The protein that causes pain

Tuesday, 09 April, 2019

The protein that causes pain

Scientists at Sweden’s Karolinska Institutet have discovered that if a particular protein is missing during the foetal stage, no neurons develop that convey pain, temperature and itch. Published in the journal Cell Reports, their discovery could eventually lead to new drugs for pain conditions.

Previous research into the genetics of nerve system development has discovered five genes that are associated with aberrant pain experiences. A person born with a mutation of one of these genes (PRDM12) is unable to feel pain, which causes considerable problems.

“But the exact mechanism that causes the faulty pain function is unknown,” said Dr Saida Hadjab, senior researcher at the Department of Neuroscience, Karolinska Institutet.

To ascertain this cause, Dr Hadjab and her team conducted an experiment on mice in which they blocked the expression of the PRDM12 gene in the stem cells that give rise to different kinds of neuron. They found that the mice developed no neurons that register pain, temperature and itch.

“We identified the molecule, a protein, that is required for the development of pain neurons from the stem cells,” said Dr Hadjab. “It’s surprising that the protein has such broad functionality.”

In another experiment on chickens, the researchers instead enhanced the expression of the PRDM12 gene in the neuronal stem cells in the belief that more pain cells would develop, but this proved not to be the case.

“This shows that the protein PRDM12 needs helper substances, or cofactors,” Dr Hadjab said. “On the other hand, the development of all other cell types that usually form from these stem cells was stopped.”

In adult animals too, the PRDM12 gene is still expressed and only in the pain neurons, but the researchers do not yet know what part the protein plays in these mature cells. It is conceivable that the misregulation of the gene can contribute to chronic pain and other neuropathic pain conditions.

“To find out more about this, we should start by removing the protein from adult animals’ pain neurons to see what happens,” said Dr Hadjab, who plans to lead further studies in this field. “Will they no longer be able to feel pain? If we can then identify the cofactors, we can develop new targeted drugs that can reduce pain symptoms in people with pain conditions.”

Image credit: ©

Please follow us and share on Twitter and Facebook. You can also subscribe for FREE to our weekly newsletters and bimonthly magazine.

Related News

Gut microbiome may influence HIV transmission in high-risk men

Gut microbes from high HIV-risk men drive immune activation in mice and HIV infection in cells,...

Gum bacteria implicated in Alzheimer's disease

Bacteria involved in gum disease can travel throughout the body, exuding toxins connected with...

Multigene test predicts depression risk in young people

An international research team has found a genetic score that reliably predicts the risk,...

  • All content Copyright © 2019 Westwick-Farrow Pty Ltd