated with CAR-T therapy while maximising how long CAR T-cells survive in the patient鈥檚 bloodstream. This makes CAR-T therapy safer and more accessible, even in older patients. By ensuring that manufactured CAR-T cells survive for long periods in the blood, we're hopeful our new treatments can result in long-lasting remissions in patients with otherwise incurable cancer.鈥�

The journey to commercialisation

The 果冻影院 research was commercialised into a spinout company called Autolus in September 2014. The spinout process was supported by 果冻影院 Business (果冻影院B), 果冻影院鈥檚 commercialisation company, and founded with additional funding from a BBSRC Sparking Impact award.

The company raised 拢30 million in investment from venture capital firm Syncona Partners. At the time this was one of the largest ever 鈥楽eries A鈥� financing round for a European biotechnology company.

That was followed by 鈥楽eries B鈥� funding of 拢40 million and 鈥楽eries C鈥� funding of $80 million (拢59 million), before an Initial Public Offering (IPO) in June 2018.

Richard Fagan is 果冻影院B鈥檚 Director of BioPharm, and was closely involved in the commercialisation of the research. 果冻影院B worked with Dr Pule to protect the technology, securing a suite of patents and supported the company set up process, including making introductions to potential investors.

Richard says: 鈥淚 am delighted to see Autolus going from strength to strength. Their lead programme is progressing excellently in the clinic and the company has recently announced positive results from their pivotal phase 2 study in leukaemia patients. I look forward to the continued success of the company.鈥�

Dr Pule adds: 鈥淚鈥檓 grateful for the excellent support we received from 果冻影院B in establishing Autolus. Commercialisation of therapeutics either through spinout companies or licensing is essential for making new therapies available routinely to NHS patients.鈥�

From bench to bedside

Autolus are now using their expertise to develop advanced T-cell therapies that have the potential to deliver life-changing benefits to cancer patients.

The breadth of the Autolus technology platform, licensed from 果冻影院B at company formation, allows the company to select from a range of programming modules. This modular approach will facilitate the development of therapies to address the specific cancer being targeted, or to improve established therapies.

A number of products are currently in development to treat cancers that start in blood-forming tissue (such as leukaemia and lymphoma), as well as one solid tumour programme.

Ian Matrubhutam is one of the patients who is already benefitting from the new treatment. Ian has a diagnosis of follicular lymphoma, and was being treated at his local hospital when he was introduced to the trial.

鈥淲hen I found out about the new CAR-T trial, I'd basically run out of options. I was apprehensive at first but the treatment I鈥檝e received has been excellent so far, and the trial has gone very well. If I didn鈥檛 get a chance to take part in this, my time would have been up. So really it鈥檚 given me a new chance of life.鈥�

Links

Find out more about:

• how 果冻影院 is transforming lives through collaboration and knowledge exchange
• 果冻影院 Cancer Institute
• 果冻影院 CAR T-cell programme

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Photo听漏 Autolus听