Ottavio V. Vitolo scite author profile

Changes in hippocampal function seem critical for cognitive impairment in Alzheimer's disease (AD). Although there is eventual loss of synapses in both AD and animal models of AD, deficits in spatial memory and inhibition of long-term potentiation (LTP) precede morphological alterations in the models, suggesting earlier biochemical changes in the disease. In the studies reported here we demonstrate that amyloid ␤-peptide (A␤) treatment of cultured hippocampal neurons leads to the inactivation of protein kinase A (PKA) and persistence of its regulatory subunit PKAII␣. Consistent with this, CREB phosphorylation in response to glutamate is decreased, and the decrease is reversed by rolipram, a phosphodiesterase inhibitor that raises cAMP and leads to the dissociation of the PKA catalytic and regulatory subunits. It is likely that a similar mechanism underlies 〈␤ inhibition of LTP, because rolipram and forskolin, agents that enhance the cAMP-signaling pathway, can reverse this inhibition. This reversal is blocked by H89, an inhibitor of PKA. These observations suggest that 〈␤ acts directly on the pathways involved in the formation of late LTP and agents that enhance the cAMP͞PKA͞CREB-signaling pathway have potential for the treatment of AD. A lzheimer's disease (AD) is a progressive neurodegenerative disorder that is characterized by mild cognitive impairment at its onset and deficits in multiple cortical functions in later stages. To date, the vast majority of its symptoms have been attributed to the loss of synapses and the death of neurons that occur in the course of the disease. The overproduction and accumulation of the amyloid ␤-peptide (A␤) and particularly its 42-aa form (A␤ 1-42 ) have been shown to play a crucial role in both of these processes in animal models of AD (1, 2). Although these phenomena can account for the late debilitating stages of the disease, the mechanisms by which A␤ causes early cognitive and behavioral changes remain a matter of conjecture. Recent studies on animal models of AD have highlighted the discrepancy between behavioral deficits and neuropathological findings. Electrophysiological studies on mice that overexpress A␤ show impairment of long-term potentiation (LTP) that does not correlate with the extent of synaptic loss, amyloid deposition, or cell death (3-5). In addition, animals without detectable accumulation of A␤ have been reported to have behavioral deficits (6, 7). While examining gene expression in nerve growth factorprimed PC12 cells that had been exposed to A␤ 1-42 for 3 h, we observed that a group of genes including CREB2 (ATF4) and ubiquitin C-terminal hydrolase, which have been implicated in the switch from early to late LTP, were regulated in a manner consistent with an 〈␤-mediated inhibition of the cAMPmediated signaling pathway for the consolidation of LTP. ʈ The details of the biochemical pathway mediating the switch from early to late LTP have been worked out in aplysia and mice (8) and depend on the activation of the transcription factor CREB by phosphorylat...

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Functional Alterations in Memory Networks in Early Alzheimer’s Disease

Sperling

et al. 2010

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The hallmark clinical symptom of early Alzheimer's disease (AD) is episodic memory impairment. Recent functional imaging studies suggest that memory function is subserved by a set of distributed networks, which include both the medial temporal lobe (MTL) system and the set of cortical regions collectively referred to as the default network. Specific regions of the default network, in particular, the posteromedial cortices, including the precuneus and posterior cingulate, are selectively vulnerable to early amyloid deposition in AD. These regions are also thought to play a key role in both memory encoding and retrieval, and are strongly functionally connected to the MTL. Multiple functional magnetic resonance imaging (fMRI) studies during memory tasks have revealed alterations in these networks in patients with clinical AD. Similar functional abnormalities have been detected in subjects at-risk for AD, including those with genetic risk and older individuals with mild cognitive impairment. Recently, we and other groups have found evidence of functional alterations in these memory networks even among cognitively intact older individuals with occult amyloid pathology, detected by PET amyloid imaging. Taken together, these findings suggest that the pathophysiological process of AD exerts specific deleterious effects on these distributed memory circuits, even prior to clinical manifestations of significant memory impairment. Interestingly, some of the functional alterations seen in prodromal AD subjects have taken the form of increases in activity relative to baseline, rather than a loss of activity. It remains unclear whether these increases in fMRI activity may be compensatory to maintain memory performance in the setting of early AD pathology or instead, represent evidence of excitotoxicity and impending neuronal failure. Recent studies have also revealed disruption of the intrinsic connectivity of these networks observable even during the resting state in early AD and asymptomatic individuals with high amyloid burden. Research is ongoing to determine if these early network alterations will serve as sensitive predictors of clinical decline, and eventually, as markers of pharmacological response to potential disease-modifying treatments for AD. Sperling et al.

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Ottavio V. Vitolo

Amyloid β-peptide inhibition of the PKA/CREB pathway and long-term potentiation: Reversibility by drugs that enhance cAMP signaling

Functional Alterations in Memory Networks in Early Alzheimer’s Disease

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