Maria-Luise Erfurth scite author profile

Maria-Luise Erfurth

2Publications

158Citation Statements Received

105Citation Statements Given

How they've been cited

127

154

How they cite others

Affiliations

VIB-UAntwerp Center for Molecular Neurology, KU Leuven, Vlaams Instituut voor Biotechnologie

Publications

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Cell-intrinsic requirement of Dscam1 isoform diversity for axon collateral formation

Kise

Izadifar

et al. 2014

Science

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The isoform diversity of the Drosophila Dscam1 receptor is important for neuronal self-recognition and self-avoidance. A canonical model suggests that homophilic binding of identical Dscam1 receptor isoforms on sister dendrites ensures self-avoidance even when only a single isoform is expressed. We detected a cell-intrinsic function of Dscam1 that requires the coexpression of multiple isoforms. Manipulation of the Dscam1 isoform pool in single neurons caused severe disruption of collateral formation of mechanosensory axons. Changes in isoform abundance led to dominant dosage-sensitive inhibition of branching. We propose that the ratio of matching to nonmatching isoforms within a cell influences the Dscam1-mediated signaling strength, which in turn controls axon growth and growth cone sprouting. Cell-intrinsic use of surface receptor diversity may be of general importance in regulating axonal branching during brain wiring.

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Slit and Receptor Tyrosine Phosphatase 69D Confer Spatial Specificity to Axon Branching via Dscam1

Dascenco

Erfurth

Izadifar

et al. 2015

Cell

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SUMMARY Axonal branching contributes substantially to neuronal circuit complexity. Studies in Drosophila have shown that loss of Dscam1 receptor diversity can fully block axon branching in mechanosensory neurons. Here we report that cell-autonomous loss of the Receptor-Tyrosine-Phosphatase 69D (RPTP69D) and loss of midline-localized Slit inhibit formation of specific axon collaterals through modulation of Dscam1 activity. Genetic and biochemical data support a model in which direct binding of Slit to Dscam1 enhances the interaction of Dscam1 with RPTP69D, stimulating Dscam1 dephosphorylation. Single growth cone imaging reveals that Slit/RPTP69D are not required for general branch initiation, but instead promote the extension of specific axon collaterals. Hence, while regulation of intrinsic Dscam1-Dscam1 isoform interactions is essential for formation of all mechanosensory-axon branches, the local ligand-induced alterations of Dscam1 phosphorylation in distinct growth cone compartments enable the spatial specificity of axon collateral formation.

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