Stem cells from depressed patients were used to model depression and test medication response. The study found that fish oil created an antidepressant response in the model.
University of Illinois at Chicago researchers use stem cells from adults with depression to test treatments.
A study published in Molecular Psychiatry shows that patient-derived adult stem cells can be used to model major depressive disorder and test how a patient may respond to medication.
Using stem cells from adults with a clinical diagnosis of depression, the University of Illinois at Chicago researchers who conducted the study also found that fish oil, when tested in the model, created an antidepressant response.
UIC’s Mark Rasenick, principal investigator of the study, says that the research provides a number of novel findings that can help scientists better understand how the brain works and why some people respond to drug treatment for depression, while others experience limited benefits from antidepressant medication.
“It was also exciting to find scientific evidence that fish oil — an easy-to-get, natural product — may be an effective treatment for depression,” said Rasenick, UIC distinguished professor of physiology and biophysics and psychiatry at the College of Medicine.
A study published in Molecular Psychiatry shows that patient-derived adult stem cells can be used to model major depressive disorder and test how a patient may respond to medication and that fish oil, when tested in the model, created an antidepressant response. Credit: UIC
Major depressive disorder, or depression, is the most common psychiatric disorder. Around one in six individuals will experience at least one depressive episode in their lifetime. However, antidepressant treatment fails in about one-third of patients.
In the study, the UIC researchers used skin cells from adults with depression that were converted into stem cells at Massachusetts General Hospital and then directed those stem cells to develop into nerve cells. The skin biopsies were taken from two types of patients: people who previously responded to antidepressant treatment and people who have previously been resistant to antidepressants.
When fish oil was tested, the models from treatment-sensitive and treatment-resistant patients both responded.
Rasenick says the response was similar to that seen from prescription antidepressants, but it was produced through a different mechanism.
“We saw that fish oil was acting, in part, on glial cells, not neurons,” said Rasenick, who is also a research career scientist at Jesse Brown VA Medical Center and president and chief scientific officer at Pax Neuroscience, a UIC startup company. “For many years, scientists have paid scant attention to glia — a type of brain cell that surrounds neurons — but there is increasing evidence that glia may play a role in depression. Our study suggests that glia may also be important for antidepressant action.
“Our study also showed that a stem cell model can be used to study response to treatment and that fish oil as a treatment, or companion to treatment, for depression warrants further investigation,” Rasenick said.
Reference: “N-3 polyunsaturated fatty acids promote astrocyte differentiation and neurotrophin production independent of cAMP in patient-derived neural stem cells” by Jiang-Zhou Yu, Jennifer Wang, Steven D. Sheridan, Roy H. Perlis and Mark M. Rasenick, 5 June 2020, Molecular Psychiatry.
DOI: 10.1038/s41380-020-0786-5
Co-authors on the study are Jiang-Zhou Yu of UIC and Jennifer Wang, Steven Sheridan, and Roy Perlis of Massachusetts General Hospital.
This study was supported by grant awards from the National Institutes of Health (R01AT009169, R41MH113398) and a VA Merit Award (BX00149). Patient cell line collection and derivation were supported by funding from the NIH (P50MH106933, R01AT009144). The authors noted relevant financial disclosures.
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