Science

Blood turned into nerve cells by Canadian researchers

Canadian scientists have discovered how to turn a simple blood sample into nerve cells — allowing them to run test on cells responsible for pain, numbness and other sensations for the first time.

Stem cells extracted from blood are converted into neural stem cells using patented technique

Mick Bhatia, director of McMaster University's Stem Cell and Cancer Research Institute, says his lab hopes to eventually develop neurons that could one day be transplanted into patients to restore healthy brain cells as a treatment for various diseases, like Alzheimer's. (JD Howell/McMaster University/Canadian Press)

Canadian scientists have discovered how to turn a simple blood sample from a man or woman into a variety of nerve cells, including those that are responsible for pain, numbness and other sensations.

The technology will allow researchers to test potential drugs for treating pain using the nerve cells in a lab, all based on an individual patient's own genetic signature, said Mick Bhatia, who led the team of researchers at McMaster University in Hamilton.

"Now we can take easy to obtain blood samples and make the main cell types of neurological systems — the central nervous system and the peripheral nervous system — in a dish that is specialized for each patient," said Bhatia, director of McMaster's Stem Cell and Cancer Research Institute.

"Nobody has ever done this with adult blood, ever."

'You wouldn't give a brain biopsy'

Up until now, there has been no good way to get access to human neural cells to test or study, Bhatia told CBC News.

 "You wouldn't give a brain biopsy," he said.

A microscope image shows neurons (stained in order to be visible) derived from blood using the new method. (McMaster University)

While researchers can buy certain kinds of rat neural cell lines, they don't consistently respond the way human neural cells do.

The new technique involves extracting stem cells from blood — ones that normally have the potential to become red blood cells or various kinds of white blood cells involved in fighting off pathogens. The blood stem cells are converted over about a month into neural stem cells using a patented technique. Those can survive for several months in a petri dish.

These neural stem cells are then manipulated in the lab to give rise to several types of nerve cells, including those that make up the peripheral nervous system throughout the arms, legs and the rest of the body. 

Nobody has ever done this with adult blood, ever.- Mick Bhatia, McMaster University

"We can actually take a patient's blood sample, as routinely performed in a doctor's office, and with it we can produce one million sensory neurons," said Bhatia. "We can also make central nervous system cells."

The researchers hope to discover new pain drugs that take aim only at the peripheral nerve system, while not affecting the brain and the rest of the central nervous system, as standard opioids and narcotics do.

"You don't want to feel sleepy or unaware, you just want your pain to go away," said Bhatia.

"But up until now, no one's had the ability and required technology to actually test different drugs to find something that targets the peripheral nervous system and not the central nervous system in a patient-specific or personalized manner."

Other benefits

His lab hopes to further develop the blood-generated neural stem cells into motor and other kinds of neurons that could conceivably one day be transplanted into patients to restore healthy brain cells as a treatment for Alzheimer's, Parkinson's or Lou Gehrig's disease, for instance.

The technology could also be used to produce retinal nerve cells to treat people who are losing their sight due to age-related macular degeneration, he said.

The research was published Thursday in the journal Cell Reports.

Bhatia and his team started work on the project after successfully converting skin cells into blood a few years ago, showing that one cell type could be turned into another. They thought what would be most useful would be to be able to make other kinds of cells from blood — a type of tissue that can be easily and harmlessly drawn from someone with minimal effects, that regenerates quickly, and is easily frozen and stored.

They decided to turn blood cells into neural cells because those are normally hard to gain access to.

With files from CBC News