Abstract

Fluorescein-derived fluorochromes and anionic dyes such as Fluoro-Jade (FJ) stains have been introduced to facilitate recognition of dying neurons in tissue sections. However, the definition of what is really detected by FJ-based stains and its sensitivity in the detection of neuronal cell death is unclear. In our work, we evaluated the outcome of FJ-C staining in mouse brains from 4 different well-characterized models of neurodegeneration. Neuronal degeneration and loss were highlighted with high sensitivity by FJ-C stain in mice with dysfunctional γ-secretase in the glutamatergic neurons and in mice affected by acute cerebral ischemia. Histopathologically, acute eosinophilic necrosis or "red dead" neurons were associated with FJ-C staining in both settings. Conversely, in mice affected by chronic cerebral microinfarcts due to tumor lysis syndrome as well as in a model of mitochondrial encephalopathy, FJ-C staining failed to detect neuronal death. Histopathologically, these models were characterized by extensive neuronal vacuolation associated with fading neurons ("ghost cells"). Therefore, contrary to the widespread belief that FJ-C stain has high affinity for all degenerating neurons regardless of the underlying cell death mechanism, we observed restricted sensitivity of the technique to specific conditions of neuronal cell death. As such, complementary techniques are essential to evaluate the presence of neurodegeneration in the absence of a positive FJ-C signal.

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