Jennifer Stefani scite author profile

Jennifer Stefani

2Publications

84Citation Statements Received

196Citation Statements Given

How they've been cited

How they cite others

137

191

Affiliations

Goethe University Frankfurt

Publications

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NTPDase2 and Purinergic Signaling Control Progenitor Cell Proliferation in Neurogenic Niches of the Adult Mouse Brain

Gampe

Stefani

Hammer

et al. 2014

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Nerve cells are continuously generated from stem cells in the adult mammalian subventricular zone (SVZ) and hippocampal dentate gyrus. We have previously noted that stem/progenitor cells in the SVZ and the subgranular layer (SGL) of the dentate gyrus express high levels of plasma membrane-bound nucleoside triphosphate diphosphohydrolase 2 (NTPDase2), an ectoenzyme that hydrolyzes extracellular nucleoside di- and triphosphates. We inferred that deletion of NTPDase2 would increase local extracellular nucleoside triphosphate concentrations perturbing purinergic signaling and boosting progenitor cell proliferation and neurogenesis. Using newly generated mice globally null for Entpd2, we demonstrate that NTPDase2 is the major ectonucleotidase in these progenitor cell rich areas. Using BrdU-labeling protocols, we have measured stem cell proliferation and determined long term survival of cell progeny under basal conditions. Brains of Entpd2 null mice revealed increased progenitor cell proliferation in both the SVZ and the SGL. However, this occurred without noteworthy alterations in long-term progeny survival. The hippocampal stem cell pool and the pool of the intermediate progenitor type-2 cells clearly expanded. However, substantive proportions of these proliferating cells were lost during expansion at around type-3 stage. Cell loss was paralleled by decreases in CREB phosphorylation in the doublecortin-positive progenitor cell population and by an increase in labeling for activated caspase-3 levels. We propose that NTPDase2 has functionality in scavenging mitogenic extracellular nucleoside triphosphates in neurogenic niches of the adult brain, thereby acting as a homeostatic regulator of nucleotide-mediated neural progenitor cell proliferation and expansion.

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Disruption of the Microglial ADP Receptor P2Y13 Enhances Adult Hippocampal Neurogenesis

Stefani

Tschesnokowa

Parrilla

et al. 2018

Front. Cell. Neurosci.

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In mammalian species, including humans, the hippocampal dentate gyrus (DG) is a primary region of adult neurogenesis. Aberrant adult hippocampal neurogenesis is associated with neurological pathologies. Understanding the cellular mechanisms controlling adult hippocampal neurogenesis is expected to open new therapeutic strategies for mental disorders. Microglia is intimately associated with neural progenitor cells in the hippocampal DG and has been implicated, under varying experimental conditions, in the control of the proliferation, differentiation and survival of neural precursor cells. But the underlying mechanisms remain poorly defined. Using fluorescent in situ hybridization we show that microglia in brain express the ADP-activated P2Y13 receptor under basal conditions and that P2ry13 mRNA is absent from neurons, astrocytes, and neural progenitor cells. Disrupting P2ry13 decreases structural complexity of microglia in the hippocampal subgranular zone (SGZ). But it increases progenitor cell proliferation and new neuron formation. Our data suggest that P2Y13 receptor-activated microglia constitutively attenuate hippocampal neurogenesis. This identifies a signaling pathway whereby microglia, via a nucleotide-mediated mechanism, contribute to the homeostatic control of adult hippocampal neurogenesis. Selective P2Y13R antagonists could boost neurogenesis in pathological conditions associated with impaired hippocampal neurogenesis.

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