The choroid plexus is a network of blood vessels in each ventricle of the brain. It is derived from the pia mater and produces the cerebrospinal fluid. The choroid plexus, unfortunately, has been ignored to some degree when it comes to brain research. However, CSF turns to be an important regulator of adult neural stem cells, research indicates.
A new study led by Prof. Fiona Doetsch at the Biozentrum of the University of Basel, Switzerland has shown that signals secreted by the choroid plexus dynamically change during aging, and these different signals affect the behavior of aged stem cells.
In the adult brain, neural stem cell populations in various places throughout the central nervous system divide to give rise to neurons and glial cells throughout our lives. These stem cells reside in unique micro-environments (known as niches) that provide key signals that regulate stem cell self-renewal and differentiation. Stem cells in the adult brain contact the ventricles, which are cavities in the brain filled with CSF. CSF bathes and protects the brain and is produced by the cells of the choroid plexus.
Doetsch and her coworkers have shown that the choroid plexus is a key component of the stem cell niche, and that the properties of this stem cell niche change throughout life and affect stem cell behavior.
Doetsch’s group discovered that the choroid plexus secretes a cocktail of important signaling factors into the CSF. These CSF-secreted growth factors are important in stem cell regulation throughout life. As we age, the levels of stem cell division and formation of new neurons decrease. They also showed that although stem cells are still present in the aged brain, and have the capacity to divide, their ability to do so have significantly decreased.
“One reason is that signals in the old choroid plexus are different. As a consequence, stem cells receive different messages and are less capable to form new neurons during aging. In other words, compromising the fitness of stem cells in this brain region,” said Violeta Silva Vargas, first author of the paper that appeared in the journal Cell Stem Cell. “But what is really amazing is that when you cultivate old stem cells with signals from young fluid, they can still be stimulated to divide, behaving like the young stem cells.”
In the future, Doetsch and her group plans to tease out the composition of the signaling factors secreted by the choroid plexus. They would also like to know how the composition of this growth factor cocktail changes as a result of changes in brain states and how these changes affect neural stem cells. This could provide new ways to understand brain function in health and disease.
“We can imagine the choroid plexus as a watering can that provides signals to the stem cells. Our investigations also open a new route for understanding how different physiological states of the body influence stem cells in the brain during health and disease, and opens new ways for thinking about therapy,” said Doetsch.
This work was published here: Violeta Silva-Vargas et al., “Age-Dependent Niche Signals from the Choroid Plexus Regulate Adult Neural Stem Cells,” Cell Stem Cell, 2016; DOI: 10.1016/j.stem.2016.06.013.