2013
DOI: 10.1371/journal.pone.0066170
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Substrate Topography Determines Neuronal Polarization and Growth In Vitro

Abstract: The establishment of neuronal connectivity depends on the correct initial polarization of the young neurons. In vivo, developing neurons sense a multitude of inputs and a great number of molecules are described that affect their outgrowth. In vitro, many studies have shown the possibility to influence neuronal morphology and growth by biophysical, i.e. topographic, signaling. In this work we have taken this approach one step further and investigated the impact of substrate topography in the very early differen… Show more

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Cited by 74 publications
(109 citation statements)
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“…Moreover, when confronted with a differential surface topography, neurons specify an axon preferentially on nanopillars. Such effects were reported by Micholt et al [70] on micron sized silicon pillars (Fig. 4b and c), with in addition the demonstration that the first sprout formed from the soma just after plating faces the nanopillared surface.…”
Section: Neuron Response To Discrete Adhesive Contactssupporting
confidence: 81%
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“…Moreover, when confronted with a differential surface topography, neurons specify an axon preferentially on nanopillars. Such effects were reported by Micholt et al [70] on micron sized silicon pillars (Fig. 4b and c), with in addition the demonstration that the first sprout formed from the soma just after plating faces the nanopillared surface.…”
Section: Neuron Response To Discrete Adhesive Contactssupporting
confidence: 81%
“…By triggering the formation of actin patches between which neurites might build mechanical forces (Fig. 4c), this adhesive structure might foster a larger neurite growth [70]. Interestingly, this hypothesis brings together (i) the several lines of evidence suggesting that the fast elongating axon (relatively to the other neuronal processes) is the most tensed neurite [74,21] and (ii) the recent discovery of the existence of periodic actin rings along the axon of hippocampal neurons [75].…”
Section: Neuron Response To Discrete Adhesive Contactsmentioning
confidence: 84%
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“…This result was explained in terms of possible boosts of growth at pillar contacts 6 . In our study, it is interesting to note that, although directional choices are made by neurites in their positioning on the top of nano-pillars, the accelerated elongation that occurs in this somehow point-like, zero-dimensional adhesive configuration is observed in the absence any channeling effect such as the one provided by the one-dimensional topography of grooves or the presence of micro-pillars.…”
Section: -About the Development Of Neurites On Nano-pillarsmentioning
confidence: 92%
“…1,2 Among several different topographies, micrometer sized pillars have been used for different purposes such as to promote neuronal axonal growth and orientation [3][4][5] and cellular differentiation. [5][6][7][8] Smaller diameter pillars, nanopillars, are applied for different purposes, for example, examination of neuronal development 9 and pinning neurons. [10][11][12] Nanopillars have also been used to access cellular membranes for electroporation, 13,14 which led them to the successful measurement of neuronal intracellular action potentials.…”
Section: Introductionmentioning
confidence: 99%