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Immunofluorescence Staining Using IBA1 and TMEM119 for Microglial Density, Morphology and Peripheral Myeloid Cell Infiltration Analysis in Mouse Brain
In This Article
Summary
This protocol describes a step-by-step workflow for immunofluorescent costaining of IBA1 and TMEM119, in addition to analysis of microglial density, distribution, and morphology, as well as peripheral myeloid cell infiltration in mouse brain tissue.
Abstract
This is a protocol for the dual visualization of microglia and infiltrating macrophages in mouse brain tissue. TMEM119 (which labels microglia selectively), when combined with IBA1 (which provides an exceptional visualization of their morphology), allows investigation of changes in density, distribution, and morphology. Quantifying these parameters is important in providing insights into the roles exerted by microglia, the resident macrophages of the brain. Under normal physiological conditions, microglia are regularly distributed in a mosaic-like pattern and present a small soma with ramified processes. Nevertheless, as a response to environmental factors (i.e., trauma, infection, disease, or injury), microglial density, distribution, and morphology are altered in various manners, depending on the insult. Additionally, the described double-staining method allows visualization of infiltrating macrophages in the brain based on their expression of IBA1 and without colocalization with TMEM119. This approach thus allows discrimination between microglia and infiltrating macrophages, which is required to provide functional insights into their distinct involvement in brain homeostasis across various contexts of health and disease. This protocol integrates the latest findings in neuroimmunology that pertain to the identification of selective markers. It also serves as a useful tool for both experienced neuroimmunologists and researchers seeking to integrate neuroimmunology into projects.
Introduction
Whether acute or chronic, neuroinflammation is tightly influenced by microglia, the resident macrophages of the brain. Visualizing microglia through immunostaining is valuable for the study of neuroinflammation with the use of light microscopy, a highly accessible technique. In homeostatic conditions, microglia are typically distributed in a nonoverlapping, mosaic-like pattern. They exhibit small somas that extend ramified processes1, which sometimes contact one another2. Microglial ramified processes dynamically survey the brain parenchyma, interacting with neurons, other glial cells, and blood vessels during normal phy....
Protocol
All experimental procedures were performed in agreement with the guidelines of the Institutional Animal Ethics committees, in conformity with the Canadian Council on Animal Care and the Animal Care Committee of Université Laval.
1. Immunostaining
- Select three mouse brain sections containing the region of interest (ROI) (i.e., the hippocampus) with the help of a brain atlas. Place the sections in a plastic multi-well plate and cover them with 350 µL of phosphate-buffered s.......
Representative Results
Figure 1 shows the co-labeling of microglia using IBA1 and TMEM119 in a coronal section of the dorsal hippocampus imaged at 20x by fluorescence microscopy. A successful staining reveals microglial cell bodies and their fine processes (Figure 1A−C). This staining allows determination of microglial density and distribution and identification of microglial clusters (Figure 1
Discussion
This protocol can be divided in two critical parts: quality of the staining and analysis. If the staining is not optimal, it will fail to represent microglial cells adequately, thus affecting the density, distribution, and morphology measurements. In addition, the proportion of infiltration peripheral myeloid cells may be underestimated. This is an optimized version of the staining protocol, but there are several factors that may result in suboptimal images. Even though the perfusion of the animal is not included in this.......
Acknowledgements
We are grateful to Nathalie Vernoux for her guidance and assistance with the experiments. We would also like to thank Drs. Emmanuel Planel and Serge Rivest for the use of their fluorescence and confocal microscopes, respectively. This work was partly funded by scholarships from Mexican Council of Science and Technology (CONACYT; to F.G.I), Fondation Famille-Choquette and Centre thématique de recherche en neurosciences (CTRN; to K.P.), Fonds de Recherche du Québec - Santé (to M.B.), and Shastri Indo-Canadian Institute (to K.B.), as well as a Discovery grant from Natural Sciences and Engineering Research Council of Canada (NSERC) to M.E.T. M.E.T. holds a ....
Materials
| Name | Company | Catalog Number | Comments |
| Alexa Fluor 488 donkey anti-mouse | Invitrogen/Thermofisher | A21202 | |
| Alexa Fluor 568 goat anti-rabbit | Invitrogen/Thermofisher | A11011 | |
| Biolite 24 Well multidish | Thermo Fisher | 930186 | |
| Bovine serum albumin | EMD Millipore Corporation | 2930 | |
| Citric acid | Sigma-Aldrich | C0759-500G | |
| DAPI Nuceleic acid stain | Invitrogen/Thermofisher | MP 01306 | |
| Fine Brush | Art store | ||
| Fluoromount-G | Southern Biotech | 0100-01 | |
| Gelatin from coldwater fish skin | Sigma-Aldrich | G7765 | |
| Microscope coverglass | Fisher Scientific | 1254418 | |
| Microslides positively charged | VWR | 48311-703 | |
| Monoclonal mouse Anti-IBA1 | Millipore | MABN92 | |
| Na2H2PO4·H2O | BioShop Canada Inc. | SPM306, SPM400 | |
| Na2HPO4 | BioShop Canada Inc. | SPD307, SPD600 | |
| NaBH4 | Sigma-Aldrich | 480886 | |
| NaCl | Fisher Scientific | S642500 | |
| Normal donkey serum (NDS) | Jackson ImmunoResearch laboratories Inc. | 017-000-121 | |
| Normal goat serum (NGS) | Jackson ImmunoResearch laboratories Inc. | 005-000-121 | |
| Parafilm-M | Parafilm | PM-999 | |
| Rabbit monoclonal Anti-TMEM119 | Abcam | ab209064 | |
| Reciprocal Shaking bath model 25 | Precision Scientific | - | |
| Transfer pipette | |||
| Tris buffer hydrochloride | BioShop Canada Inc. | TRS002/TRS004 | |
| Triton-X-100 | Sigma-Aldrich | T8787 | |
| Tween 20 | Sigma-Aldrich | P7949-100ML |
References
- Lawson, L. J., Perry, V. H., Dri, P., Gordon, S. Heterogeneity in the distribution and morphology of microglia in the normal adult mouse brain. Neuroscience. 39 (1), 151-170 (1990).
- Milior, G., et al.
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