Robert M. Cassidy scite author profile

Summary A delineation of the molecular basis of synapse development is crucial for understanding brain function. Co-cultures of neurons with transfected fibroblastoid cells have been used to demonstrate the synapse-promoting activity of candidate molecules. Here, we performed an unbiased expression screen for synaptogenic proteins in the co-culture assay using custom-made full-length cDNA libraries. Re-isolation of NGL-3/LRRC4B and neuroligin-2 accounts for a minority of positive clones, indicating that current understanding of mammalian synaptogenic proteins is far from complete. We identify LRRTM1 as a novel transmembrane protein capable of inducing presynaptic differentiation in contacting axons. All four LRRTM family members exhibit synaptogenic activity, LRRTMs localize to excitatory synapses, and artificially-induced clustering of LRRTMs mediates postsynaptic differentiation in dendrites. We generate LRRTM1 -/- mice and reveal altered distribution of the vesicular glutamate transporter VGLUT1, confirming an in vivo synaptic function. These results suggest a prevalence of LRR domain proteins in trans-synaptic signaling and provide a cellular basis for the recently reported linkage of LRRTM1 to handedness and schizophrenia.

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Evidence for neurogenesis in the adult mammalian substantia nigra

Zhao

Momma

Delfani

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

529

411

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New neurons are generated from stem cells in a few regions of the adult mammalian brain. Here we provide evidence for the generation of dopaminergic projection neurons of the type that are lost in Parkinson's disease from stem cells in the adult rodent brain and show that the rate of neurogenesis is increased after a lesion. The number of new neurons generated under physiological conditions in substantia nigra pars compacta was found to be several orders of magnitude smaller than in the granular cell layer of the dentate gyrus of the hippocampus. However, if the rate of neuronal turnover is constant, the entire population of dopaminergic neurons in substantia nigra could be replaced during the lifespan of a mouse. These data indicate that neurogenesis in the adult brain is more widespread than previously thought and may have implications for our understanding of the pathogenesis and treatment of neurodegenerative disorders such as Parkinson's disease.

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Forebrain ependymal cells are Notch-dependent and generate neuroblasts and astrocytes after stroke

et al. 2009

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Neurons are continuously generated from stem cells in discrete regions in the adult mammalian brain. We found that ependymal cells lining the lateral ventricles were quiescent and did not contribute to adult neurogenesis under normal conditions in mice but instead gave rise to neuroblasts and astrocytes in response to stroke. Ependymal cell quiescence was actively maintained by canonical Notch signaling. Inhibition of this pathway in uninjured animals allowed ependymal cells to enter the cell cycle and produce olfactory bulb neurons, whereas forced Notch signaling was sufficient to block the ependymal cell response to stroke. Ependymal cells were depleted by stroke and failed to self-renew sufficiently to maintain their own population. Thus, although ependymal cells act as primary cells in the neural lineage to produce neurons and glial cells after stroke, they do not fulfill defining criteria for stem cells under these conditions and instead serve as a reservoir that is recruited by injury.

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Ephrin-A2 reverse signaling negatively regulates neural progenitor proliferation and neurogenesis

Holmberg

Armulik²,

Senti³

et al. 2005

Genes Dev.

183

153

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The number of cells in an organ is regulated by mitogens and trophic factors that impinge on intrinsic determinants of proliferation and apoptosis. We here report the identification of an additional mechanism to control cell number in the brain: EphA7 induces ephrin-A2 reverse signaling, which negatively regulates neural progenitor cell proliferation. Cells in the neural stem cell niche in the adult brain proliferate more and have a shorter cell cycle in mice lacking ephrin-A2. The increased progenitor proliferation is accompanied by a higher number of cells in the olfactory bulb. Disrupting the interaction between ephrin-A2 and EphA7 in the adult brain of wild-type mice disinhibits proliferation and results in increased neurogenesis. The identification of ephrin-A2 and EphA7 as negative regulators of progenitor cell proliferation reveals a novel mechanism to control cell numbers in the brain.[Keywords: SVZ; adult; neuronal progenitors; proliferation; ephrins; reverse signaling] Supplemental material is available at http://www.genesdev.org.

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Functional Integration of Adult-Born Neurons

et al. 2002

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Over the past decade, it has become clear that neural stem cells in the adult mammalian brain continuously generate new neurons, predominantly in the hippocampus and olfactory bulb. However, the central issue of whether these new neurons participate in functional synaptic circuitry has yet to be resolved. Here, we use virus-based transsynaptic neuronal tracing and c-Fos mapping of odor-induced neuronal activity to demonstrate that neurons generated in the adult functionally integrate into the synaptic circuitry of the brain.

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Robert M. Cassidy

An Unbiased Expression Screen for Synaptogenic Proteins Identifies the LRRTM Protein Family as Synaptic Organizers

Evidence for neurogenesis in the adult mammalian substantia nigra

Forebrain ependymal cells are Notch-dependent and generate neuroblasts and astrocytes after stroke

Ephrin-A2 reverse signaling negatively regulates neural progenitor proliferation and neurogenesis

Functional Integration of Adult-Born Neurons

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