ライフサイエンスコーパス: axonal retraction

1 fects from inhibition of macrophage-mediated axonal retraction.

2 and microglia required activation to induce axonal retraction.

3 phages and dystrophic axons led to extensive axonal retraction.

4 hat alterations in the cytoskeleton underlie axonal retraction.

5 tiple concentrations significantly inhibited axonal retraction.

6 ar mechanisms underlying macrophage-mediated axonal retraction and demonstrate modifications that can

7 d microglia activation, neuronal cell death, axonal retraction, and development of neuropathic pain.

8 te a direct role of activated macrophages in axonal retraction by physical cell-cell interactions wit

9 bition of MMP-9 prevented macrophage-induced axonal retraction despite significant physical interacti

10 tic macrophages coincides with long-distance axonal retraction from the initial site of injury, a del

11 ng disorders of the nervous system involving axonal retraction given that KIFC1 is expressed in adult

12 hages resulted in a significant reduction in axonal retraction; however, we saw no evidence of regene

13 This study tested whether axonal retraction in detached retina was due to the acti

14 tute part of the mechanism that produces rod axonal retraction in retinal explants.

15 substrate also prevented macrophage-induced axonal retraction in the presence of extensive macrophag

16 cation likewise prevented macrophage-induced axonal retraction in vitro and in vivo following spinal

17 posed an alternative hypothesis, namely that axonal retraction involves a backward retreat of cytoske

18 The prevailing view is that axonal retraction involves a wholesale depolymerization

19 Axonal retraction is induced by different types of physi

20 ween glycolysis and actomyosin necessary for axonal retraction is localized to the growth cone and ne

21 bundant structural plasticity in the form of axonal retraction, neurite extension, and formation of p

22 te dramatic structural plasticity, including axonal retraction, neurite extension, and the developmen

23 Motor end plates denervated by axonal retraction of dying motor neurons are partially r

24 tachment followed by morphologic evidence of axonal retraction over the next 24 hours.

25 Induction of axonal retraction requires simultaneous generation of AT

26 receptors where their loss leads to aberrant axonal retraction, the extension of postsynaptic dendrit

27 t not nicardipine, significantly blocked rod axonal retraction when applied up to 6 hours after detac

28 ment produced rapid growth cone collapse and axonal retraction which persisted while MST was present.

29 tudy, we examined the role of macrophages in axonal retraction within the dorsal columns after spinal