Allergy & Immunology Biotechnology Diagnostics Internal Medicine Neurology News Obstetrics & Gynecology Oncology Ophthalmology Pathology Pharma & Biotechnology Psychiatry Radiology Surgery Urology

How work the Enteric Nervous System Forms?

Scientists have made a breakthrough in understanding how the enteric nervous system forms, which could pave the way for new treatments for neurodegenerative diseases such as Parkinson’s.

The findings, published in the journal Stem Cell Reports, pave the way for using stem  to understand and treat a range of diseases linked to the enteric nervous system—which is embedded in the walls of the esophagus, stomach, small and large intestines, pancreas, gallbladder and biliary tree.

Researchers from the University of Sheffield and University College London (UCL) identified a key stage in the formation of the enteric nervous system using , which can generate any cell type in the body, and were able to generate enteric neurons in the lab.

The enteric nervous system contains between 400-600 million nerves and is crucial for everyday functions such as digestion, fluid absorption and communicating with the immune system.

Faults in the enteric nervous system are often linked to life-threatening digestive disorders such as Hirschprung’s disease, where nerves in the system are missing. Ongoing research has also suggested that Parkinson’s disease is initiated in the enteric nervous system before reaching the brain.

Dr. Anestis Tsakiridis,Group Leader of the Study from the University of Sheffield’s Centre for Stem Cell Biology, said: “Our findings show new promise for using stem cells to treat a range of diseases. We now plan to utilize these findings as the basis for developing stem cell-based approaches to treat and model diseases caused by dysfunction of the enteric nervous system.”

Dr. Tom Frith, from the Francis Crick Institute who led the study said: “This work was the result of an exciting collaboration with experts from the UCL Great Ormond Street Institute of Child Health.

“These results are a key first step into generating cells in a dish that may one day be used to help treat patients.”

The team involved in the study have been awarded a £1.2 million grant from the Medical Research Council (MRC), which focuses on the development of a stem cell therapy for the treatment of Hirschprung’s disease.

Sandesh Ilhe
Sandesh Ilhe
With an Engineers degree in Advanced Database Management and Information Security, Sandesh brings the deep understanding of the digital world to the table. His articles reflect the challenges and the complexities that come along with every disruption in the industry. He carries over six years of experience on working with websites and ensuring that the right article reaches the right reader.