Study is expected to result in new clinical laboratory test biomarkers based on proteins shown to be associated with specific diseases
In January, the UK Biobank announced the launch of the “world’s most comprehensive study” of the human proteome. The study focuses on proteins circulating throughout the human body. Researchers involved in this endeavor hope the project will transform disease detection and lead to clinical laboratory blood tests that help diagnosticians identify illnesses earlier than with conventional diagnostics.
Building on the results of a 2023 pilot project that studied “the effects of common genetic variation on proteins circulating in the blood and how these associations can contribute to disease,” according to a UK Biobank news release, the 2025 UK Biobank Pharma Proteomics Project (UKB-PPP) plans to analyze up to 5,400 proteins in 600,000 samples to explore how an individual’s protein levels changes over time and how those changes may influence the existence of diseases in mid-to-late life.
The specimens being analyzed include 500,000 samples extracted from UK Biobank participants and an additional 100,000 set of second samples taken from volunteers up to 15 years later.
“The data collected in the study will allow scientists around the world to conduct health-related research, exploring how lifestyle, environment, and genetics lead through proteins to some people developing particular diseases, while others do not,” Sir Rory Collins, FMedSci FRS, professor of medicine and epidemiology at University of Oxford and principal investigator and chief executive of the UK Biobank, told The Independent.
“That will allow us to identify who it is, who’s likely to develop disease well before they do, and we can then look at ways in which to prevent those conditions before they develop,” he added.
“It really might be possible to develop simple blood tests that can detect disease much earlier than currently exists,” said Naomi Allen, MSc, DPhil (above), chief scientist for UK Biobank and professor of epidemiology at Oxford Population Health, University of Oxford, in an interview with The Independent. “So, it adds a crucial piece in the jigsaw puzzle for scientists to figure out how disease develops and gives us firm clues on what we can do to prevent and treat it.” Clinical laboratories may soon have new test biomarkers that help identify proteins associated with specific diseases. (Photo copyright: UK Biobank.)
Developing New Protein-based Biomarkers
A proteome is the entire set of proteins expressed by an organism, cell, or tissue and the study of the proteome is known as proteomics. The proteome is an expression of an organism’s genome, but it can change over time between cell types and growth conditions.
The human genome contains approximately 20,000 genes and human cells have between 80,000 and 400,000 proteins with specific cells having their own proteomes. Proteomics can help ascertain how proteins function and interact with each other and assist in the identification of biomarkers for new drug discoveries and development.
“This is hugely valuable, because it will enable researchers to see how changes in protein levels within individuals over mid- to late-life influence the development of a whole range of different diseases,” said Naomi Allen, MSc, DPhil, chief scientist for UK Biobank and professor of epidemiology at the Oxford Population Health, University of Oxford, in The Independent. “It will accelerate research into the causes of disease and the development of new treatments that target specific proteins associated with those diseases.
“The pilot data is already showing that specific proteins are elevated in those who go on to develop many different types of cancers up to seven years before a clinical diagnosis is made. And for dementia, up to 10 years before clinical diagnosis is made,” she added.
According to the project’s website, the UK Biobank’s proteomics dataset will allow researchers to:
- Examine proteomic and genetic data from half a million people to provide a more detailed picture of the biological processes involved in disease progression.
- Examine how and why protein levels change over time to understand age-related changes in healthy individuals.
- Utilize proteomic data together with imaging data to understand disease mechanisms.
- Open pathways for the development of artificial intelligence (AI), machine-learning tools that can predict future diseases and produce early interventions.
“Data from the pilot study has shown that specific proteins are substantially elevated in individuals with autoimmune conditions like multiple sclerosis and Crohn’s disease and so on,” Allen noted. “So, you can see how a simple blood test could be used to complement existing diagnostic measures in order to diagnose these types of diseases more accurately and perhaps more quickly.”
An Invaluable Resource of Knowledge
The initial UK Biobank started in 2006 and, to date, has collected biological and medical data from more than half a million individuals. The subjects of the UKB-PPP study are between the ages of 40 and 69 and reside in the UK. The database is globally accessible to approved researchers and scientists engaging in research into various diseases.
The full dataset of the latest research is expected to be added to the UK Biobank Research Analysis Platform by the year 2027. The newest study is backed by a consortium of 14 pharmaceutical firms.
Allen also noted that evidence from the research has emphasized how some drugs may be useful in treating a variety of conditions.
“Some proteins that are known to be important for immunity are related to developing a range of psychiatric conditions like schizophrenia, depression, bipolar disorder and so on,” she told The Independent. “And given there are drugs already available that specifically target some of these proteins that are used for other conditions, it presents a real opportunity for repurposing those existing drugs for these neuropsychiatric conditions.”
This type of comprehensive study of the human proteome may have a great impact on patient diagnosis and treatment once the study is completed and the results are disclosed.
“The data will be invaluable. The value of the data is infinite,” Collins told The Independence.
Since it is clinical laboratories that will be engaged in testing for proteins that have become associated with specific diseases, this new UK Biobank study has the potential to expand knowledge about useful protein markers for both diagnosis and therapeutic solutions (prescription drugs).
—JP Schlingman
Related Information:
Largest Ever Protein Study Set to Revolutionize Cancer and Dementia Tests
Largest Dataset of Thousands of Proteins Marks Landmark Step for Research into Human Health
Groundbreaking Human Protein Study Launches
World’s Largest Proteomics Study Launched by UK Biobank
Disease Prediction and New Drugs: Why UK Biobank’s Huge New Protein Project Matters
Blood Proteins Predict Cancer Risk Seven Years in Advance, Studies Find
