Oxidative Stress and Beta Amyloid in Alzheimer's Disease. Which Comes First: The Chicken or the Egg?

The pathogenesis of Alzheimer's disease involves ß amyloid (Aß) accumulation known to induce synaptic dysfunction and neurodegeneration. The brain's vulnerability to oxidative stress (OS) is considered a crucial detrimental factor in Alzheimer's disease. OS and Aß are linked to each other because Aß induces OS, and OS increases the Aß deposition. Thus, the answer to the question "which comes first: the chicken or the egg?" remains extremely difficult. In any case, the evidence for the primary occurrence of oxidative stress in AD is attractive. Thus, evidence indicates that a long period of gradual oxidative damage accumulation precedes and results in the appearance of clinical and pathological AD symptoms, including Aß deposition, neurofibrillary tangle formation, metabolic dysfunction, and cognitive decline. Moreover, oxidative stress plays a crucial role in the pathogenesis of many risk factors for AD. Alzheimer's disease begins many years before its symptoms, and antioxidant treatment can be an important therapeutic target for attacking the disease.

Estrogens Inhibit Amyloid-ß-Mediated Paired Helical Filament-Like Conformation of Tau Through Antioxidant Activity and miRNA 218 Regulation in hTau Mice.

BACKGROUND: The risk of developing Alzheimer's disease as well as its progression and severity are known to be different in men and women, and cognitive decline is greater in women than in men at the same stage of disease and could be correlated at least in part on estradiol levels. OBJECTIVE: In our work we found that biological sex influences the effect of amyloid-ß42 (Aß42) monomers on pathological tau conformational change. METHODS: In this study we used transgenic mice expressing the wild-type human tau (hTau) which were subjected to intraventricular (ICV) injections of Aß peptides in nanomolar concentration. RESULTS: We found that Aß42 produces pathological conformational changes and hyperphosphorylation of tau protein in male or ovariectomized female mice but not in control females. The treatment of ovariectomized females with estradiol replacement protects against the pathological conformation of tau and seems to be mediated by antioxidant activity as well as the ability to modulate the expression of miRNA 218 linked to tau phosphorylation. CONCLUSION: Our study indicates that factors as age, reproductive stage, hormone levels, and the interplay with other risk factors should be considered in women, in order to identify the best appropriate therapeutic approach in prevention of cognitive impairment.

α-Synuclein RT-QuIC assay in cerebrospinal fluid of patients with dementia with Lewy bodies.

We applied RT-QuIC assay to detect α-synuclein aggregates in cerebrospinal fluid (CSF) of patients with suspected Creutzfeldt-Jakob disease who had a neuropathological diagnosis of dementia with Lewy bodies (DLB) (n = 7), other neurodegenerative diseases with α-synuclein mixed pathology (n = 20), or without Lewy-related pathology (n = 49). The test had a sensitivity of 92.9% and specificity of 95.9% in distinguishing α-synucleinopathies from non-α-synucleinopathies. When performed in the CSF of patients with DLB (n = 36), RT-QuIC was positive in 17/20 with probable DLB, 0/6 with possible DLB, and 0/10 with Alzheimer disease. These results indicate that RT-QuIC for α-synuclein is an accurate test for DLB diagnosis.

Stroke and Amyloid-ß Downregulate TREM-2 and Uch-L1 Expression that Synergistically Promote the Inflammatory Response.

Neuroinflammation is involved in the pathogenesis of Alzheimer's disease, and the transcription factor NF-κB is a player in this event. We found here that the ischemic damage alone or in association with Aß1-42 activates the NF-κB pathway, induces an increase of BACE1 and a parallel inhibition of Uch-L1 and TREM2, both in vitro and in vivo, in Tg 5XFAD and in human brains of sporadic AD. This mechanism creates a synergistic loop that fosters inflammation. We also demonstrated a significant protection exerted by the restoration of Uch-L1 activity. The rescue of the enzyme is able to abolish the decrease of TREM2 and the parameters of neuroinflammation.

Frontal Variant of Alzheimer's Disease: A Report of a Novel PSEN1 Mutation.

Alzheimer's disease may mimic frontotemporal dementia. We describe a case of presenile dementia who presented with peudo-psychotic symptoms carrying a PSEN1 mutation (P355 S), which was not known to be pathogenic. PET-FDG showed bilateral frontotemporal hypometabolism, but at MRI, multiple microbleeds were detected, suggestive of amyloid angiopathy.

A silver lining for 24-hydroxycholesterol in Alzheimer's disease: The involvement of the neuroprotective enzyme sirtuin 1.

It is now established that cholesterol oxidation products (oxysterols) are involved in several events underlying Alzheimer's disease (AD) pathogenesis. Of note, certain oxysterols cause neuron dysfunction and degeneration but, recently, some of them have been shown also to have neuroprotective effects. The present study, which aimed to understand the potential effects of 24-hydroxycholesterol (24-OH) against the intraneuronal accumulation of hyperphosphorylated tau protein, stressed these latter effects. A beneficial effect of 24-OH was demonstrated in SK-N-BE neuroblastoma cells, and is due to its ability to modulate the deacetylase sirtuin 1 (SIRT1), which contributes to preventing the neurotoxic accumulation of the hyperphosphorylated tau protein. Unlike 24-OH, 7-ketocholesterol (7-K) did not modulate the SIRT1-dependent neuroprotective pathway. To confirm the neuroprotective role of 24-OH, in vivo experiments were run on mice that express human tau without spontaneously developing tau pathology (hTau mice), by means of the intracerebroventricular injection of 24-OH. 24-OH, unlike 7-K, was found to completely prevent the hyperphosphorylation of tau induced by amyloid ß monomers. These data highlight the importance of preventing the loss of 24-OH in the brain, and of maintaining high levels of the enzyme SIRT1, in order to counteract neurodegeneration.

The Unexpected Role of Aß1-42 Monomers in the Pathogenesis of Alzheimer's Disease.

Amyloid-ß (Aß) has been proposed as a biomarker and a drug target for the therapy of Alzheimer's disease (AD). The neurotoxic entity and relevance of each conformational form of Aß to AD pathology is still under debate; Aß oligomers are considered the major killer form of the peptide whereas monomers have been proposed to be involved in physiological process. Here we reviewed some different effects mediated by monomers and oligomers on mechanisms involved in AD pathogenesis such as autophagy and tau aggregation. Data reported in this review demonstrate that Aß monomers could have a major role in sustaining the pathogenesis of AD and that AD therapy should be focused not only in the removal of oligomers but also of monomers.

The Decrease of Uch-L1 Activity Is a Common Mechanism Responsible for Aß 42 Accumulation in Alzheimer's and Vascular Disease.

Alzheimer's disease (AD) is a multifactorial pathology causing common brain spectrum disorders in affected patients. These mixed neurological disorders not only include structural AD brain changes but also cerebrovascular lesions. The main aim of the present issue is to find the factors shared by the two pathologies. The decrease of ubiquitin C-terminal hydrolase L1 (Uch-L1), a major neuronal enzyme involved in the elimination of misfolded proteins, was observed in ischemic injury as well as in AD, but its role in the pathogenesis of AD is far to be clear. In this study we demonstrated that Uch-L1 inhibition induces BACE1 up-regulation and increases neuronal and apoptotic cell death in control as well as in transgenic AD mouse model subjected to Bengal Rose, a light-sensitive dye inducing that induces a cortical infarction through photo-activation. Under the same conditions we also found a significant activation of NF-κB. Thus, the restoration of Uch-L1 was able to completely prevent both the increase in BACE1 protein levels and the amount of cell death. Our data suggest that the Uch-L1-mediated BACE1 up-regulation could be an important mechanism responsible for Aß peptides accumulation in vascular injury and indicate that the modulation of the activity of this enzyme could provide new therapeutic strategies in AD.

Dual Mechanism of Toxicity for Extracellular Injection of Tau Oligomers versus Monomers in Human Tau Mice.

The mechanism of tau toxicity is still unclear. Here we report that recombinant tau oligomers and monomers, intraventricularly injected in mice with a pure human tau background, foster tau pathology through different mechanisms. Oligomeric forms of tau alter the conformation of tau in a paired helical filament-like manner. This effect occurs without tau hyperphosphorylation as well as activation of specific kinases, suggesting that oligomers of tau induce tau assembly through a nucleation effect. Monomers, in turn, induce neurodegeneration through a calpain-mediated tau cleavage that leads to accumulation of a 17 kDa neurotoxic peptide and induction of apoptotic cell death.

Beta-amyloid 1-42 monomers, but not oligomers, produce PHF-like conformation of Tau protein.

The mechanistic relationship between amyloid ß1-42 (Aß1-42) and the alteration of Tau protein are debated. We investigated the effect of Aß1-42 monomers and oligomers on Tau, using mice expressing wild-type human Tau that do not spontaneously develop Tau pathology. After intraventricular injection of Aß1-42, mice were sacrificed after 3 h or 4 days. The short-lasting treatment with Aß monomers, but not oligomers, showed a conformational PHF-like change of Tau, together with hyperphosphorylation. The same treatment induced increase in concentration of GSK3 and MAP kinases. The inhibition of the kinases rescued the Tau changes. Aß monomers increased the levels of total Tau, through the inhibition of proteasomal degradation. Aß oligomers reproduced all the aforementioned alterations only after 4 days of treatment. It is known that Aß1-42 monomers foster synaptic activity. Our results suggest that Aß monomers physiologically favor Tau activity and dendritic sprouting, whereas their excess causes Tau pathology. Moreover, our study indicates that anti-Aß therapies should be targeted to Aß1-42 monomers too.

Relationship between balance and cognitive performance in older people.

We investigated the relationship between balance and cognitive level in a group of 70 women with no definite Alzheimer's disease or mild cognitive impairment diagnosis and no impairment of daily activity. Static stabilometry and the Montreal Cognitive Assessment (MoCA) test were performed. The antero-posterior sway component was demonstrated to be the best predictor of the MoCA overall score. As visual and proprioceptive components of balance could safely be excluded in our assessments, the vestibular system is to be considered as a putative link between balance and cognitive impairment.

Amnestic mild cognitive impairment and conversion to Alzheimer's disease: insulin resistance and glycoxidation as early biomarker clusters.

Autopsy studies have indicated brain accumulation of amyloid-ß peptides as a common pathogenetic hallmark of amnestic cognitive impairment (aMCI) and overt Alzheimer's disease (AD). The pathogenesis of AD is still debated but recent reports have even designated AD as type III diabetes. This study aims to assess plasma levels of malondialdehyde, pentosidine, and insulin resistance in a group of aMCI patients, AD subjects, and age- and gender-matched controls, to confirm, beyond the accumulation of amyloid-ß, the presence of a metabolic disorder, as a causative/contributive factor for AD. Patients were recruited and diagnosed as aMCI (n = 180), AD (n = 84), and age- and gender-matched controls (n = 62) at three different Italian memory clinics. Plasma insulin and glucose, plasma pentosidine and malondialdehyde (MDA), HOMA-IR and QUICKI score for insulin sensitivities indexes were collected at the basal visit. Plasma MDA levels were higher in the aMCI group who converted to AD compared to controls, stable aMCI subjects, and AD subjects (p < 0.01) respectively, while plasma pentosidine was higher compared to controls. The aMCI group showed a significant correlation between HOMA-IR, QUICKI, insulin, and MDA (p < 0.02). aMCI might be considered the early biochemical active disease stage where glycoxidation, hyperinsulinemia, and pro-amyloidogenic status are at the highest rate while overt AD might indicate the glycoxidative cascade dwindling, ending a process possibly started two decades earlier.

Aß1-42 monomers or oligomers have different effects on autophagy and apoptosis.

The role of autophagy and its relationship with apoptosis in Alzheimer disease (AD) pathogenesis is poorly understood. Disruption of autophagy leads to buildup of incompletely digested substrates, amyloid-ß (Aß) peptide accumulation in vacuoles and cell death. Aß, in turn, has been found to affect autophagy. Thus, Aß might be part of a loop in which it is both the substrate of altered autophagy and its cause. Given the relevance of different soluble forms of Aß1-42 in AD, we have investigated whether monomers and oligomers of the peptide have a differential role in causing altered autophagy and cell death. Using differentiated SK-N-BE neuroblastoma cells, we found that monomers hamper the formation of the autophagic BCL2-BECN1/Beclin 1 complex and activate the MAPK8/JNK1-MAPK9/JNK2 pathway phosphorylating BCL2. Monomers also inhibit apoptosis and allow autophagy with intracellular accumulation of autophagosomes and elevation of levels of BECN1 and LC3-II, resulting in an inhibition of substrate degradation due to an inhibitory action on lysosomal activity. Oligomers, in turn, favor the formation of the BCL2-BECN1 complex favoring apoptosis. In addition, they cause a less profound increase in BECN1 and LC3-II levels than monomers without affecting the autophagic flux. Thus, data presented in this work show a link for autophagy and apoptosis with monomers and oligomers, respectively. These studies are likely to help the design of novel disease modifying therapies.

Monomeric Aß1-42 and RAGE: key players in neuronal differentiation.

The aggregation of amyloid-ß (Aß) peptides plays a crucial role in the onset and progression of Alzheimer's disease. Monomeric form of Aß, indeed, could exert a physiological role. Considering the anti-oligomerization property of all-trans retinoic acid (ATRA), the involvement of monomeric Aß1-42 in ATRA-induced neuronal differentiation has been investigated. Four-day ATRA treatment increases ß-secretase 1 (BACE1) level, Aß1-42 production, and receptor for advanced glycation end-products (RAGE) expression. RAGE is a well-recognized receptor for Aß, and the block of both RAGE and Aß1-42 with specific antibodies strongly impairs neurite formation in ATRA-treated cells. The involvement of Aß1-42 and RAGE in ATRA-induced morphologic changes has been confirmed treating undifferentiated cells with different molecular assemblies of peptide: 1 µM monomeric, but not oligomeric, Aß1-42 increases RAGE expression and favors neurite elongation. The block of RAGE completely prevents this effect. Furthermore, our data underline the involvement of the RAGE-dependent adhesion molecule amphoterin-induced gene and open reading frame-1 as downstream effector of both ATRA and Aß1-42. In conclusion, our findings identify a novel physiological role for monomeric Aß1-42 and RAGE in neuronal differentiation.

Survival rate in patients affected by dementia followed by memory clinics (UVA) in Italy.

People affected by dementia experienced decreased life expectancy with a 2-4 times higher risk of death at a given age compared to non-demented people. Dementia represents a major cost to health care and society in the Western world and, particularly in Italy, is projected to become a high-resource demanding chronic disease. The present study aimed to estimate the average survival rate of a group of community dwelling elderly affected by dementia in Italy, and to assess the predictive variables associated with survival length. This retrospective study collected the data of patients (n = 290) who died from 2008 to 2012. The data were extracted from a cohort of over 2,000 patients from three outpatient Dementia Clinics of Genoa (Italy). Demographic data and other clinical parameters listed in the patients' clinical records were collected. The mean survival rate after dementia diagnosis was 3.3 ± 0.1 years, lower compared to the age-matched healthy population. The survival rate of these patients showed a significant correlation with age (n = 290; r = -0.16: p < 0.006), with the cognitive status (n = 285; r = 0.16: p < 0.007), with education (n = 204; r = 0.23: p < 0.001), with comorbidity (n = 138; r = -0.41: p < 0.0001), with depressive mood (n = 74; r = 0.44: p < 0.0001), and with the functional status (ADL: n = 242, r = 0.29: p < 0.0001; IADL: n = 243; r = 0.25: p < 0.0001). Multivariate regression revealed age, gender, and functional status as the main determinants informing patient survival. The study provides interesting and reliable data on the pivotal value of early dementia diagnosis in predicting longer survival and addresses comprehensive geriatric assessment, which encompasses most of the predictive variables provided by the study, as a remarkable tool in estimating life expectancy of patients with dementia.

Adjunctive agomelatine therapy in the treatment of acute bipolar II depression: a preliminary open label study.

PURPOSE: The circadian rhythm hypothesis of bipolar disorder (BD) suggests a role for melatonin in regulating mood, thus extending the interest toward the melatonergic antidepressant agomelatine as well as type I (acute) or II cases of bipolar depression. PATIENTS AND METHODS: Twenty-eight depressed BD-II patients received open label agomelatine (25 mg/bedtime) for 6 consecutive weeks as an adjunct to treatment with lithium or valproate, followed by an optional treatment extension of 30 weeks. Measures included the Hamilton depression scale, Pittsburgh Sleep Quality Index, the Clinical Global Impression Scale-Bipolar Version, Young Mania Rating Scale, and body mass index. RESULTS: Intent to treat analysis results demonstrated that 18 of the 28 subjects (64%) showed medication response after 6 weeks (primary study endpoint), while 24 of the 28 subjects (86%) responded by 36 weeks. When examining primary mood stabilizer treatment, 12 of the 17 (70.6%) valproate and six of the 11 (54.5%) lithium patients responded by the first endpoint. At 36 weeks, 14 valproate treated (82.4%) and 10 lithium treated (90.9%) subjects responded. At 36 weeks, there was a slight yet statistically significant (P = 0.001) reduction in body mass index and Pittsburgh Sleep Quality Index scores compared to respective baseline values, regardless of mood stabilizer/outcome. Treatment related drop-out cases included four patients (14.28%) at week 6 two valproate-treated subjects with pseudo-vertigo and drug-induced hypomania, respectively, and two lithium-treated subjects with insomnia and mania, respectively. Week 36 drop outs were two hypomanic cases, one per group. CONCLUSION: Agomelatine 25 mg/day was an effective and well-tolerated adjunct to valproate/lithium for acute depression in BD-II, suggesting the need for confirmation by future double blind, controlled clinical trials.

ß-amyloid 1-42 induces physiological transcriptional regulation of BACE1.

The pathogenesis of Alzheimer's disease (AD) is only partially understood. ß-amyloid (Aß) is physiologically generated by sequential cleavage of its precursor protein by the ß- and the γ-secretase and it is normally disposed of. In Alzheimer's disease, Aß is excessively produced or less dismissed, but the hypothesis on its physiological and pathological role are heterogeneous and often discordant. It has been described a positive feedback loop from the γ- to the ß-secretase cleavages of Aß precursor protein, which is activated by mutations of Presenilin 1 (PS1), the catalytic core of the γ-secretase. These findings show that Aß precursor protein as well the activity of the γ-secretase are required to obtain the up-regulation of ß-secretase which is induced by Presenilin 1 mutations. Then, Aß 1-42 is the Aß precursor protein derivative that up-regulates the expression of ß-secretase, and c-jun N-terminal kinase (JNK)/c-Jun and ERK1/2 are involved. Here, we describe the activation of ß-secretase and c-jun N-terminal kinase related proteins by monomeric Aß 1-42, defining the conditions that most efficiently strike the described signaling without producing toxicity. Taken together these data imply that monomeric Aß 1-42, at non-toxic concentrations and time frames, are able to induce a signaling pathway that leads to transcriptional activation of ß-secretase.

Aß1-42-mediated down-regulation of Uch-L1 is dependent on NF-κB activation and impaired BACE1 lysosomal degradation.

Amyloid-ß 1-42 accumulation is the major pathogenetic event in Alzheimer's disease (AD), believed to be responsible for synaptic dysfunction and neuronal cell death. However, the physiologic activity of Aß peptides remains elusive: Aß might not only play a toxic role, but also act as a functional signaling intermediate. We recently reported that Aß1-42 promotes BACE1 transcription through the activation of the JNK-c-jun pathway. Here, we show that the Aß1-42-mediated increase in BACE1 expression is accompanied by a decrease in ubiquitin C-terminal hydrolase L1 (Uch-L1) expression and activity in different cellular models such as neuroblastoma SH-SY5Y as well as NT(2) neuronal cells. We also found that the increase in BACE1 and the decrease in Uch-L1 are related events and depend on NF-κB pathway; thus, Aß1-42 is able to activate NF-κB pathway and the pretreatment with a pharmacological inhibitor, able to block the nuclear translocation of the transactivating unit p65, almost completely prevents both the decrease in Uch-L1 and the increase in BACE1 expression. In addition, the decrease in Uch-L1 activity interferes with the lysosomal degradation of BACE1, as demonstrated by the decrease in Cathepsin D activity and the partial accumulation of BACE1 in lysosomes after Aß1-42 treatment as well after Uch-L1 inhibition. In support of the in vitro data, we observed low protein levels of Uch-L1 associated with high protein levels of BACE1 in sporadic AD brains. Our data suggest that Uch-L1 could be an attractive target for the development of new therapeutic approaches for AD.