Neural stem cells maintain their stemness through protein kinase C zeta-mediated inhibition of TRIM32.

in Stem Cells (2011), 29(9), 1437-47

Several studies over the last couple of years have delivered insights into the mechanisms that drive neuronal differentiation. However, the mechanisms that ensure the maintenance of stemness ... [more ▼]

Several studies over the last couple of years have delivered insights into the mechanisms that drive neuronal differentiation. However, the mechanisms that ensure the maintenance of stemness characteristics in neural stem cells over several rounds of cell divisions are still largely unknown. Here, we provide evidence that the neuronal fate determinant TRIM32 binds to the protein kinase C zeta. Through this interaction, TRIM32 is retained in the cytoplasm. However, during differentiation, this interaction is abrogated and TRIM32 translocates to the nucleus to initiate neuronal differentiation by targeting c-Myc for proteasomal degradation. [less ▲]

JAM-A is a novel surface marker for NG2-Glia in the adult mouse brain.

in BMC Neuroscience (2010), 11

BACKGROUND: Junctional adhesion molecule-A (JAM-A) is an adhesive protein expressed in various cell types. JAM-A localizes to the tight junctions between contacting endothelial and epithelial cells, where ... [more ▼]

BACKGROUND: Junctional adhesion molecule-A (JAM-A) is an adhesive protein expressed in various cell types. JAM-A localizes to the tight junctions between contacting endothelial and epithelial cells, where it contributes to cell-cell adhesion and to the control of paracellular permeability. RESULTS: So far, the expression pattern of JAM-A has not been described in detail for the different cell types of the adult brain. Here we show that a subset of proliferating cells in the adult mouse brain express JAM-A. We further clarify that these cells belong to the lineage of NG2-glia cells. Although these mitotic NG2-glia cells express JAM-A, the protein never shows a polarized subcellular distribution. Also non-mitotic NG2-glia cells express JAM-A in a non-polarized pattern on their surface. CONCLUSIONS: Our data show that JAM-A is a novel surface marker for NG2-glia cells of the adult brain. [less ▲]

The TRIM-NHL protein TRIM32 activates microRNAs and prevents self-renewal in mouse neural progenitors.

in Cell (2009), 136(5), 913-25

In the mouse neocortex, neural progenitor cells generate both differentiating neurons and daughter cells that maintain progenitor fate. Here, we show that the TRIM-NHL protein TRIM32 regulates protein ... [more ▼]

In the mouse neocortex, neural progenitor cells generate both differentiating neurons and daughter cells that maintain progenitor fate. Here, we show that the TRIM-NHL protein TRIM32 regulates protein degradation and microRNA activity to control the balance between those two daughter cell types. In both horizontally and vertically dividing progenitors, TRIM32 becomes polarized in mitosis and is concentrated in one of the two daughter cells. TRIM32 overexpression induces neuronal differentiation while inhibition of TRIM32 causes both daughter cells to retain progenitor cell fate. TRIM32 ubiquitinates and degrades the transcription factor c-Myc but also binds Argonaute-1 and thereby increases the activity of specific microRNAs. We show that Let-7 is one of the TRIM32 targets and is required and sufficient for neuronal differentiation. TRIM32 is the mouse ortholog of Drosophila Brat and Mei-P26 and might be part of a protein family that regulates the balance between differentiation and proliferation in stem cell lineages. [less ▲]

Elongation of axons during regeneration involves retinal crystallin beta b2 (crybb2).

in Molecular and Cellular Proteomics (2007), 6(5), 895-907

Adult retinal ganglion cells (RGCs) can regenerate their axons in vitro. Using proteomics, we discovered that the supernatants of cultured retinas contain isoforms of crystallins with crystallin beta b2 ... [more ▼]

Adult retinal ganglion cells (RGCs) can regenerate their axons in vitro. Using proteomics, we discovered that the supernatants of cultured retinas contain isoforms of crystallins with crystallin beta b2 (crybb2) being clearly up-regulated in the regenerating retina. Immunohistochemistry revealed the expression of crybb within the retina, including in filopodial protrusions and axons of RGCs. Cloning and overexpression of crybb2 in RGCs and hippocampal neurons increased axonogenesis, which in turn could be blocked with antibodies against beta-crystallin. Conditioned medium from crybb2-transfected cell cultures also supported the growth of axons. Finally real time imaging of the uptake of green fluorescent protein-tagged crybb2 fusion protein showed that this protein becomes internalized. These data are the first to show that axonal regeneration is related to crybb2 movement. The results suggest that neuronal crystallins constitute a novel class of neurite-promoting factors that likely operate through an autocrine mechanism and that they could be used in neurodegenerative diseases. [less ▲]

The sequential activity of the GTPases Rap1B and Cdc42 determines neuronal polarity.

in Nature Neuroscience (2004), 7(9), 923-9

The establishment of a polarized morphology is an essential step in the differentiation of neurons with a single axon and multiple dendrites. In cultured rat hippocampal neurons, one of several initially ... [more ▼]

The establishment of a polarized morphology is an essential step in the differentiation of neurons with a single axon and multiple dendrites. In cultured rat hippocampal neurons, one of several initially indistinguishable neurites is selected to become the axon. Both phosphatidylinositol 3,4,5-trisphosphate and the evolutionarily conserved Par complex (comprising Par3, Par6 and an atypical PKC (aPKC) such as PKClambda or PKCzeta) are involved in axon specification. However, the initial signals that establish cellular asymmetry and the pathways that subsequently translate it into structural changes remain to be elucidated. Here we show that localization of the GTPase Rap1B to the tip of a single neurite is a decisive step in determining which neurite becomes the axon. Using GTPase mutants and RNA interference, we found that Rap1B is necessary and sufficient to initiate the development of axons upstream of Cdc42 and the Par complex. [less ▲]

Microarray analysis of tumor necrosis factor alpha induced gene expression in U373 human glioblastoma cells.

in BMC Genomics (2003), 4(1), 46

BACKGROUND: Tumor necrosis factor alpha (TNF) is able to induce a variety of biological responses in the nervous system including inflammation and neuroprotection. Human astrocytoma cells U373 have been ... [more ▼]

BACKGROUND: Tumor necrosis factor alpha (TNF) is able to induce a variety of biological responses in the nervous system including inflammation and neuroprotection. Human astrocytoma cells U373 have been widely used as a model for inflammatory cytokine actions in the nervous system. Here we used cDNA microarrays to analyze the time course of the transcriptional response from 1 h up to 12 h post TNF treatment in comparison to untreated U373 cells. TNF activated strongly the NF-kappaB transcriptional pathway and is linked to other pathways via the NF-kappaB target genes JUNB and IRF-1. Part of the TNF-induced gene expression could be inhibited by pharmacological inhibition of NF-kappaB with pyrrolidine-dithiocarbamate (PDTC). NF-kappaB comprises a family of transcription factors which are involved in the inducible expression of genes regulating neuronal survival, inflammatory response, cancer and innate immunity. RESULTS: In this study we show that numerous genes responded to TNF (> 880 from 7500 tested) with a more than two-fold induction rate. Several novel TNF-responsive genes (about 60% of the genes regulated by a factor > or = 3) were detected. A comparison of our TNF-induced gene expression profiles of U373, with profiles from 3T3 and Hela cells revealed a striking cell-type specificity. SCYA2 (MCP-1, CCL2, MCAF) was induced in U373 cells in a sustained manner and at the highest level of all analyzed genes. MCP-1 protein expression, as monitored with immunofluorescence and ELISA, correlated exactly with microarray data. Based on these data and on evidence from literature we suggest a model for the potential neurodegenerative effect of NF-kappaB in astroglia: Activation of NF-kappaB via TNF results in a strongly increased production of MCP-1. This leads to a exacerbation of neurodegeneration in stoke or Multiple Sclerosis, presumably via infiltration of macrophages. CONCLUSIONS: The vast majority of genes regulated more than 3-fold were previously not linked to tumor necrosis factor alpha as a search in published literature revealed. Striking co-regulation for several functional groups such as proteasome and ribosomal proteins were detected. [less ▲]