by The Ottawa Hospital
A discovery led by Dr. Michael Rudnicki at The Ottawa Hospital and the University of Ottawa is opening the door for a revolution in exosome therapy. Credit: The Ottawa Hospital
Researchers at The Ottawa Hospital and the University of Ottawa have discovered an 18-digit code that allows proteins to attach themselves to exosomes—tiny pinched-off pieces of cells that travel around the body and deliver biochemical signals. The discovery, published in Science Advances, has major implications for the burgeoning field of exosome therapy, which seeks to harness exosomes to deliver drugs for various diseases.
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“Proteins are the body’s own home-made drugs, but they don’t necessarily travel well around the body,” said Dr. Michael Rudnicki, senior author of the study and Director of the Regenerative Medicine Program at The Ottawa Hospital and Professor at the University of Ottawa.
“This discovery allows us to harness exosomes to deliver any protein throughout the body. It opens the door to a whole new field of drug development.”
Dr. Rudnicki and his team discovered the exosome-targeting postal code or zip code within a protein called Wnt7a, which plays a critical role in development, growth, regeneration and cancer. First, they showed that Wnt7a can attach itself to exosomes. Then, they deleted various parts of the Wnt7a protein until they found the smallest part that was responsible for exosome-targeting.
They called this part, which consists of 18 amino acids, the Exosome Binding Peptide (EBP). They then discovered that the EBP binds to proteins called coatomers on exosomes, and that EBP could be used to target any protein to exosomes.
“Researchers have been trying for years to turn Wnt7a into a muscle regeneration drug, but it is very difficult to deliver Wnt7a throughout the body, since it is covered in fatty molecules that don’t mix well with body fluid,” said first author Dr. Uxia Gurriaran-Rodriguez, a former postdoctoral fellow in Dr. Michael Rudnicki’s group, who is now working at the Center for Cooperative Research in Biosciences (CIC bioGUNE) in Spain.
“Now that we know how Wnt7a attaches to exosomes, we have solved this problem and can now accelerate the development of drugs for devastating diseases such as Duchenne muscular dystrophy.”
More information: Uxia Gurriaran-Rodriguez et al, Identification of the Wnt signal peptide that directs secretion on extracellular vesicles, Science Advances (2024). DOI: 10.1126/sciadv.ado5914. www.science.org/doi/10.1126/sciadv.ado5914
Journal information:Science Advances
Provided by The Ottawa Hospital
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