摘要: Total internal reflection fluorescence microscope has often been used to study the molecular mechanisms underlying vesicle exocytosis. However, the spatial occurrence of the fusion events within a single cell is not frequently explored due to the lack of sensitive and accurate computer-assisted programs to analyze large image data sets. Here, we have developed an image analysis platform for the nonbiased identification of different types of vesicle fusion events with high accuracy in different cell types. By performing spatiotemporal analysis of stimulus-evoked exocytosis in insulin-secreting INS-1 cells, we statistically prove that individual vesicle fusion events are clustered at hotspots. This spatial pattern disappears upon the disruption of either the actin or the microtubule network; this disruption also severely inhibits evoked exocytosis. By demonstrating that newcomer vesicles are delivered from the cell interior to the surface membrane for exocytosis, we highlight a previously unappreciated mechanism in which the cytoskeleton-dependent transportation of secretory vesicles organizes exocytosis hotspots in endocrine cells.
-
期刊:
BIOPHYSICAL JOURNAL
-
分类:
生物学
>>
生物物理学
-
引用:
ChinaXiv:201605.01511
(或此版本
ChinaXiv:201605.01511V1)
DOI:10.12074/201605.01511V1
CSTR:32003.36.ChinaXiv.201605.01511.V1
- 推荐引用方式:
Yuan, Tianyi,Chen, Liangyi,Yuan, Tianyi,Chen, Liangyi,Lu, Jingze,Zhang, Jinzhong,Zhang, Yongdeng.(2016).Spatiotemporal Detection and Analysis of Exocytosis Reveal Fusion 'Hotspots'' Organized by the Cytoskeleton in Endocrine Cells.BIOPHYSICAL JOURNAL.[ChinaXiv:201605.01511]
(点此复制)