The study looked at the effects of aromatic (ar-) turmerone on endogenous neutral stem cells (NSC), which are stem cells found within adult brains.
NSC differentiate into neurons, and play an important role in self-repair and recovery of brain function in neurodegenerative diseases.
Previous studies of ar-turmerone have shown that the compound can block activation of microglia cells.
When activated, these cells cause neuroinflammation, which is associated with different neurological disorders. However, ar-turmerone's impact on the brain's capacity to self-repair was unknown.
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Rat fetal NSC were cultured and grown in six different concentrations of ar-turmerone over a 72 hour period.
At certain concentrations, ar-turmerone was shown to increase NSC proliferation by up to 80 per cent, without having any impact on cell death.
The cell differentiation process also accelerated in ar-turmerone-treated cells compared to untreated control cells.
To test the effects of ar-turmerone on NSC in vivo, the researchers injected adult rats with ar-turmerone. Using PET imaging and a tracer to detect proliferating cells, they found that the subventricular zone (SVZ) was wider, and the hippocampus expanded, in the brains of rats injected with ar-turmerone than in control animals.
"While several substances have been described to promote stem cell proliferation in the brain, fewer drugs additionally promote the differentiation of stem cells into neurons, which constitutes a major goal in regenerative medicine," said lead author of the study, Adele Rueger.
"Our findings on aromatic turmerone take us one step closer to achieving this goal," Reuger said.
Ar-turmerone is the lesser-studied of two major bioactive compounds found in turmeric. The other compound is curcumin, which is well known for its anti-inflammatory and neuroprotective properties.