Identification of endogenous pathological amyloid β peptides (Aβ) forms in the brains of patients with Alzheimer’s disease (AD) is still unclear. In healthy brain, Aβ can associate with Apolipoprotein E (ApoE) which is involved in its metabolism and clearance. In the brain of patients with AD, ApoE is cleaved and produces ApoE fragments. We studied the forms of Aβ and their interaction with the ApoE fragments in post-mortem brains from control and AD patients by western blots and co-immunoprecipitation. Three Aβ-containing peptides and three ApoE fragments were specifically found in the brain of AD patients. Co-immunoprecipitations showed that ApoE fragments and Aβ1–42 peptides are co-partners in heteromers of 18 and 16 kDa while ApoE-fragments and Aβ peptides of 12 kDa did not interact with each other. Formation of the 18 kDa ApoE-fragment/Aβ heteromers is specifically increased in ApoE4 carriers and is a strong brain marker of AD while 16 kDa ApoE-fragment/Aβ and Aβ 12 kDa correlate to memory deficit. These data show that in patients with AD, ApoE fragmentation generates peptides that trap Aβ in the brain. Inhibiting the fragmentation or targeting ApoE fragments could be exploited to define strategies to detect or reverse AD.
Designer receptors exclusively activated by designer drugs (DREADDs) are widely used in rodents to manipulate neuronal activity and establish causal links between structure and function. Their utilization in non-human primates (NHPs) is, however, limited and their efficacy still debated. Here, we recorded and examined the neuronal activity in the hM4Di DREADD-transduced and hM4Di DREADD-free GPe of two anesthetized animals following local intra-GPe microinjection of clozapine-N-oxide (CNO). Our results revealed that the neuronal activity of the well-isolated units recorded in the hM4Di DREADD-transduced GPe exhibited diverse patterns in timing and polarity (increase/decrease) of firing rate modulations following CNO injection.Nevertheless, significant decreases in activity were more frequent (and more pronounced) than significant increases in activity during CNO injection (6/18 vs. 3/18 units) and were exclusive after CNO Injection (8/18 units). In contrast, only one of the 8 well-isolated units recorded in hM4Di DREADD-free GPe exhibited a significant increase in activity after CNO injection. Overall, the number of units exhibiting a significant period-related decrease following CNO injection was significantly larger in hM4Di DREADD-transduced GPe than in the hM4Di DREADD-free GPe (8/18 [44.4%] vs. 0/8 [0%]). Moreover, postmortem histochemical analysis revealed that hM4Di DREADDs were expressed at high level in the GPe neurons located in the vicinity of the viral vector injection sites. Our results therefore show in vivo hM4Di DREADD-based inhibition of pallidal neurons in the NHP model and reinforce the view that DREADD technology can be effective in NHPs.
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