Heterochronic parabiosis (shared blood circulation) of AD transgenic mice with young healthy mice did not reduce amyloidosis and microglial activation in AD mice, but reversed the loss of synaptophysin and calbindin (critical synaptic proteins, indicators of cognitive decline in AD) in the dentate gyrus, and the abnormal expression, in the hippocampus, of many genes involved in key neuronal signaling pathways.
GM-CSF treatment in AD mice reduced brain amyloidosis, increased plasma Aβ, and rescued cognitive impairment with increased hippocampal expression of calbindin and synaptophysin and increased levels of doublecortin-positive cells in the dentate gyrus.
We propose that chronic suppression of calbindin by ΔFosB is one mechanism through which intermittent seizures drive persistent cognitive deficits in conditions accompanied by recurrent seizures.
In this study, we explored a possible link between cognitive dysfunction and hippocampal expression of calbindin D(28KD) (CB), a high affinity calcium-binding protein, in four MELAS patients, using post mortem hippocampal tissues.