Abstract
Background Primary microglial cultures have been used extensively to facilitate the development of therapeutic strategies for a variety of CNS disorders including neurodegeneration and neuropathic pain. However, existing techniques for culturing these cells are slow and costly.
New Method Here, we report a refined protocol based on our previously published methods described by Clark et al., which reduces in the time, reagents and the number of animals used for each culture whilst yielding high number and excellent quality microglial cells.
Results Our refined protocol offers an isolation of > 96% microglia from a mixed glial culture after only four days of incubation. It results in a high yield of microglia, in excess of one million cells per cortex with predominantly resting morphology and a low level of cell activation.
Comparison with Existing Method(s) Compared to conventional procedures our refined protocol requires only one third of the time to prepare high quality microglial cultures, cuts the cost more than four-fold, and significantly reduces the number of animals used per culture.
Conclusion Our consistent, reliable, and time/cost effective microglial culture protocol is crucial for efficient in vitro screening of potential therapeutics. By dramatically reducing the culture time from 2 weeks to just 4 days and increasing the laboratory research output it has implications for the Reduction, Refinement and Replacement policies endorsed by many government funding agencies and animal research regulatory bodies.
New Method Here, we report a refined protocol based on our previously published methods described by Clark et al., which reduces in the time, reagents and the number of animals used for each culture whilst yielding high number and excellent quality microglial cells.
Results Our refined protocol offers an isolation of > 96% microglia from a mixed glial culture after only four days of incubation. It results in a high yield of microglia, in excess of one million cells per cortex with predominantly resting morphology and a low level of cell activation.
Comparison with Existing Method(s) Compared to conventional procedures our refined protocol requires only one third of the time to prepare high quality microglial cultures, cuts the cost more than four-fold, and significantly reduces the number of animals used per culture.
Conclusion Our consistent, reliable, and time/cost effective microglial culture protocol is crucial for efficient in vitro screening of potential therapeutics. By dramatically reducing the culture time from 2 weeks to just 4 days and increasing the laboratory research output it has implications for the Reduction, Refinement and Replacement policies endorsed by many government funding agencies and animal research regulatory bodies.
| Original language | English |
|---|---|
| Journal | Journal of Neuroscience Methods |
| Early online date | 27 Apr 2018 |
| DOIs | |
| Publication status | E-pub ahead of print - 27 Apr 2018 |
Keywords
- cell culture
- microglia
- tissue culture dish
- neonatal rats
- cortex
- in vitro