Intriguingly, in both instances, the EB1 comets grew from very specific sites, indicating these microtubules may be nucleated from
a common structure located at the branchpoint or within the branch (Figures 2B and 2C). Though retrograde comets were quite rare in these terminal branches, we also wanted to understand their origins. Retrograde comets either grew from the distal tip of the branch, which was more common in shorter branches, or within the branch, which was more common in longer branches (Figure 2F–2H and S2A–S2C). Again, multiple EB1 comets emanated from the same site, suggesting that these microtubules may be nucleated from specific structures within the branch. Previous studies have reported that Golgi outposts are often enriched Olaparib clinical trial at dendritic branchpoints (Horton et al., 2005; Ye et al., 2007), the most common site for anterograde EB1 comets growing into short terminal branches (Figure 2E). In class IV da neurons, Golgi outposts were located at 47% of branchpoints, but they also appeared throughout the entire dendritic arbor,
including at 25% of distal tips (Figures S3A–S3D). The Golgi complex has been shown to support microtubule nucleation in fibroblasts, and Golgi see more outposts contain both cis and trans elements ( Horton and Ehlers, 2003). Therefore, we asked whether the Golgi outposts in these da neurons could also be sites of microtubule Adenosine nucleation within the dendritic arbor. We expressed UAS-ManII-mCherry to label Golgi outposts ( Ye et al., 2007) and UAS-EB1-GFP using class IV neuron-specific drivers and noticed a striking correlation between the site of Golgi outposts and the site of EB1 comet formation. We observed that Golgi outposts correlated with EB1 comet formation at dendrite branchpoints ( Figure 3A; Movie S2), distal tips ( Figure 3B), and within the terminal branch ( Figure 3C). Other organelles, such as Rab11-positive endosomes and mitochondria, did not correlate with EB1 comet formation in vivo (data not shown).
Multiple EB1 comets could originate from a single Golgi outpost, with an average time of 66 s between formation of the first and second comets. Strikingly, multiple EB1 comets always emanated from the Golgi outposts in a particular direction, suggesting specific polarity in the nucleation machinery, and a role for the outposts in establishing or maintaining microtubule orientation within the terminal branch. We also wanted to determine if there was a similar correlation within the primary branch, where EB1 comets predominantly move in the retrograde direction and Golgi outposts are rapidly transported (Golgi outposts moved at an average speed of 0.8 μm/s compared with the EB1 comet growth speed of 0.1 μm/s; Figure S3E).
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