Previous studies have demonstrated the presence of hemoglobin α-chain and β-chain in neurons of the rodent and human brain thus indicating that hemoglobin is a normal component of nerve cells and that hemoglobin may play a role in intraneuronal oxygen homeostasis. Progressing with these studies, hemoglobin expression has been examined in selected cell population in the brains of Alzheimer's disease (AD), argyrophilic grain disease (AGD), Parkinson's disease (PD) and Dementia with Lewy bodies (DLB). Double labeling immunofluorescence and confocal microscopy revealed reduced hemoglobin α-chain and β-chain in practically all neurons with small amounts of granular or punctuate hyperphosphorylated tau deposits and in neurons with tangles in the hippocampus and frontal cortex in AD and in the hippocampus in AGD; in ballooned neurons containing αB-crystallin in the amygdala in AD and AGD; and in about 80% of neurons with punctuate α-synuclein deposits and in neurons with Lewy bodies in the substantia nigra pars compacta and in vulnerable neurons of the medulla oblongata in PD and DLB; and in neurons with Lewy bodies in the frontal cortex in DLB. Hemoglobin immunoreactivity was also observed in the core of neuritic plaques and in diffuse plaques, but not in dystrophic neurites. Loss of hemoglobin was specific as neuroglobin was present equally in neurons with and without abnormal protein inclusions, and erythropoietin receptor was expressed equally in neurons without and in neurons with abnormal protein aggregates in AD, AGD, PD, and DLB.
Neuroprotection of erythropoietin (EPO) following long-term administration is hampered by the associated undesirable effects on hematopoiesis and body weight. For this reason, we tested carbamylated-EPO (CEPO), which has no effect on erythropoiesis, and compared it with EPO in the APP/PS1 mouse model of familial Alzheimer's disease. Groups of 5-monthold wild type (WT) and transgenic mice received chronic treatment consisting of CEPO (2,500 or 5,000 UI/kg) or EPO (2,500 UI/kg) 3 days/week for 4 weeks. Memory at the end of treatment was assessed with the object recognition test. Microarray analysis and quantitative-PCR were used for gene expression studies. No alterations in erythropoiesis were observed in CEPO-treated WT and APP/PS1 transgenic mice. EPO and CEPO improved memory in APP/PS1 animals. However, only EPO decreased amyloid- (A) plaque burden and soluble A 40. Microarray analysis of gene expression revealed a limited number of common genes modulated by EPO and CEPO. CEPO but not EPO significantly increased gene expression of dopamine receptors 1 and 2, and adenosine receptor 2a, and significantly down-regulated adrenergic receptor ␣1D and gastrin releasing peptide. CEPO treatment resulted in higher protein levels of dopamine receptors 1 and 2 in WT and APP/PS1 animals, whereas the adenosine receptor 2a was reduced in WT animals. The present results suggest that the improved behavior observed in APP/PS1 transgenic mice after CEPO treatment may be mediated, at least in part, by the observed modulation of the expression of molecules involved in neurotransmission.
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