Association between sex, systemic iron variation and probability of Parkinson's disease.

OBJECTIVE: Iron homeostasis appears altered in Parkinson's disease (PD). Recent genetic studies and meta-analyses have produced heterogeneous and inconclusive results. In order to verify the possible role of iron status in PD, we have screened some of the main metal gene variants, evaluated their effects on iron systemic status, and checked for possible interactions with PD. MATERIALS AND METHODS: In 92 PD patients and 112 healthy controls, we screened the D544E and R793H variants of the ceruloplasmin gene (CP), the P589S variant of the transferrin gene (TF), and the H63D and C282Y variants of the HFE gene, encoding for homologous proteins, respectively. Furthermore, we analyzed serum concentrations of iron, copper and their related proteins. RESULTS: The genetic investigation revealed no significant differences in allelic and genotype distributions between patients and controls. Two different multivariable forward stepwise logistic models showed that, when the effect of sex is considered, an increase of the probability of having PD is associated with low iron concentration and Tf-saturation. CONCLUSIONS: This study provides new evidence of the involvement of iron metabolism in PD pathogenesis and reveals a biological effect of sex.

Oxidative stress in blood in Alzheimer's disease and mild cognitive impairment: a meta-analysis.

Abnormal oxidative stress is an established feature of Alzheimer's disease, but clinical trials aiming to reduce oxidative stress have not yet proven an effective therapy for dementia patients. The purpose of this review is to systematically analyze available data describing markers of oxidative stress and antioxidants in blood from subjects with Alzheimer's disease or those with mild cognitive impairment to highlight potential interactions between peripheral redox changes and central nervous system pathology and contribute to the design of future clinical study. PubMed, SCOPUS and Web of Science were systematically queried to collect studies which have evaluated markers of oxidative stress, levels of antioxidants, copper, transferrin and ceruloplasmin levels in blood from subjects with Alzheimer's disease and matched controls. After application of quality measures, results were aggregated in a random effects analysis. We found that markers of lipid peroxidation are elevated in blood in Alzheimer's disease and in mild cognitive impairment, copper metabolism is dysregulated and total antioxidant capacity is decreased. While surprisingly none of the major antioxidative enzymes are significantly decreased, non-enzymatic antioxidants in blood (particularly uric acid, vitamins A, E and C, α- and ß-carotene) are significantly decreased. There is significant oxidative damage in peripheral blood early in the process of neurodegeneration. We propose that clinical studies assessing cognitive outcomes after antioxidant therapy tailor interventions to individual patients' deficiencies and confirm an improvement in an appropriate serological marker of oxidative stress. This strategy may be most effectively applied in a clinical trial of primary prevention.

Understanding the implications of the PAX9 gene in tooth development.

AIM: Tooth agenesis is characterised by the congenital absence of one or more teeth. The Pax9 gene has been associated with nonsyndromic forms. MATERIALS AND METHODS: To investigate the molecular mechanisms, we evaluated specific haplotypes frequency in exon 3 of the Pax9 gene in 26 patients and 21 controls, using an Italian population. RESULTS: Presence of His239His and the Ala240Pro were confirmed in exon 3 of the Pax9 gene. A frequency of 20.2€ of the T allele at position 717 and a C frequency of 33€ of Ala240Pro polymorphism, that reached 40.5€ in the control group, were observed. The 39 C/C-240 C/C or G/Chaplotype which we defined Pax9hapl a had a proportion of 61.9€ in control individuals. The frequency of Pax9hapl a tested in the patients was different from controls, being 81.3€ in normalcy and 18.8€ in oligodontia (p<0.05). CONCLUSION: Our observations suggest that Pax9hapl a may have a protective effect against sporadic oligodontia.

A case of a mild Wolfram Syndrome with concomitant ATP7B mutation.

BACKGROUND: Wolfram Syndrome 1 (WS1) has been characterized on the basis of mutation in the WFS1 gene encoding a calcium storage wolframin endoplasmatic reticulum transmembrane glycoprotein. PATIENTS AND METHODS: We observed a WS 10-years old female subject, with Type 1 diabetes-mellitus (DM), that had compound heterozygous WSF1 mutations but without other symptoms generally observed in WS subjects, such as optic atrophy or neurodegeneration. RESULTS: Decreased copper, ceruloplasmin, and transferrin levels, pointing to a copper deficiency, were associated with a new c.18703A>G mutation in the ATP7B gene, while lower calcium levels were associated with WSF1 mutations. An omega-3 fatty acids therapy was administrated to the subject in the attempt to ameliorate diabetes symptoms, restored copper deficiency, and normal calcium levels. CONCLUSIONS: This specific case report provides new insights into the potential interplay of ATP7B mutation in shaping a milder WS clinical picture.

Age dependence of primary motor cortex plasticity induced by paired associative stimulation.

OBJECTIVE: The increase of elderly population prompted growing research for the understanding of cerebral phenomena sustaining learning abilities, with inclusion of long-term potentiation (LTP)-like plasticity phenomena. Aim of the present study was to characterize LTP-like plasticity dependence on age and gender. METHODS: A LTP-like primary motor cortex plasticity inducing a potentiation of the motor evoked potential (MEP) to focal transcranial magnetic stimulation as a consequence of a paired associative stimulation (PAS) was induced in a 50 healthy subject cohort, equally distributed for gender and age groups (25 young subjects, mean age+/-SD=29.8+/-4.5 years; elderly 61.1+/-4.1 years). RESULTS: Resting motor thresholds' excitability level increased in the elderly group, the basal MEP did not depend on gender or age. The PAS-induced primary motor cortex (M1) plastic excitability modulation was similar in young females and males, while it decreased with age in females only. CONCLUSIONS: A reduction of the PAS-induced M1 plasticity in females after menopause was documented, possibly due to an impairment of intracortical excitatory network activity. SIGNIFICANCE: A LTP-like plasticity dependence on age was found in female only, suggesting caution in interpreting behavioural studies on learning abilities in dependence on age.

Homocysteine and electroencephalographic rhythms in Alzheimer disease: a multicentric study.

High plasma concentration of homocysteine is an independent risk factor for Alzheimer's disease (AD), due to microvascular impairment and consequent neural loss [Seshadri S, Beiser A, Selhub J, Jacques PF, Rosenberg IH, D'Agostino RB, Wilson PW, Wolf PA (2002) Plasma homocysteine as a risk factor for dementia and Alzheimer's disease. N Engl J Med 346(7):476-483]. Is high plasma homocysteine level related to slow electroencephalographic (EEG) rhythms in awake resting AD subjects, as a reflection of known relationships between cortical neural loss and these rhythms? To test this hypothesis, we enrolled 34 mild AD patients and 34 subjects with mild cognitive impairment (MCI). Enrolled people were then subdivided into four sub-groups of 17 persons: MCI and AD subjects with low homocysteine level (MCI- and AD-, homocysteine level <11 micromol/l); MCI and AD subjects with high homocysteine level (MCI+ and AD+, homocysteine level >or=11 micromol/l). Resting eyes-closed EEG data were recorded. EEG rhythms of interest were delta (2-4 Hz), theta (4-8 Hz), alpha 1 (8-10.5 Hz), alpha 2 (10.5-13 Hz), beta 1 (13-20 Hz), and beta 2 (20-30 Hz). EEG cortical sources were estimated by low-resolution brain electromagnetic tomography (LORETA). Results showed that delta (frontal and temporal), theta (central, frontal, parietal, occipital, and temporal), alpha 1 (parietal, occipital, and temporal), and alpha 2 (parietal and occipital) sources were stronger in magnitude in AD+ than AD- group. Instead, no difference was found between MCI- and MCI+ groups. In conclusion, high plasma homocysteine level is related to unselective increment of cortical delta, theta, and alpha rhythms in mild AD, thus unveiling possible relationships among that level, microvascular concomitants of advanced neurodegenerative processes, and synchronization mechanisms generating EEG rhythms.

What is the relationship among atherosclerosis markers, apolipoprotein E polymorphism and dementia?

Evidence suggests the important role of vascular factors both in vascular dementia (VaD) and Alzheimer disease (AD) pathogenesis. However, the relationship between apolipoprotein E (APOE) polymorphism and markers of atherosclerosis is still controversial. The aim of the study was to investigate the interplay between APOE polymorphisms and atherosclerosis in patients with AD and VaD. In this cross-sectional study, 101 demented (68 AD and 33 VaD) patients underwent APOE genotyping and neck vessel ultrasound to evaluate carotid artery disease [intima-media thickness (IMT) and plaques]. Patients with AD carrying epsilon4 allele presented increased IMT values with respect to non-epsilon4 carriers and VaD patients, whereas no relation was found between APOE polymorphisms and the presence or grade of carotid plaques both in AD and VaD patients. The epsilon4 APOE allele may promote intima-media thickening, interacting with other factors contributing to AD development.

Alteration of peripheral markers of copper homeostasis in Alzheimer's disease patients: implications in aetiology and therapy.

Alzheimer's disease represents a growing health problem because of the ongoing increase in life expectancy. Therefore understanding the molecular alterations responsible for neurodegeneration has become imperative in order to develop efficient strategies for the therapy. Mounting evidence suggests that the essential metal ion copper is intriguingly connected with the established molecular markers of Alzheimer's disease and that copper homeostasis is disturbed in affected individuals, leading to oxidative stress and neurodegeneration. This review summarizes the mechanisms of copper trafficking in cells and describes the relationship between copper, the amyloid precursor protein and beta-amyloid. Since one of the main goals of the research on Alzheimer's disease is the identification of blood markers to aid diagnosis and monitor the effects of therapeutic approaches, the results obtained in a series of studies on copper in the blood of Alzheimer's disease patients recently carried out in our laboratories are described.

[Metals and oxidative stress in Parkinson's disease from industrial areas with exposition to environmental toxins or metal pollution]. / Dismetabolismo dei metalli e stress ossidativo in pazienti con in Parkinson's disease di un'area industriale esposta ad inquinamento da metalli.

BACKGROUND: Parkinson's disease (PD) is characterized by a progressive degeneration of the nigrostriatal dopaminergic pathway resulting in movement disorders. PD is a complex disease, in which and environmental factors, as exposure to toxins or metals coul be involved. OBJECTIVE: To assess if serum metals (Cu, Fe, Zn), biological variables of their metabolism, total peroxides and antioxidants were abnormal in PD, in relation to environmental exposure. METHODS: We compared levels of serum copper, iron, zinc, ceruloplasmin and transferrin, peroxides, antioxidants (TRAP) in 65 PD patients coming from an Industrial zone highly exposed to metal pollution (Valcamonica) with measures from 28 PD patients from no metal pollution areas of the province of Brescia and 52 healthy controls coming from Valcamonica and 24 from the province of Brescia. RESULTS: PD patients had higher serum concentration of zinc than controls. Only in PD patients coming from Valcamonica levels of Cu were higher than in subjects coming from the province of Brescia. Moreover, In patients with PD levels of sieric Cu significantly correlated with score of the Unified Parkinson's Disease Rating Scale (UDPRS). CONCLUSIONS: Zinc seems to be higher in PD independently from the exposition to metal pollution. Perturbation of copper metabolism in PD seems to be related to exposition to environmental toxins or metal pollution and coul be involved in the progression of the disease itself.

Non-ceruloplasmin bound copper and ATP7B gene variants in Alzheimer's disease.

ATP7B, a protein mainly expressed in the hepatocytes, is a copper chaperone that loads the metal into the serum copper-protein ceruloplasmin during its synthesis and also escorts superfluous copper into the bile, by a sophisticated trafficking mechanism. Impaired function of this ATPase is associated with a well-known inborn error of copper metabolism, Wilson's disease (WD). Several mutations of ATP7B are known, involving different regions of the protein, thus resulting in a plethora of phenotypes in WD patients. It is a consolidated notion that copper dysmetabolism occurs in Alzheimer's disease (AD) as well. Besides the molecular mechanisms relating copper to the protein hallmarks of this disease and neurodegeneration, more recently the observation that a free-copper in the serum, not bound to ceruloplasmin (non-Cp-Cu), characterizes AD patients, prompted our research to identify possible genetic defects of the ATP7B gene in AD patients. Four specific single nucleotide polymorphisms and a WD rare mutation have a statistical association with AD. They contribute to characterize a copper subtype of AD. Additional facets of this AD phenotype, typified by higher levels of non-Cp-Cu, are presented and discussed in the framework of copper failure as an accelerator risk factor of neurological disorders with different aetiology.

Functional and structural balances of homologous sensorimotor regions in multiple sclerosis fatigue.

Fatigue in multiple sclerosis (MS) is a highly disabling symptom. Among the central mechanisms behind it, an involvement of sensorimotor networks is clearly evident from structural and functional studies. We aimed at assessing whether functional/structural balances of homologous sensorimotor regions-known to be crucial for sensorimotor networks effectiveness-decrease with MS fatigue increase. Functional connectivity measures at rest and during a simple motor task (weak handgrip of either the right or left hand) were derived from primary sensorimotor areas electroencephalographic recordings in 27 mildly disabled MS patients. Structural MRI-derived inter-hemispheric asymmetries included the cortical thickness of Rolandic regions and the volume of thalami. Fatigue symptoms increased together with the functional inter-hemispheric imbalance of sensorimotor homologous areas activities at rest and during movement, in absence of any appreciable parenchymal asymmetries. This finding supports the development of compensative interventions that may revert these neuronal activity imbalances to relieve fatigue in MS.

The rise in cytoplasmic ubiquitin levels is an early step in the response of parasympathetic ganglionic neurons to axonal injury followed by regeneration.

We investigated the involvement of ubiquitin in the neuronal response to axonal injury in the quail parasympathetic ciliary ganglion by immuno-light and electron microscopy. Image analysis of immunoreacted cryosections shows that ubiquitin-immunoreactivity in the ciliary neurons increases significantly 6 hours after postganglionic nerve crush. The immunolabeling reaches a peak 1 day after injury and begins to decrease between days 3 and 6 when, in contrast to the cytoplasm, numerous highly eccentric nuclei are strongly immunolabeled. Electron microscopy shows ubiquitin-immunoreactivity associated with cytoplasmic organelles and with several postsynaptic densities of the numerous synapses established by the preganglionic boutons on the soma of the ciliary neurons. The number of immunopositive postsynaptic densities increases significantly 1 day after axonal damage, followed by temporary detachment of the preganglionic boutons from the injured neurons between days 3 and 6. The early increase in cytoplasmic ubiquitin-immunoreactivity suggests a prompt ubiquitination of damaged proteins addressed to degradation, while the nuclear immunolabeling may reflect high histone ubiquitination, a process involved in keeping chromatin transcriptionally active. The possible ubiquitin-mediated removal of postsynaptic apparatus constituents such as ACh receptors, proteins involved in their clustering and stabilization, and/or adhesion molecules may be a crucial step for the detachment of the preganglionic boutons, thus favoring injury-induced synaptic plasticity.

Elevation of serum copper levels in Alzheimer's disease.

OBJECTIVE: To determine whether serum trace metals and oxidative species are related to abnormal cognition in AD. METHODS: The authors studied serum peroxides, copper, iron, transferrin, and antioxidant capacity in 79 patients with AD (mean age 74.3 years; 25 men, 54 women) and in 76 cognitively normal individuals (mean age 70.1 years; 33 men, 43 women). The relation of these oxidative and trace metals to APOE epsilon4 allele frequency, neuropsychological performance, and cerebrovascular or atrophic burden, as estimated by brain MRI and ultrasonography of cerebral vessels, was evaluated. RESULTS: Copper level was higher (p < 0.001) in subjects with AD than control subjects (specificity = 95%, sensitivity = 60%) with a cutoff serum level of 16 micro mol/L (1.02 mg/L). An increase of 1 micro mol/L in serum copper accounted for 80% of the risk of having AD and correlated with poor neuropsychological performance and medial temporal lobe atrophy (p < 0.03). Antioxidant capacity decreased and correlated with medial temporal lobe atrophy (p < 0.009) and with APOE epsilon4 allele (p = 0.004). CONCLUSIONS: Copper may play a role in neurodegenerative processes in AD, and serum copper measurement may prove to be a peripheral diagnostic marker for AD.

Effects of axotomy on the expression and ultrastructural localization of N-cadherin and neural cell adhesion molecule in the quail ciliary ganglion: an in vivo model of neuroplasticity.

Postganglionic nerve crush of the avian ciliary ganglion induces detachment of preganglionic terminals from the soma of the injured ciliary neurons, followed by reattachment at about the same time that the postganglionic axons regenerate to their targets. In order to determine the role played by cell adhesion molecules in this response, we have studied injury-induced changes in the amount and distribution of N-cadherin and neural cell adhesion molecule, together with modifications in the expression of their messenger RNAs. Both N-cadherin and neural cell adhesion molecule immunoreactivities associated with postsynaptic specializations decreased between one and three days following postganglionic nerve crush, preceding the detachment of the preganglionic boutons. Immunoreactivities subsequently increased between 13 and 20 days, in parallel with restoration of synaptic contacts on the ganglion cells and the progressive reinnervation of the peripheral targets. In contrast to the rapid decrease in immunoreactivity, the messenger RNA levels of N-cadherin and neural cell adhesion molecule both increased after crush, and remained elevated throughout the 20-day period of the experiment. These results are consistent with roles for N-cadherin and neural cell adhesion molecule in the maintenance of synaptic contacts. The rapid regulation of these proteins in injury-induced synaptic plasticity occurs at the post-transcriptional level, whereas longer term regulation associated with the re-establishment of synapses may be promoted by the increased levels of gene expression.

Activities of 3':5' cyclic nucleotide phosphodiesterases in the superior cervical ganglion of rat: characterization, compartmentalization and observations in young and old animals.

We investigated the presence and features of "low Km" 3'-5' cyclic nucleotide phosphodiesterase activity in the homogenates and extracts of rat superior cervical ganglion. The DEAE chromatographic elution profile of a Triton X-100 extract showed two peaks of cAMP phosphodiesterase activity eluted at 280 and 600 mM sodium acetate and two peaks of cGMP phosphodiesterase activity eluted at 300 and at 500 mM sodium acetate. The activity was poorly stimulated by calcium-calmodulin and neither stimulated or inhibited by cGMP. Both cGMP PDE peaks were inhibited by zaprinast, with IC50's of 1.4 microM and 0.28 microM: their Km values were 4.4 and 3.8 microM, respectively. These features, together with cGMP binding activity, indicate that both enzymes belong to the phosphodiesterase V family. The Km values of the first and second cAMP phosphodiesterase peaks were 1.7 and 3.8 microM. Although both peaks displayed a cAMP specific hydrolysis, only the second peak was inhibited by RO 20-1724, with an IC50 of 8 microM. Preganglionic denervation indicated that the bulk of phosphodiesterase activity is localized in ganglion cells. In order to investigate possible effects of aging on the ganglionic function, phosphodiesterase activity was assayed in the ganglia of young (3 months) and old (25 months) male Fisher rats. The chromatographic profiles and kinetic features revealed no significant differences between young and old rats.

Effects of hemochromatosis and transferrin gene mutations on peripheral iron dyshomeostasis in mild cognitive impairment and Alzheimer's and Parkinson's diseases.

Deregulation of iron metabolism has been observed in patients with neurodegenerative diseases. We have carried out a molecular analysis investigating the interaction between iron specific gene variants [transferrin (TF, P589S), hemochromatosis (HFE) C282Y and (H63D)], iron biochemical variables [iron, Tf, ceruloplasmin (Cp), Cp:Tf ratio and % of Tf saturation (% Tf-sat)] and apolipoprotein E (APOE) gene variants in 139 Alzheimer's disease (AD), 27 Mild Cognitive Impairment (MCI), 78 Parkinson's disease (PD) patients and 139 healthy controls to investigate mechanisms of iron regulation or toxicity. No difference in genetic variant distributions between patients and controls was found in our Italian sample, but the stratification for the APOEε4 allele revealed that among the APOEε4 carriers was higher the frequency of those carriers of at least a mutated TF P589S allele. Decreased Tf in both AD and MCI and increased Cp:Tf ratio in AD vs. controls were detected. A multinomial logistic regression model revealed that increased iron and Cp:Tf ratio and being man instead of woman increased the risk of having PD, that increased values of Cp:Tf ratio corresponded to a 4-fold increase of the relative risk of having MCI, while higher Cp levels were protective for PD and MCI. Our study has some limitations: the small size of the samples, one ethnic group considered, the rarity of some alleles which prevent the statistical power of some genetic analysis. Even though they need confirmation in larger cohorts, our data suggest the hypothesis that deregulation of iron metabolism, in addition to other factors, has some effect on the PD disease risk.

Sensorimotor Cortex Reorganization in Alzheimer's Disease and Metal Dysfunction: A MEG Study.

Objective. To verify whether systemic biometals dysfunctions affect neurotransmission in living Alzheimer's disease (AD) patients. Methods. We performed a case-control study using magnetoencephalography to detect sensorimotor fields of AD patients, at rest and during median nerve stimulation. We analyzed position and amount of neurons synchronously activated by the stimulation in both hemispheres to investigate the capability of the primary somatosensory cortex to reorganize its circuitry disrupted by the disease. We also assessed systemic levels of copper, ceruloplasmin, non-Cp copper (i.e., copper not bound to ceruloplasmin), peroxides, transferrin, and total antioxidant capacity. Results. Patients' sensorimotor generators appeared spatially shifted, despite no change of latency and strength, while spontaneous activity sources appeared unchanged. Neuronal reorganization was greater in moderately ill patients, while delta activity increased in severe patients. Non-Cp copper was the only biological variable appearing to be associated with patient sensorimotor transmission. Conclusions. Our data strengthen the notion that non-Cp copper, not copper in general, affects neuronal activity in AD. Significance. High plasticity in the disease early stages in regions controlling more commonly used body parts strengthens the notion that physical and cognitive activities are protective factors against progression of dementia.

Inflammation and iron metabolism in adult patients with epilepsy: does a link exist?

PURPOSE: Inflammation has been shown to play a key role in epilepsy, and may also affect both the iron status and metabolism. Consequently, a relationship between iron metabolism and neuronal excitability and seizures could be expected. METHODS: We aimed at characterizing in 37 adult patients affected by focal epilepsy during the interictal period serum inflammatory cytokines, such as interleukin 6 (IL-6), IL-6 soluble receptor (IL6-sR), interleukin 1 (IL-1), IL-1 receptor-antagonist (IL-1RA), tumor necrosis factor-α (TNF-α), and markers of iron status and metabolism: hemoglobin concentration (Hgb), mean corpuscular volume (MCV), hematocrit (Hct) red blood cell (RBC) count, serum iron and copper concentrations, ceruloplasmin (iCp), the ceruloplasmin enzymatic activity (eCp), the specific ceruloplasmin activity (eCp/iCp), total ferroxidase activity, transferrin (Tf), serum ferritin (SF), Tf saturation (Sat-Tf), and ratio of ceruloplasmin to transferrin (Cp/Tf). We investigated the correlations between these biological markers as well their relationship with patients' clinical features. A group of 43 healthy subjects had the same serologic measurements to serve as controls. RESULTS: Our findings showed in the group of patients with epilepsy an increase of IL-6 (p=0.026) and a decrease of TNF-α (p=0.002) with respect to healthy subjects. For the first time, we also detected significant changes in iron metabolism as an increase of Cp/Tf (p=0.011) and a decrease of Tf (p=0.031), possibly driven by cytokine modifications and consistent with inflammation as acute phase and antioxidant activity markers. Accordingly, TNF-α positively correlated with Tf (p=0.005). Finally, a significant positive correlation between seizures frequency and eCp (p=0.046) and inversely with Hgb (p=0.038) and Hct (p=0.041), and an inverse correlation between TNF-α and the duration of epilepsy (p=0.021) was detected. CONCLUSIONS: Our findings demonstrate a relevant relationship between epilepsy and systemic inflammation, with a consistent link between seizures, inflammatory cytokines (IL-6 and TNF-α) and iron regulation and metabolism, as acute phase and antioxidant markers.

Longitudinal prognostic value of serum "free" copper in patients with Alzheimer disease.

BACKGROUND: Serum copper not bound to ceruloplasmin ("free") appears slightly elevated in patients with Alzheimer disease (AD). We explored whether a deregulation of the free copper pool can predict AD clinical worsening. METHODS: We assessed levels of copper, iron, zinc, transferrin, ceruloplasmin, peroxides, total antioxidant capacity, free copper, and apolipoprotein E genotype in 81 patients with mild or moderate AD, mean age 74.4, SD = 7.4 years, clinically followed up after 1 year. The association among biologic variables under study and Mini-Mental State Examination (MMSE) (primary outcome), activities of daily living (ADL), and instrumental activities of daily living (IADL) (secondary outcomes) performed at study entry and after 1 year were analyzed by multiple regression. RESULTS: Free copper predicted the annual change in MMSE, adjusted for the baseline MMSE by means of a linear regression model: it raised the explained variance from 2.4% (with only sex, age, and education) to 8.5% (p = 0.026). When the annual change in MMSE was divided into < 3 or > or = 3 points, free copper was the only predictor of a more severe decline (predicted probability of MMSE worsening 23%: odds ratio = 1.23; 95% confidence interval = 1.03-1.47; p = 0.022). Hyperlipidemic patients with higher levels of free copper seemed more prone to worse cognitive impairment. Free copper at baseline correlated with the ADL and IADL clinical scales scores at 1 year. CONCLUSIONS: These results show an association between copper deregulation and unfavorable evolution of cognitive function in Alzheimer disease. Further research is needed to establish whether copper is an independent risk factor for cognitive decline.

'Free' copper in serum of Alzheimer's disease patients correlates with markers of liver function.

Non-ceruloplasmin bound copper ('free') seems slightly elevated in Alzheimer's disease (AD) patients. To test the hypothesis of a correlation between 'free' copper and liver function in AD. We evaluated 51 AD patients and 53 controls through typical tests for chronic liver disease (AST, ALT, gamma-GT, Albumin, prothrombin time - PT-, bilirubins), along with copper, ceruloplasmin, iron, cholesterol in the serum and apolipoprotein E epsilon4 (APOE4) genotype. Absolute serum copper and 'free' copper were higher, albumin was lower and PT longer in AD patients than in controls. 'Free' copper correlated negatively with markers of liver function, in that albumin and albumin/PT ratio (r = -0.43, p = 0.004), and positively with direct bilirubin. Copper and 'free' copper were higher in the APOE4 carriers. These results suggest that abnormalities in copper metabolism might have an effect on liver function in AD.