USP9X enhances the polarity and self-renewal of embryonic stem cell-derived neural progenitors

LA Jolly, V Taylor, SA Wood - Molecular biology of the cell, 2009 - Am Soc Cell Biol
Molecular biology of the cell, 2009Am Soc Cell Biol
The substrate-specific deubiquitylating enzyme USP9X is a putative “stemness” gene
expressed in many progenitor cell populations. To test its function in embryonic stem cell-
derived neural progenitor/stem cells, we expressed USP9X from a Nestin promoter.
Elevated USP9X levels resulted in two phenomena. First, it produced a dramatically altered
cellular architecture wherein the majority (> 80%) of neural progenitors was arranged into
radial clusters. These progenitors expressed markers of radial glial cells and were highly …
The substrate-specific deubiquitylating enzyme USP9X is a putative “stemness” gene expressed in many progenitor cell populations. To test its function in embryonic stem cell-derived neural progenitor/stem cells, we expressed USP9X from a Nestin promoter. Elevated USP9X levels resulted in two phenomena. First, it produced a dramatically altered cellular architecture wherein the majority (>80%) of neural progenitors was arranged into radial clusters. These progenitors expressed markers of radial glial cells and were highly polarized with adherens junction proteins (N-cadherin, β-catenin, and AF-6) and apical markers (Prominin1, atypical protein kinase C-ζ) as well as Notch, Numb, and USP9X itself, concentrated at the center. The cluster centers were also devoid of nuclei and so resembled the apical end-feet of radial progenitors in the neural tube. Second, USP9X overexpression caused a fivefold increase in the number of radial progenitors and neurons, in the absence of exogenous growth factors. 5-Bromo-2′-deoxyuridine labeling, as well as the examination of the brain lipid-binding protein:βIII-tubulin ratio, indicated that nestin-USP9X enhanced the self-renewal of radial progenitors but did not block their subsequent differentiation to neurons and astrocytes. nestin-USP9X radial progenitors reformed clusters after passage as single cells, whereas control cells did not, suggesting it aids the establishment of polarity. We propose that USP9X-induced polarization of these neural progenitors results in their radial arrangement, which provides an environment conducive for self-renewal.
Am Soc Cell Biol