Can precision medicine unlock the potential to halt the progression of Parkinson鈥檚 Disease?

Imagine not being able to write, walk or talk easily. You might fall frequently and become dependent on others. Many people will know somebody who has Parkinson's Disease. Currently medicine can help ease the symptoms but there is no cure. We are working to change that.

Graphic depicting precision medicine
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Parkinson's Disease is a common brain disorder that currently affects around 145,000 people in the UK. Each day, 80 people in the UK are newly diagnosed with this condition. People are usually diagnosed with Parkinson鈥檚 because of their motor symptoms, which include tremor, problems with walking and coordination. However, it can also cause many other symptoms such as depression and anxiety or marked constipation.

Oliver Bandmann, Professor of Movement Disorders Neurology, NIHR 葫芦影业 BRC Investigator and Honorary Consultant Neurologist at 葫芦影业 Teaching Hospitals NHS Foundation Trust, and his team recognise Parkinson鈥檚 Disease as a global problem that must be addressed. 鈥淓very patient differs from the next with their symptoms and we don鈥檛 know why. We also don鈥檛 know why some patients progress quickly and others only slowly or why some patients respond well to medication and others don鈥檛. The number of people with Parkinson鈥檚 worldwide is predicted to double between 2007 and 2030 鈥 we urgently need to gain a better understanding of the disease. Research on Parkinson鈥檚 is needed more urgently than ever 鈥 in the US alone, the annual costs arising from Parkinson鈥檚 exceed $50 Billion Dollars! Any money spent on research today can reduce both costs and suffering later.鈥

Dr Heather Mortiboys, Senior Lecturer in Translational Neuroscience and Parkinson's UK Senior Research Fellow, explains 鈥淲e don鈥檛 yet fully understand why brain cells are dying in Parkinson鈥檚. The reasons are almost certainly not the same in every patient; presenting even more of a challenge for us. Added to this we cannot take brain biopsies of patients so we need a model in which we can study these mechanisms.鈥

Pam Irvine is a patient of Professor Bandmann's and was diagnosed with Parkinson鈥檚 Disease in 2017. 鈥淭here are some things that had been so hard, and before I saw Professor Bandmann I had difficulty getting out of bed. I couldn鈥檛 dress myself very well, Mike (my husband) had to cut my food up for me, I鈥檇 lost my swallowing reflex, I had bladder problems - the list was endless.鈥 

Professor Bandmann explains 鈥淎t the beginning of the disease, some symptoms respond well to medication. However, the longer a patient has the disease, the less well the drugs work and the more likely patients are to develop side effects. There isn鈥檛 currently a treatment that will slow the progression of the disease and we don鈥檛 have a means to influence how a patient responds.鈥 

But scientists and clinicians at the University of 葫芦影业 are working with patients to change this. By gaining a better understanding of the disease they are working towards new and potentially life-changing treatments to slow it down and one day halt it in its tracks.

Using advanced science to screen potential treatments

Parkinson鈥檚 patients in 葫芦影业 and London are taking part in a clinical trial led by NIHR 葫芦影业 Biomedical Research Centre to test a drug, for the first time, which could slow progression of the disease.

Every brain cell contains chemicals which are used to communicate with other brain cells - this is fundamental to their function. The brain cells particularly affected in Parkinson's contain the chemical dopamine which are vital for healthy coordination and movement. They rely on energy-producing mitochondria to function, but in people living with Parkinson鈥檚 the mitochondria, or 鈥榩owerhouse鈥 of the cells, are disrupted and the cells begin to fail and slowly die.

Between 2009 and 2013 the 葫芦影业 Parkinson鈥檚 disease research team at the 葫芦影业 Institute for Translational Neuroscience (SITraN) completed the world鈥檚 first drug screen in Parkinson鈥檚 patient tissue. After assessing over 2,000 drugs, they have identified a number which could boost the function of dopamine-containing brain cells.

Dr Heather Mortiboys in lab

Our research uses pioneering methods to grow these brain cells from the skin cells of patients with Parkinson鈥檚 Disease. This advanced technique, starting with patient cells, means that potential drugs are more likely to work when used in people. We have developed a way to generate brain cells in high numbers - something never achieved before - to test the identified drugs on these patient-derived cells.

Dr Heather Mortiboys

The team identified a potential drug that has already been in use for decades to treat liver disease. Ursodeoxycholic acid (UDCA) demonstrated beneficial effects on the patient tissue and was found to improve mitochondrial function. Using fly models with Parkinson鈥檚, researchers were then able to demonstrate the positive effect of UDCA on nerve cells in Parkinson鈥檚 Disease.

Testing drugs like UCDA, which are already approved for other uses, can save years and hundreds of millions of pounds. 

From bench to bedside - taking fundamental science into a clinical trial 

The ground-breaking trial, led by Professor Bandmann in partnership with 葫芦影业 Teaching Hospitals NHS Foundation Trust, is now assessing the safety and tolerability of UDCA in Parkinson鈥檚 patients. 鈥淎fter nearly a decade of research we are extremely pleased to have launched the first clinical trial of UDCA in Parkinson鈥檚 patients to see if the drug is safe and tolerated.

This is a pilot trial, which, if successful, will lead to a bigger study to firmly establish the effectiveness of the treatment to slow down the progression of Parkinson鈥檚. 

A drug which will slow down the progression of the disease 鈥 even after the first few years of diagnosis 鈥 would help people to have an improved quality of life for longer.鈥

The study recruited its final patient in September 2019, with a total of 30 participants. To improve the outcomes of clinical trials it is fundamentally important to be able to evaluate them. Researchers utilise advanced technology including wearable sensors to assess patient mobility in everyday life, in-depth gait analysis and the latest in medical imaging. This allows them to take the results from the trial back to the lab to examine whether the drug successfully rescues the mitochondria. 

This trial is the first step in understanding the drug鈥檚 potential to slow Parkinson鈥檚 progression. 

Pam Irvine, first patient to complete the UP study clinical trial
Pam Irvine, first patient to complete the UP study clinical trial

What really impressed me was the first time we met Professor Bandmann and he told us about the 葫芦影业 Institute for Translational Neuroscience (SITraN). We went to an Open Day and we鈥檇 had no idea the importance of the research going on in somewhere like 葫芦影业. It was absolutely amazing - truly inspirational really.

Pam Irvine

Parkinson鈥檚 patient taking part in the UP study.

The future of personalised medicine

Advancing a potential treatment into a clinical trial shows promising progress towards a treatment. But we need to continue to work on disease models to better understand the cells that are driving Parkinson鈥檚. This is the only way we will be effective in stopping progression of the disease. 

Dr Mortiboys is now expanding her work into other mechanisms of Parkinson鈥檚 Disease. 鈥淥ur work on mitochondria is an example of pioneering academic-led drug discovery from bench to bedside. But it's unlikely that there will be one drug that works for every patient. Whilst we have advanced potential treatments for patients where mitochondria are identified as the root cause of the disease - this won鈥檛 be the mechanism that is driving everyone鈥檚 Parkinson鈥檚 so different treatments will be required.鈥

A has identified two different abnormal mechanisms that underpinned the development of the disease in two different groups of patients with the common sporadic form of Parkinson鈥檚 Disease. The study was carried out in collaboration with the University of Oxford and is the largest study to date to use patient tissue from skin biopsy samples from people living with Parkinson鈥檚 Disease.

The two groups displayed either mitochondrial or lysosomal dysfunction. The findings of which could be a crucial catalyst to discover new personalised drug treatments.

Professor Bandmann adds: 鈥淲e also want to study inflammation as a further important mechanism in Parkinson鈥檚. The inflammation in the body of people with Parkinson鈥檚 may spread from the gut through the body until it reaches the brain. This should give us new opportunities to stop the illness from getting worse 鈥 by stopping the inflammation in the gut, we might also cure the inflammation in the brain!鈥

Professor Bandmann expects that the evolving concept of personalised medicine will play a big part in the next 10-15 years of research. 鈥淎t 葫芦影业 we are focusing on understanding why Parkinson鈥檚 progresses differently in each patient and using this information to deliver treatments. This is where our fundamental link between clinicians delivering treatments and scientists investigating the disease is vitally important. It is this ability to span research from basic science and in-house drug discovery to clinical trials that makes the University of 葫芦影业 the leading institution to pioneer new treatments for this disease."

Professor Oliver Bandmann

The work we are doing now means in the future we will be able to provide a precision medicine approach where we no longer have to treat patients in the exact same way. We aim to develop personalised treatments that tackle the root cause of the disease which would be a huge leap forward for people suffering with this long-term neurodegenerative disorder.

Professor Oliver Bandmann

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Further information

The NIHR BRC is a research partnership between the University of 葫芦影业 and 葫芦影业 Teaching Hospitals NHS Foundation Trust, dedicated to improving the treatment and care of people living with chronic neurological disorders.

The National Institute for Health Research (NIHR) is the nation鈥檚 largest funder of health and care research. The NIHR was established in 2006 to improve the health and wealth of the nation through research, and is funded by the Department of Health and Social Care. In addition to its national role, the NIHR commissions applied health research to benefit the poorest people in low- and middle-income countries, using Official Development Assistance funding.

Funders
  • Parkinson鈥檚 UK
  • Wellcome Trust 
  • Norwegian Parkinson Foundation.
  • Parkinson鈥檚 UK Virtual Biotech
  • Rosetree鈥檚 Trust
  • MRC
  • MRC DiMen scheme
  • JP Moulton Charitable Foundation
  • The Cure Parkinson鈥檚 Trust 
  • PRO.MED.CS.
Partners
  • NZP UK Ltd
  • Professor Tom Foltynie at University College London Hospitals
  • University of 葫芦影业鈥檚 Institute for Insilico Medicine (Insigneo)
  • Dr Chris Elliott, University of York
  • Professor Sylvie Urbe, University of Liverpool
  • Parkinson's Patient and Public Involvement Groups

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