Differential contribution of APP metabolites to early cognitive deficits in a TgCRND8 mouse model of Alzheimer’s disease

International audienceAlzheimer's disease (AD) is a neurodegenerative pathology commonly characterized by a progressive and irreversible deterioration of cognitive functions, especially memory. Although the etiology of AD remains unknown , a consensus has emerged on the amyloid hypothesis, which posits that increased production of soluble amyloid b (Ab) peptide induces neuronal network dysfunctions and cognitive deficits. However, the relative failures of Ab-centric therapeutics suggest that the amyloid hypothesis is incomplete and/or that the treatments were given too late in the course of AD, when neuronal damages were already too extensive. Hence, it is striking to see that very few studies have extensively characterized, from anatomy to behavior, the alterations associated with pre-amyloid stages in mouse models of AD amyloid pathology. To fulfill this gap, we examined memory capacities as well as hippocampal network anatomy and dynamics in young adult pre-plaque TgCRND8 mice when hippocampal Ab levels are still low. We showed that TgCRND8 mice present alterations in hippocampal inhibitory networks and g oscillations at this stage. Further, these mice exhibited deficits only in a subset of hippocampal-dependent memory tasks, which are all affected at later stages. Last, using a pharmacological approach, we showed that some of these early memory deficits were Ab-independent. Our results could partly explain the limited efficacy of Ab-directed treatments and favor multitherapy approaches for early symptomatic treatment for AD

Age-related vulnerability of pattern separation in C57BL/6J mice

International audienceAging is associated with impaired performance in behavioral pattern separation (PS) tasks based on similarities in object features and in object location. These deficits have been attributed to functional alterations in the dentate gyrus (DG)-CA3 region. Animal studies suggested a role of adult-born DG neurons in PS performance. The present study investigated the effect of aging in C57BL/6J mice performing PS tasks based on either object features or object location. At the age of 18 months or more, performance was severely impaired in both tasks. Spatial PS performance declined gradually over adult lifespan from 3 to 21 months. Subchronic treatment with the cognitive enhancer D-serine fully rescued spatial PS performance in 18-month-old mice and induced a modest increase in the number of 4-week-old adult-born cells in the DG. Performance of mice in these PS tasks shows an age-dependence which appears to translate well to that found in humans. This model should help in deciphering physiological changes underlying PS deficits and in identifying future therapeutic targets

Hippocampal synaptic reorganizations and functional recovery following entorhinal lesions : APOE4 modulation of the cholinergic sprouting and the glutamatergic reinnervation

La maladie d’Alzheimer est souvent précédée de troubles cognitifs légers (MCI) associés à la lésion du cortex entorhinal, une région interconnecté avec l’hippocampe. Cependant, un tiers des patients MCI présentent une rémission cognitive suggérant l’action de mécanismes compensatoires. Ces mécanismes pourraient être déficitaires chez les patients porteurs de l’allèle APOE4 présentant un MCI plus agressif.Par des approches multidisciplinaires chez la Souris, ce travail a démontré que la lésion entorhinale induit des déficits comportementaux et une hyperactivité de l’hippocampe. Or, le bourgeonnement des fibres cholinergique dans l’hippocampe compense ces déficits. Comme le bourgeonnement cholinergique est inhibé en présence de l’APOE4, cela pourrait contribuer au déclin cognitif exacerbé de ces patients. Par conséquent, l’inhibition de l’hyperactivité hippocampique chez les 50% de patients APOE4 représente une alternative prometteuse pour le traitement symptomatique du MCI.Mild Cognitive Impairments (MCI) often precedes Alzheimer’s disease (AD) and is characterized by the loss of entorhinal neurons leading to a hippocampal disconnection. However, MCI patients also revert to normal cognition, suggesting compensatory mechanisms that alter the disease progression. This compensation may be impaired in patients bearing the APOE4 allele that are more prone to MCI, present less cognitive reversion and faster transition to AD.This work in mice, demonstrated that the sprouting of cholinergic fibers compensates entorhinal lesions through the reduction of the related hippocampal hyperactivity. As in APOE4 mice the cholinergic sprouting was altered in association with cognitive impairments, such impaired synaptic compensation may contribute to the faster cognitive decline of these patients. Therefore, supporting or mimicking the cholinergic control on hippocampal hyperactivity may represent a promising alternative therapeutic strategy for APOE4-carriers

Réorganisations synaptiques dans l'hippocampe et récupération fonctionnelle après lésion du cortex entorhinal : effets de l'allèle APOE4, du bourgeonnement cholinergique et de la réinnervation glutamatergique

Mild Cognitive Impairments (MCI) often precedes Alzheimer’s disease (AD) and is characterized by the loss of entorhinal neurons leading to a hippocampal disconnection. However, MCI patients also revert to normal cognition, suggesting compensatory mechanisms that alter the disease progression. This compensation may be impaired in patients bearing the APOE4 allele that are more prone to MCI, present less cognitive reversion and faster transition to AD.This work in mice, demonstrated that the sprouting of cholinergic fibers compensates entorhinal lesions through the reduction of the related hippocampal hyperactivity. As in APOE4 mice the cholinergic sprouting was altered in association with cognitive impairments, such impaired synaptic compensation may contribute to the faster cognitive decline of these patients. Therefore, supporting or mimicking the cholinergic control on hippocampal hyperactivity may represent a promising alternative therapeutic strategy for APOE4-carriers.La maladie d’Alzheimer est souvent précédée de troubles cognitifs légers (MCI) associés à la lésion du cortex entorhinal, une région interconnecté avec l’hippocampe. Cependant, un tiers des patients MCI présentent une rémission cognitive suggérant l’action de mécanismes compensatoires. Ces mécanismes pourraient être déficitaires chez les patients porteurs de l’allèle APOE4 présentant un MCI plus agressif.Par des approches multidisciplinaires chez la Souris, ce travail a démontré que la lésion entorhinale induit des déficits comportementaux et une hyperactivité de l’hippocampe. Or, le bourgeonnement des fibres cholinergique dans l’hippocampe compense ces déficits. Comme le bourgeonnement cholinergique est inhibé en présence de l’APOE4, cela pourrait contribuer au déclin cognitif exacerbé de ces patients. Par conséquent, l’inhibition de l’hyperactivité hippocampique chez les 50% de patients APOE4 représente une alternative prometteuse pour le traitement symptomatique du MCI

Hippocampal synaptic reorganizations and functional recovery following entorhinal lesions : APOE4 modulation of the cholinergic sprouting and the glutamatergic reinnervation

La maladie d’Alzheimer est souvent précédée de troubles cognitifs légers (MCI) associés à la lésion du cortex entorhinal, une région interconnecté avec l’hippocampe. Cependant, un tiers des patients MCI présentent une rémission cognitive suggérant l’action de mécanismes compensatoires. Ces mécanismes pourraient être déficitaires chez les patients porteurs de l’allèle APOE4 présentant un MCI plus agressif.Par des approches multidisciplinaires chez la Souris, ce travail a démontré que la lésion entorhinale induit des déficits comportementaux et une hyperactivité de l’hippocampe. Or, le bourgeonnement des fibres cholinergique dans l’hippocampe compense ces déficits. Comme le bourgeonnement cholinergique est inhibé en présence de l’APOE4, cela pourrait contribuer au déclin cognitif exacerbé de ces patients. Par conséquent, l’inhibition de l’hyperactivité hippocampique chez les 50% de patients APOE4 représente une alternative prometteuse pour le traitement symptomatique du MCI.Mild Cognitive Impairments (MCI) often precedes Alzheimer’s disease (AD) and is characterized by the loss of entorhinal neurons leading to a hippocampal disconnection. However, MCI patients also revert to normal cognition, suggesting compensatory mechanisms that alter the disease progression. This compensation may be impaired in patients bearing the APOE4 allele that are more prone to MCI, present less cognitive reversion and faster transition to AD.This work in mice, demonstrated that the sprouting of cholinergic fibers compensates entorhinal lesions through the reduction of the related hippocampal hyperactivity. As in APOE4 mice the cholinergic sprouting was altered in association with cognitive impairments, such impaired synaptic compensation may contribute to the faster cognitive decline of these patients. Therefore, supporting or mimicking the cholinergic control on hippocampal hyperactivity may represent a promising alternative therapeutic strategy for APOE4-carriers

Spatial Reference Memory is Associated with Modulation of Theta–Gamma Coupling in the Dentate Gyrus

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APOE -Sensitive Cholinergic Sprouting Compensates for Hippocampal Dysfunctions Due to Reduced Entorhinal Input

International audienceBrain mechanisms compensating for cerebral lesions may mitigate the progression of chronic neurodegenerative disorders such as Alzheimer's disease (AD). Mild cognitive impairment (MCI), which often precedes AD, is characterized by neuronal loss in the entorhinal cortex (EC). This loss leads to a hippocampal disconnection syndrome that drives clinical progression. The concomitant sprouting of cholinergic terminals in the hippocampus has been proposed to compensate for reduced EC glutamatergic input. However, in absence of direct experimental evidence, the compensatory nature of the cholinergic sprouting and its putative mechanisms remain elusive. Transgenic mice expressing the human APOE4 allele, the main genetic risk factor for sporadic MCI/AD, display impaired cholinergic sprouting after EC lesion. Using these mice as a tool to manipulate cholinergic sprouting in a disease-relevant way, we showed that this sprouting was necessary and sufficient for the acute compensation of EC lesion-induced spatial memory deficit before a slower glutamatergic reinnervation took place. We also found that partial EC lesion generates abnormal hyperactivity in EC/dentate networks. Dentate hyperactivity was abolished by optogenetic stimulation of cholinergic fibers. Therefore, control of dentate hyperactivity by cholinergic sprouting may be involved in functional compensation after entorhinal lesion. Our results also suggest that dentate hyperactivity in MCI patients may be directly related to EC neuronal loss. Impaired sprouting during the MCI stage may contribute to the faster cognitive decline reported in APOE4 carriers. Beyond the amyloid contribution, the potential role of both cholinergic sprouting and dentate hyperactivity in AD symptomatogenesis should be considered in designing new therapeutic approaches