New avenue for study of diseases like multiple sclerosis
Surprising discovery points to potential target for treatment
- Date:
- September 22, 2021
- Source:
- Ann & Robert H. Lurie Children's Hospital of Chicago
- Summary:
- A surprising discovery may offer a promising new direction in the study of multiple sclerosis and other diseases of hypomyelination -- when axons of neurons are not covered sufficiently in fatty sheaths (myelin), which disrupts communication between nerve cells.
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A surprising discovery may offer a promising new direction in the study of multiple sclerosis and other diseases of hypomyelination -- when axons of neurons are not covered sufficiently in fatty sheaths (myelin), which disrupts communication between nerve cells.
While investigating potential mechanisms of brain tumor formation, Oren Becher, MD, from Ann & Robert H. Lurie Children's Hospital of Chicago, and colleagues, found that overexpression of a growth factor receptor (called PDGFRA) in a mouse model did not cause tumors, as anticipated. Instead, they observed severe hypomyelination, which manifested as impaired balance, and hindlimb and tail tremors. Their findings were published in the journal Brain and Behavior.
"Our study provides a new model for studying hypomyelination," said Dr. Becher, senior author on the study, Rory David Deutsch Malignant Brain Tumor Research Scholar at Lurie Children's and Associate Professor of Pediatrics, Biochemistry and Molecular Genetics at Northwestern University Feinberg School of Medicine. "Blocking this receptor might prove to be a novel strategy to treat myelination disorders like multiple sclerosis. Of course, more research is needed to confirm our results and explore further."
Dr. Becher pointed out that the current study focused on prenatal events, which might explain why no tumors were formed, since timing is very important in cancer development.
"We saw that too much PDGFRA interfered with differentiation of progenitor cells that give rise to cells that make myelin," said Dr. Becher. "These progenitor cells, which continue to be generated throughout the human lifespan, are known to be the cell of origin for brain tumors like diffuse midline glioma. Our findings suggest that the mechanisms we observed might spur brain tumor development at a postnatal stage."
"I would like to express my profound gratitude to the Rory David Deutsch Foundation and Lurie Children's for their vision, confidence and support of this research," said Dr. Becher.
Research at Ann & Robert H. Lurie Children's Hospital of Chicago is conducted through the Stanley Manne Children's Research Institute. The Manne Research Institute is focused on improving child health, transforming pediatric medicine and ensuring healthier futures through the relentless pursuit of knowledge. Lurie Children's is ranked as one of the nation's top children's hospitals by U.S. News & World Report. It is the pediatric training ground for Northwestern University Feinberg School of Medicine. Last year, the hospital served more than 220,000 children from 48 states and 49 countries.
Story Source:
Materials provided by Ann & Robert H. Lurie Children's Hospital of Chicago. Note: Content may be edited for style and length.
Journal Reference:
- Herminio Joey Cardona, Agila Somasundaram, Donna M. Crabtree, Samantha L. Gadd, Oren J. Becher. Prenatal overexpression of platelet‐derived growth factor receptor A results in central nervous system hypomyelination. Brain and Behavior, 2021; DOI: 10.1002/brb3.2332
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