A blood test that can diagnose any type of cancer years before symptoms appear could be on the horizon.
Scientists have discovered a protein released in the early stages of the disease when tumors are most curable.
It is produced by a gene named KRAS – the most frequent mutation across all tumors including lung, bowel and pancreatic.
The breakthrough offers hope of a simple screening program for at-risk individuals such as older or genetically-susceptible people.
It would be looking for chemical changes in fragments of genetic code that leak from tumors into the bloodstream.
“The sooner you detect someone has cancer, the more likely they will be to survive through treatment and surgery,” said lead author Dr. Daniel Kim, of the University of California, Santa Cruz.
“Millions of people die from cancer every year around the world, and there is an urgent need to develop highly sensitive and specific diagnostic tests that enable cancer early detection before it has spread to other parts of the body.”
The KRAS gene regulates RNA (ribonucleic acid), molecules that “translate” instructions encoded in our DNA.
Lab experiments found cancer triggering variants wrongly activate others that can be detected in the blood through sequencing, or mapping.
Kim believes it is a very promising tool for diagnosing cancer in its earliest stages.
This could be done through a minimally invasive technique called “liquid biopsy” rather than traditional tumor tissue surgery.
Some tumors shed DNA into the blood a long time before a person would start experiencing symptoms.
The researchers introduced mutant KRAS into healthy lung cells in Petri dishes, pushing them into a cancerous state. They performed RNA sequencing using several different methods. Computer simulations identified prevalent RNA compared to control cells.
Additional epigenomic profiling looked at how genes are turned on or off without changes to the DNA sequence itself.
Other tests identified which RNAs are packaged into extracellular vesicles and preferentially secreted from cancerous cells affected by mutant KRAS.
First-author Roman Reggiardo, a Ph.D. candidate in Kim’s lab, said: “We were in an interdisciplinary environment that really encouraged us to think about RNA and cancer in a different way.”
The researchers plan to confirm the results by analyzing blood samples from lung cancer patients.
They hope to develop a test that could detect these RNA signatures as biomarkers for the early diagnosis of lung cancer.
Additionally, they anticipate it leading to a framework for developing an RNA liquid biopsy platform for multi-cancer early detection.
“Now that we know the RNA signatures of this very early event in cancer, this will help us develop new methods for cancer early detection, which will hopefully help save a lot of people’s lives in the future,” Kim said.
A one size fits all test is regarded as a “holy grail” of cancer research. It would augment rather than replace screening programs currently run by the NHS such as those for breast and cervical cancer.
It could also be particularly effective at finding tumors that can be difficult to identify early, such as those of the bowel, lung, pancreas, throat and ovaries.
The study was published Tuesday in the journal Cell Reports.
Produced in association with SWNS.
This story was provided to Newsweek by Zenger News.