Cancer Research UK – Science blog

Starving cancer cells of specific nutrients can slow tumour growth and sharpen the effects of chemotherapy and radiotherapy – now, startup Faeth Therapeutics is creating precision diets which can enhance cancer treatments. We spoke with Professor Oliver Maddocks to find out how the startup came about, and how hacking cancer metabolism with diet could help cancer treatments work better.

It was way back in the 1920s when cancer metabolism was first identified as a possible therapeutic target.

Otto Warburg had observed that cancer cells prefer to metabolise glucose anaerobically, even when oxygen is present. Later, in the 1940s, Sidney Farber discovered that a folate antagonist could block nucleotide synthesis. Folate antagonists and other “antimetabolite” drugs became the vanguard of the chemotherapy era and improved survival for millions of people with cancer. In recent years, however, genomics has taken centre-stage in cancer research, and all but a few forgot about metabolism.

Yet, a handful of researchers have kept metabolism on the agenda. Professor Oliver Maddocks and his then-supervisor Professor Karen Vousden, former chief scientific officer at Cancer Research UK – now running her lab at the Crick Institute in London – found that starving cancer of selected amino acids slowed tumour growth and improved survival, with landmark Nature papers in 2012 and 2017. Around the same time, two other leading cancer research groups in the UK and US were coming to similar conclusions – that diet alterations could selectively hit the metabolism of cancer cells hard enough to slow growth and to make them more vulnerable to other therapies.

“Each diet is precision engineered to weaken the patient’s particular cancer – and that will be tested in well-designed clinical trials. This is where Faeth differs from the myriad of, sometimes dubious, diets and food supplements that claim to treat cancer.”

“There was a natural coming together of these three groups of scientists,” says Maddocks. “There were nine of us around the table, saying we all think this is fundamentally important, we need to start a company to translate this.”

This transatlantic meeting of minds gave birth to Faeth Therapeutics in 2019. The start-up has three routes to attack cancer metabolism – pairing anti-cancer drugs with precision diets engineered to weaken the cancer, along with a digital app with direct dietician support to help patients stick with the diet. Fast forward to today, and the start-up has three clinical trials ongoing, a busy R&D department stocking up the pipeline, and $67 million of investment to make it all happen.

Mind the metabolism

Originally a pharmacist, Maddocks spent 18 months as a Fulbright scholar in the US before returning to the UK in 2010 to start a postdoc in Vousden’s lab at the CRUK Beatson Institute. The lab was focussed on the p53 tumour suppressor gene and was getting more interested in cancer metabolism just as Maddocks arrived.

Dr Oliver Maddocks is Co-Founder & Head of Research at Faeth Therapeutics and Professor of Cancer Biology & Metabolism at The University of Glasgow.

Quickly dividing cancer cells have bigger nutrient requirements than most healthy cells. The question was, could this metabolic difference be exploited? “Karen and I approached this with a very blank sheet of paper and thought, how can we attack this re-emerging field of cancer metabolism?” says Maddocks. “Others had shown the importance of glucose – we wanted to look beyond that. So, we started asking what other nutrient alterations impede cancer cell growth, and I began doing really basic experiments.”

Maddocks concocted a minimal essential media, with the bare minimum amount of ingredients needed to culture cells. “I immediately saw cells lacking p53 did not grow, but the p53 wild type cells could,” he says. Clearly, he was starving the cells lacking p53 cells of something important. Maddocks started adding components, one by one, back into the media. “What immediately rescued the cells was adding back serine and glycine,” he says. This was an overwhelming observation; that this theoretically non-essential nutrient could control growth to such an extent.

The next question was whether starving mice of serine and glycine would impact cancer growth. This went against conventional wisdom at the time. There was no point removing serine and glycine from the diet, so the dogma went, since the organism could synthesize them anyway and was not reliant on sourcing these non-essential amino acids from the diet. They forged ahead anyway.

“The way Karen and I thought about this was, let’s assume we don’t know the answer before we talk ourselves out of doing an experiment,” says Maddocks.

He formulated a diet with a similar nutrient profile to the cell culture media and fed it to mice. “Lo and behold, just changing two small parts of the diet really slowed tumour growth and allowed the mice to survive for longer,” he says.

Liquid chromatography-mass spectrometry (LC-MS) analysis of the serum from mice fed the restricted diet showed that levels of serine and glycine halved – evidence that dietary depletion had an impact, despite the ability to manufacture the amino acids elsewhere in the body.

Maddocks and Vousden filled in various mechanistic elements of the story over the next few years, continuing to collaborate after Maddocks received funding from CRUK to set up his own cancer metabolism lab at the University of Glasgow in 2015. Maddocks and Vousden were already convinced that their discovery could be translated into a treatment. Together with the commercialisation arm of CRUK, Cancer Research Horizons, they patented the process of selectively starving cancer cells of certain amino acids.

“You start off as a young scientist quite idealistic, thinking you should just publish findings, not worry about patents, and let the whole world have them,” says Maddocks, “but you learn that if you can’t patent, it becomes really difficult to translate because the clinical translation process is so resource intensive.”

Converging towards a common conclusion

Despite their breakthrough discoveries in how nutrient depletion can starve cancer cells, Maddocks and Vousden were feeling a little lonely in the years between 2010 and 2017, with few other groups working in the space, and little interest from funders or industry partnerships. “It was too far outside people’s comfort zone,” says Maddocks.

However, things began to change in 2018, when star US cancer researcher Lew Cantley showed that systemic metabolism was responsible for blunting the response to PI3K inhibitors in vivo. The offending insulin-glucose feedback loop could not be suppressed with the diabetes drug metformin, but a ketogenic low-carbohydrate diet significantly boosted effectiveness of PI3K inhibitors.

Around the same time, Greg Hannon’s functional genomics lab at the CRUK Cambridge Institute showed that breast cancer metastasis depends on the availability of the non-essential amino acid asparagine, and that limiting asparagine in the diet of mice reduced metastasis.

“The three groups, when you put it all together, provided a thematic discovery around diet, tumour metabolism, systemic metabolism, targeted therapies and chemotherapies,” says Maddocks. In a nutshell, anti-cancer therapy provokes a metabolic response either systemically in the whole organism, or in the tumour, or both. This metabolic response can worsen clinical outcomes. But diet can help control the metabolic response, improving outcomes.

Faeth takes form

When the three research groups decided to form a startup, an immediate challenge was: who among the nine cofounders would take the lead to push the company forward into existence? As an early career principal investigator, a pharmacist, and with some previous experience in industry, Maddocks was ideally placed to take some time aside from his academic research to lead the fledgling company.

“I have this pharmacy background, molecular biology of cancer and then cancer metabolism, which gave me a translational way of thinking about things,” he says. Plus, he says, bringing a startup to life was an itch he just had to scratch.

The following months and years were a whirlwind of conversations with venture capitalists until they secured enough seed investment in 2019 to get off the ground. “To begin with, it was about trying to get the funding, having conversations about raising money, putting a deck together to present to potential investors. And also, figuring out how you actually start and incorporate a company.”

Throughout all of this, Maddocks was juggling his academic research and setting up the company, not to mention two young kids and a pandemic. This was a lot of work, admits Maddocks. “However, success is very little about how bright you are,” he says, “and much more about how hard you work.”

“We have molecular biologists working in labs doing cancer metabolism, doing molecular biology, but we also have dieticians and chefs.”

A thumbs up from CRUK and the university to spend a portion of his time on the new company helped. So much so in fact that, when needed, Maddocks took a sabbatical from research to concentrate fully on the endeavour. The new transatlantic company was founded in 2019, and was aptly named Faeth, meaning “nutrition” in Welsh. Getting CEO & Co-Founder Anand Parikh onboard early was a critical step forward, says Maddocks, who then took on the role of chief scientific officer.

The Faeth approach

There are three main aspects to a Faeth treatment regimen: therapy, diet and digital support. “Instead of just giving someone a tablet and walking away, they will get the therapeutic, they will get food tailored exactly for what they need, delivered to their door,” says Maddocks. “And they get a digital health app, which will coach them through the diet, learn about their preferences, help them comply.”

Each diet is precision engineered to weaken the patient’s particular cancer – and that will be tested in well-designed clinical trials. This is where Faeth differs from the myriad of, sometimes dubious, diets and food supplements that claim to treat cancer.

“People have come up with ideas about nutrients, and then applied it in a very non-targeted way across a bunch of different cancers or different genotypes, without that real mechanistic insight into why that dietary intervention works,” says Maddocks. Faeth wants to change that. “We’re bringing our molecular biology, cancer metabolism, genetically-driven focus to this question of diet,” explains Maddocks, “We’re not going to prescribe or suggest things for people unless we know it’s validated through clinical trials for that particular type of cancer.”

The previous discoveries of Faeth’s co-founders around control of serine, glycine, insulin, glucose and asparagine provide a starting point for clinical trials of precision nutrition. Three clinical trials are already underway. Two are investigating standard care medications for metastatic pancreatic cancer and metastatic colorectal cancer in combination with a nonessential amino acid restriction diet. In this diet, patients receive a very low protein diet composed of whole foods, supplemented by a specially formulated shake that is free from certain amino acids.

The third trial is an example of Faeth’s alternative approach – testing an investigational drug in combination with a personalised diet. In this phase 1b trial, Faeth are investigating the anticancer ability of an in-licensed experimental PI3K inhibitor called serabelisib, combined with an insulin suppressing diet in people with advanced solid tumours with PIK3CA mutations.

Stocking the pipeline

As the team wait for results from the clinical trials, Faeth’s R&D department – supported by Vousden and the other scientific co-founders – are stocking up the pipeline for future studies. Their discovery platform, dubbed MetabOS, combines functional genomics, metabolomics and machine learning. The platform zooms in a tumour’s genotype and organ to figure out which nutrients can be deleted to sensitise the tumour to a therapy. “We’re already bringing new programs through preclinical research,” says Maddocks.

The company’s multidisciplinary team allows quick iteration of new ideas. “It’s a unique company, where you have molecular biologists working in labs doing cancer metabolism, doing molecular biology, but you also have dieticians and chefs,” says Maddocks.

Molecular biologists can take the hot off the press results of a nutrient starvation experiment, go straight to the dieticians who assess whether humans can tolerate depletion of the nutrient in the diet, and from there straight to the company chefs who will start creating meals, recipes and menus for initial taste-testing by the rest of the company. “You have to iterate many times around that until you get a diet that actually does the thing you want it to do,” says Maddocks.

In conversations with oncologists, Maddocks and his team learned that people with cancer often ask how they can be active in their own treatment. They say “what can I do? What should I eat?” The Faeth diets could help feed some of that agency back to patients.

Explore how Cancer Research Horizons can help you translate your work

Fiona Dunlevy is a freelance medical writer. She has been medical writing since 2010, following doctoral and postdoctoral research in respiratory biology.






More on this topic

Source link
#Cancer #Research #Science #blog

Related Articles

Leave a Reply

Your email address will not be published. Required fields are marked *