演題詳細
Poster
突起伸展、回路形成
Axonal/Dendritic Growth and Circuit Formation
開催日 | 2014/9/13 |
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時間 | 14:00 - 15:00 |
会場 | Poster / Exhibition(Event Hall B) |
神経突起伸展過程におけるRab35の時空間的活性変化の解析
Analysis of spatial change and temporal distribution of Rab35 activity during neurite outgrowth
- P3-066
- 永井 寛之 / Hiroyuki Nagai:1 石堂 菜々子 / Nanako Ishido:1 安田 さや香 / Sayaka Yasuda:1 小林 穂高 / Hotaka Kobayashi:2 福田 光則 / Mitsunori Fukuda:2 中村 岳史 / Takeshi Nakamura:1
- 1:東京理科大院生命医科学研 / RIBS, Tokyo Univ of Sci,Chiba,Japan 2:東北大院生命科学 / Grad Sch of Life Sci,Tohoku Univ, Miyagi, Japan
Rab GTPases use the guanine nucleotide–dependent switch–mechanism to regulate membrane traffic. Rab35, which is localized at the plasma membrane, the cytosol and the internal vesicles, has been shown to be implicated in a variety of functions including cytokinesis, receptor recycling, and neurite outgrowth. Recently, it has been reported that Rab35 and Arf6 work together for the biogenesis of recycling endosome . On the other hands, Rab11 is key regulator of recycling/secretion pathways and are implicated in neurite outgrowth as well as Rab35. Thus, it is of immediate interest where and when Rab35 activity changes and how does the role of Rab35 intersect with that of Rab11. To answer these questions, we utilized a FRET sensor, Raichu–Rab35. In NGF–treated PC12 cells, neurite tips showed a higher Rab35 activity than that in the neurite shaft. Furthermore, we examined the dynamics of Rab35–containing vesicles in neurite–bearing N1E–115 cells. In shafts, Rab35–positive vesicles were transported both anterogradely and retrogradely. In growth cones, most of Rab35–containing vesicles resided in central domains and showed anterogradely movement. We frequently observed the vesicles containing both Rab35 and Rab11 in neurite shafts and growth cones. This study provides a clue to elucidate the promoting role of Rab35 in neurite outgrowth.