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Brain Stem Cells Divide Over Months, Says Study

by Colleen Fleiss on Dec 27 2020 1:00 PM

The stem cells in the hippocampus (brain region) of mice were found to be active over a period of several months, stated researchers.

Brain Stem Cells Divide Over Months, Says Study
The stem cells in the hippocampus (brain region) of mice were found to be active over a period of several months, stated researchers published in Nature Neuroscience.
Stem cells create new nerve cells in the brain over the entire life span. One of //the places this happens is the hippocampus, a region of the brain that plays a significant role in many learning processes.

The researchers, led by PhD candidate Sara Bottes and postdocs Baptiste Jaeger and Gregor Pilz, employed state-of-the-art microscopy and genetic analyses (using single-cell RNA sequencing) of stem cells and their daughter cells to analyze the formation of new nerve cells.

This enabled them to observe that specific stem cell populations are active over months and can divide repeatedly. This had already been suspected in earlier studies, but this is the first time there has been direct evidence.

The researchers have also been able to use single-cell RNA sequencing of stem cells and their daughter cells to demonstrate that stem cells with different division behavior (few cell divisions as opposed to long-lasting stem cell activity) can be differentiated on the basis of their molecular composition and expression of genes.

Harnessing stem cells for therapeutic purposes

"Combining two modern methods - two-photon microscopy and single-cell RNA sequencing - has enabled us to identify precisely the stem cells that can divide over the course of months," explains Jessberger. He adds that the evidence they have now presented of long-lasting stem cell division has implications for future therapeutic approaches:

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"We now know that there really are stem cells that divide over a period of many months. Single-cell RNA sequencing gives us our first insight into what genes are important in terms of the division behavior of individual cells."

The new findings will form the basis of future endeavors to investigate in detail how specific genes control the activity of stem cells. Jessberger sums up the next research objectives: "Imaging and single-cell RNA sequencing have given us completely new insights that we'll now use to be able to systematically regulate the activity of certain genes in the future.

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Since we now know that there are stem cells that can divide over a longer period, going forward we want to try to increase the division activity of these cells and thus the formation of new nerve cells, for example in the context of neurodegenerative conditions such as Alzheimer's disease."

Source-Eurekalert


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