Abstract
TLX has been shown to play an important role in regulating the self-renewal and proliferation of neural stem cells in adult brains. However, the cellular distribution of endogenous TLX protein in adult brains remains to be elucidated. In this study, we used immunostaining with a TLX-specific antibody to show that TLX is expressed in both neural stem cells and transit-amplifying neural progenitor cells in the subventricular zone (SVZ) of adult mouse brains. Then, using a double thymidine analog labeling approach, we showed that almost all of the self-renewing neural stem cells expressed TLX. Interestingly, most of the TLX-positive cells in the SVZ represented the thymidine analog-negative, relatively quiescent neural stem cell population. Using cell type markers and short-term BrdU labeling, we demonstrated that TLX was also expressed in the Mash1+ rapidly dividing type C cells. Furthermore, loss of TLX expression dramatically reduced BrdU label-retaining neural stem cells and the actively dividing neural progenitor cells in the SVZ, but substantially increased GFAP staining and extended GFAP processes. These results suggest that TLX is essential to maintain the self-renewing neural stem cells in the SVZ and that the GFAP+ cells in the SVZ lose neural stem cell property upon loss of TLX expression.Understanding the cellular distribution of TLX and its function in specific cell types may provide insights into the development of therapeutic tools for neurodegenerative diseases by targeting TLX in neural stem/progenitors cells.
Highlights
Nuclear receptor TLX plays an important role in vertebrate brain functions [1,2,3]
TLX is expressed in both neural stem cells and rapidly dividing neural progenitor cells We have shown that TLX is an essential regulator of adult neural stem cell population [3]
Using a b-galactosidase (b-gal) reporter, which was knocked into the endogenous TLX locus, we showed that TLX is highly expressed in the subventricular zone (SVZ) and the subgranular layer of the hippocampal dentate gyrus, the two wellcharacterized adult neurogenic areas, and displayed scattered distribution in the cortex [3]
Summary
Nuclear receptor TLX plays an important role in vertebrate brain functions [1,2,3]. We have shown that TLX is an essential regulator of adult neural stem cell self-renewal [3], through transcriptional repression of downstream target genes by complexing with histone-modifying enzymes [4,5,6], or by activating Wnt/b-catenin pathway [7]. The TLX-positive cells in the hippocampal dentate gyrus play an important role in learning and memory [13], whereas the TLX-expressing cells in the SVZ were shown to be slowly-dividing neural stem cells [14,15]. TLX plays a role in neural development by regulating neural stem cells of the developing brain [16,17,18]. The cellular identity of the TLX-expressing cells remains to be determined
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