AI Article Synopsis
- CB2 receptors are mainly relevant for immune regulation, with inconsistent evidence for their role in neuronal function, specifically in the retina.
- In CB2 knockout mice, retinal responses showed notable changes in electroretinogram (ERG) readings, while acute blocking with a CB2 antagonist produced different results compared to chronic blocking.
- The study highlights minimal CB2 expression in healthy retinal conditions, but increased levels during inflammation, suggesting that CB2’s influence on retinal signaling may be indirect and linked to broader cannabinoid-related lipid changes.
Article Abstract
The cannabinoid receptor CB2 plays a significant role in the regulation of immune function whereas neuronal expression remains a subject of contention. Multiple studies have described CB2 in retina and a recent study showed that CB2 deletion altered retinal visual processing. We revisited CB2 expression using immunohistochemistry and a recently developed CB2-eGFP reporter mouse. We examined the consequence of acute vs. prolonged CB2 deactivation on the electroretinogram (ERG) responses. We also examined lipidomics in CB2 knockout mice and potential changes in microglia using Scholl analysis. Consistent with a published report, in CB2 receptor knockout mice see an increased ERG scotopic a-wave, as well as stronger responses in dark adapted cone-driven ON bipolar cells and, to a lesser extent cone-driven ON bipolar cells early in light adaptation. Significantly, however, acute block with CB2 antagonist, AM630, did not mimic the results observed in the CB2 knockout mice whereas chronic (7 days) block did. Immunohistochemical studies show no CB2 in retina under non-pathological conditions, even with published antibodies. Retinal CB2-eGFP reporter signal is minimal under baseline conditions but upregulated by intraocular injection of either LPS or carrageenan. CB2 knockout mice see modest declines in a broad spectrum of cannabinoid-related lipids. The numbers and morphology of microglia were unaltered. In summary minimal CB2 expression is seen in healthy retina. CB2 appears to be upregulated under pathological conditions. Previously reported functional consequences of CB2 deletion are an adaptive response to prolonged blockade of these receptors. CB2 therefore impacts retinal signaling but perhaps in an indirect, potentially extra-ocular fashion.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6314309 | PMC |
| http://dx.doi.org/10.1016/j.neuropharm.2018.08.007 | DOI Listing |
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