Microglia play important roles in maintaining homeostasis and immunoreactive defense in the central nervous system including retina. To accomplish such a wide range of functions, microglia are highly heterogeneous. Dark microglia (DM) were recently identified by electron microscopy (EM). However, the specific correlation between microglial morphological phenotypes, including DM, and physiological or pathological conditions remains poorly understood. We established acute and chronic neuroinflammatory models by Lipopolysaccharide (LPS) and light-induced photoreceptor neurodegeneration model to explore these questions in the mouse retina. Immunofluorescence and EM were used to detect microglia in these models. Our light microscopy (LM) results reveal that the withdrawal phenotype is predominant in acute neuroinflammation models, both in vitro and in vivo, while the dystrophic microglia are the major phenotype in chronic neuroinflammation and neurodegeneration models in vivo. Ultrastructurally, acute models exhibit high electron dense processes, but not somas, while chronic models show high electron dense somas and processes. Given the consistency between LM and EM, we propose that DM-like somas and processes likely indicate a dystrophic population. It's important to note, however, that DM may not represent a single specific microglia phenotype, but rather a dynamic transformation of gradually activated microglia. Finally, we provide evidence for the presence of DM in mouse retinas in the neuroinflammatory model and the neurodegenerative model. This research provides valuable insights into investigating microglia phenotypes through both LM and EM.
Keywords: Dark microglia; Dynamics; Electron microscopy; Heterogeneity; Light microscopy; Microglia.
© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.