2016
DOI: 10.1523/jneurosci.2430-15.2016
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DendritesIn VitroandIn VivoContain Microtubules of Opposite Polarity and Axon Formation Correlates with Uniform Plus-End-Out Microtubule Orientation

Abstract: In cultured vertebrate neurons, axons have a uniform arrangement of microtubules with plus-ends distal to the cell body (plus-end-out), whereas dendrites contain mixed polarity orientations with both plus-end-out and minus-end-out oriented microtubules. Rather than non-uniform microtubules, uniparallel minus-end-out microtubules are the signature of dendrites in Drosophila and Caenorhabditis elegans neurons. To determine whether mixed microtubule organization is a conserved feature of vertebrate dendrites, we … Show more

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Cited by 176 publications
(213 citation statements)
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“…In non-polarized cells, microtubule plus-ends are generally found in the peripheral cytoplasm and in neurons they point towards axon terminals, so, in these cells, kinesins mediate transport from the cell center towards the periphery (known as centrifugal transport). In some polarized cells, however, microtubules can point in other directions, as is the case for neuronal dendrites, which have microtubules with mixed orientations (Baas et al, 1988;Yau et al, 2016). In these cases, kinesins can potentially mediate both centrifugal and centripetal transport.…”
Section: Anterograde Transportmentioning
confidence: 99%
“…In non-polarized cells, microtubule plus-ends are generally found in the peripheral cytoplasm and in neurons they point towards axon terminals, so, in these cells, kinesins mediate transport from the cell center towards the periphery (known as centrifugal transport). In some polarized cells, however, microtubules can point in other directions, as is the case for neuronal dendrites, which have microtubules with mixed orientations (Baas et al, 1988;Yau et al, 2016). In these cases, kinesins can potentially mediate both centrifugal and centripetal transport.…”
Section: Anterograde Transportmentioning
confidence: 99%
“…49 In the differentiating dendrite, microtubule nucleation and polymerization events occur away from the centrosome and throughout the growing arbor. 20,[27][28][29]35 Although microtubule nucleation events are spread throughout the arbor, specific foci repeatedly give rise to microtubules, suggesting that particular subcellular structures within the dendrite have microtubule nucleating activity. Other structures, in addition to the centrosome, can focus g-tubulin-mediated microtubule nucleation.…”
Section: Microtubule Nucleation At Golgi Outpostsmentioning
confidence: 99%
“…Immature differentiating dendrites have a larger balance of anterograde distal microtubules than mature dendrites and anterograde polymerization events are concentrated in the growing terminal regions. 17,[27][28][29]35 The polymerization of plus-end distal microtubules drives neurite outgrowth during neuron differentiation, 59 and live imaging of growing dendrites in vivo shows anterograde polymerizing microtubules extending the termini of emerging branches leading to outgrowth and stabilization 20,35 (Fig. 3A).…”
Section: Microtubule Nucleation At Golgi Outpostsmentioning
confidence: 99%
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“…This method also has limitations because it only detects dynamic MTs and not the stable MT population. Recently, in vivo imaging of growing MTs has confirmed the presence of a mixed MT organization in mature dendrites (Kleele et al 2014;Yau et al 2016). SHG microscopy allows label-free imaging without the addition of exogenous probes, but is hard to interpret quantitatively.…”
Section: Organization Of Axonal and Dendritic Microtubulesmentioning
confidence: 99%