A subscription to JoVE is required to view this content. Sign in or start your free trial.
Dissection, Immunohistochemistry and Mounting of Larval and Adult Drosophila Brains for Optic Lobe Visualization
In This Article
Summary
This protocol describes three steps to prepare larval and adult Drosophila optic lobes for imaging: 1) brain dissections, 2) immunohistochemistry and 3) mounting. Emphasis is placed on step 3, as distinct mounting orientations are required to visualize specific optic lobe structures.Â
Abstract
The Drosophila optic lobe, comprised of four neuropils: the lamina, medulla, lobula and lobula plate, is an excellent model system for exploring the developmental mechanisms that generate neural diversity and drive circuit assembly. Given its complex three-dimensional organization, analysis of the optic lobe requires that one understand how its adult neuropils and larval progenitors are positioned relative to each other and the central brain. Here, we describe a protocol for the dissection, immunostaining and mounting of larval and adult brains for optic lobe imaging. Special emphasis is placed on the relationship between mounting orientation and the spatial organization of the optic lobe. We describe three mounting strategies in the larva (anterior, posterior and lateral) and three in the adult (anterior, posterior and horizontal), each of which provide an ideal imaging angle for a distinct optic lobe structure.
Introduction
The Drosophila visual system, comprised of the compound eye and underlying optic lobe, has been an excellent model for the study of neural circuit development and function. In recent years, the optic lobe in particular has emerged as a powerful system in which to study neurodevelopmental processes such as neurogenesis and circuit wiring1,2,3,4,5,6,7,8. It is made up of four neuropils: the lamina....
Protocol
1. Preparing larval brains for confocal imaging
- Dissections
NOTE: Before starting the dissection, prepare the fix (4% formaldehyde in phosphate buffered saline (PBS)) and PBT (0.1-0.3% Triton in PBS) solutions. The fix solution should be placed on ice during the dissection. Although paraformaldehyde (PFA) fixative is used in this protocol, alternative fixing strategies (using PLP20 or PEM21) have been described for specific epitopes. For .......
Representative Results
Confocal images of larval and adult optic lobes mounted in the orientations described in the protocol are presented in Figure 1 and Figure 2.
Figure 1 shows schematics and representative confocal slices of larval brains positioned in the anterior, posterior and lateral orientations. In the anterior mounting orientation, the OPC epithelium (DE-Cadherin), medulla neuroblasts (deadpan>βgal).......
Discussion
In this protocol, we describe a method to immunostain larval and adult Drosophila brains and mount them in several orientations. While methods to stain larval and adult brains have been previously described22,23,24,27,28, mounting strategies for the optimal visualization of specific optic lobe structures have received less attention2.......
Acknowledgements
We would like to thank Claude Desplan for sharing with us an aliquot of the Bsh antibody. The DE-Cadherin, Dachshund, Eyes Absent, Seven-up and Bruchpilot monoclonal antibodies were obtained from the Developmental Studies Hybridoma Bank, created by the NICHD of the NIH and maintained at The University of Iowa, Department of Biology, Iowa City, IA 52242. This work was supported by an NSERC Discovery Grant awarded to T.E.. U.A. is supported by an NSERC Alexander Graham Bell Canada Graduate Scholarship. P.V. is supported by an Ontario Graduate Scholarship.
....Materials
| Name | Company | Catalog Number | Comments |
| 10x PBS | Bioshop | PBS405 | |
| 37% formaldehyde | Bioshop | FOR201 | |
| Alexa Fluor 488 (goat) secondary | Invitrogen | A-11055 | use at 1:501 |
| Alexa Fluor 555 (mouse) secondary | Invitrogen | A-31570 | use at 1:500 |
| Alexa Fluor 647 (guinea pig) secondary | Invitrogen | A-21450 | use at 1:503 |
| Alexa Fluor 647 (rat) secondary | Invitrogen | A-21247 | use at 1:502 |
| Cover slips | VWR | 48366-067 | |
| Dissecting forceps - #5 | Dumont | 11251-10 | |
| Dissecting forceps - #55 | Dumont | 11295-51 | |
| Dissection Dish | Corning | 722085 | |
| Dry wipes | Kimbery Clark | 34155 | |
| Goat anti-Bgal primary antibody | Biogenesis | use at 1:1000 | |
| Guinea pig anti-Bsh primary antibody | Gift from Claude Desplan | use at 1:500 | |
| Guinea pig anti-Vsx1 primary antibody | Erclik et al. 2008 | use at 1:1000 | |
| Laboratory film | Parfilm | PM-996 | |
| Microcentrifuge tubes | Sarstedt | 72.706.600 | |
| Microscope slides | VWR | CA4823-180 | |
| Mouse anti-dac primary antibody | Developmental Studies Hybridoma Bank (DSHB) | mabdac2-3 | use at 1:20 |
| Mouse anti-eya primary antibody | DSHB | eya10H6 | use at 1:20 |
| Mouse anti-nc82 primary antibody | DSHB | nc82 | use at 1:50 |
| Mouse anti-svp primary antibody | DSHB | Seven-up 2D3 | use at 1:100 |
| Polymer Clay | Any type of clay can be used | ||
| Rabbit anti-GFP | Invitrogen | A-11122 | use at 1:1000 |
| Rat anti-DE-Cadherin primary antibody | DSHB | DCAD2 | use at 1:20 |
| Slowfade mounting medium | Invitrogen | S36967 | Vectashield mounting medium ( cat# H-1000) can also be used |
| Triton-x-100 | Bioshop | TRX506 |
References
- Fischbach, K. -. F., Dittrich, A. P. M. The optic lobe of Drosophila melanogaster. I. A Golgi analysis of wild-type structure. Cell Tissue Research. 258, (1989).
- Hofbauer, A., Campos-Ortega, J. A.
This article has been published
Video Coming Soon
ABOUT JoVE
Copyright © 2024 MyJoVE Corporation. All rights reserved