Svende Herzmann scite author profile

Pruning of unspecific neurites is an important mechanism during neuronal morphogenesis. sensory neurons prune their dendrites during metamorphosis. Pruning dendrites are severed in their proximal regions. Prior to severing, dendritic microtubules undergo local disassembly, and dendrites thin extensively through local endocytosis. Microtubule disassembly requires a katanin homologue, but the signals initiating microtubule breakdown are not known. Here, we show that the kinase PAR-1 is required for pruning and dendritic microtubule breakdown. Our data show that neurons lacking PAR-1 fail to break down dendritic microtubules, and PAR-1 is required for an increase in neuronal microtubule dynamics at the onset of metamorphosis. Mammalian PAR-1 is a known Tau kinase, and genetic interactions suggest that PAR-1 promotes microtubule breakdown largely via inhibition of Tau also in Finally, PAR-1 is also required for dendritic thinning, suggesting that microtubule breakdown might precede ensuing plasma membrane alterations. Our results shed light on the signaling cascades and epistatic relationships involved in neurite destabilization during dendrite pruning.

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The serpin PN1 is a feedback regulator of FGF signaling in germ layer and primary axis formation

Acosta

Iliev

Grahn

et al. 2015

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Germ layer formation and primary axis development rely on Fibroblast growth factors (FGFs). In Xenopus, the secreted serine protease HtrA1 induces mesoderm and posterior trunk/tail structures by facilitating the spread of FGF signals. Here, we show that the serpin Protease nexin-1 (PN1) is transcriptionally activated by FGF signals, suppresses mesoderm and promotes head development in mRNAinjected embryos. An antisense morpholino oligonucleotide against PN1 has the opposite effect and inhibits ectodermal fate. However, ectoderm and anterior head structures can be restored in PN1-depleted embryos when HtrA1 and FGF receptor activities are diminished, indicating that FGF signals negatively regulate their formation. We show that PN1 binds to and inhibits HtrA1, prevents degradation of the proteoglycan Syndecan 4 and restricts paracrine FGF/Erk signaling. Our data suggest that PN1 is a negative-feedback regulator of FGF signaling and has important roles in ectoderm and head development.

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Spatial regulation of microtubule disruption during dendrite pruning in Drosophila

Herzmann

Götzelmann

Reekers

et al. 2018

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Large-scale neurite pruning is an important specificity mechanism during neuronal morphogenesis. sensory neurons prune their larval dendrites during metamorphosis. Pruning dendrites are severed in their proximal regions, but how this spatial information is encoded is not clear. Dendrite severing is preceded by local breakdown of dendritic microtubules through PAR-1-mediated inhibition of Tau. Here, we investigated spatial aspects of microtubule breakdown during dendrite pruning. Live imaging of fluorescently tagged tubulin shows that microtubule breakdown first occurs at proximal dendritic branchpoints, followed by breakdown at more distal branchpoints, suggesting that the process is triggered by a signal emanating from the soma. In fly dendrites, microtubules are arranged in uniformly oriented arrays where all plus ends face towards the soma. Mutants in kinesin-1 and -2, which are required for uniform microtubule orientation, show defects in microtubule breakdown and dendrite pruning. Our data suggest that the local microtubule organization at branchpoints determines where microtubule breakdown occurs. Local microtubule organization may therefore contribute spatial information for severing sites during dendrite pruning.

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Functions of Microtubule Disassembly during Neurite Pruning

Rumpf

Wolterhoff

Herzmann

2019

Trends in Cell Biology

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AMPK adapts metabolism to developmental energy requirement during dendrite pruning in Drosophila

et al. 2021

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Svende Herzmann

PAR‐1 promotes microtubule breakdown during dendrite pruning in Drosophila

The serpin PN1 is a feedback regulator of FGF signaling in germ layer and primary axis formation

Spatial regulation of microtubule disruption during dendrite pruning in Drosophila

Functions of Microtubule Disassembly during Neurite Pruning

AMPK adapts metabolism to developmental energy requirement during dendrite pruning in Drosophila

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