Aleksandra Maruszak

Sigma nonopioid intracellular receptor 1 mutations cause frontotemporal lobar degeneration-motor neuron disease.

Frontotemporal lobar degeneration (FTLD) is the most common cause of early‐onset dementia. Pathological ubiquitinated inclusion bodies observed in FTLD and motor neuron disease (MND) comprise trans‐activating response element (TAR) DNA binding protein (TDP‐43) and/or fused in sarcoma (FUS) protein. Our objective was to identify the causative gene in an FTLD‐MND pedigree with no mutations in known dementia genes.

Mitochondrial dysfunction and Alzheimer's disease

To date, one of the most discussed hypotheses for Alzheimers disease (AD) etiology implicates mitochondrial dysfunction and oxidative stress as one of the primary events in the course of AD. In this review we focus on the role of mitochondria and mitochondrial DNA (mtDNA) variation in AD and discuss the rationale for the involvement of mitochondrial abnormalities in AD pathology. We summarize the current data regarding the proteins involved in mitochondrial function and pathology observed in AD, and discuss the role of somatic mutations and mitochondrial haplogroups in AD development.

Mitochondrial haplogroup H and Alzheimer's disease--is there a connection?

We evaluated the involvement of the major Caucasian-specific mitochondrial haplogroups (H, I, J, K, T, U, V, W and X), haplogroup clusters (HV, UK, TJ, IWX) and two functional mtSNPs (4216, 4917) in the pathogenesis of Alzheimers disease (AD) in the Polish population. The frequency distribution of mtDNA haplogroups was non-randomly associated with APOE4 status (chi(2)=73.17, df=1, p<0.0001, OR=5.97, 95% CI 3.90-9.12), however, no haplogroup-specific neutralizing of the APOE4 allele influence was detected. Multivariate analysis suggested the opposite-APOE4 status could modulate the effect of mtDNA haplogroups. We found that HV cluster is significantly associated with the risk of AD, regardless of the APOE4 status (OR=1.59, 95% CI, 1.04-2.44, p=0.032). Contrary to the previous studies, we report no evidence for the involvement of haplogroup U, K, J or T in AD risk. We conclude that further analysis of subtypes of haplogroup H would be necessary to decipher the relation of HV cluster with AD.

Two novel presenilin 1 gene mutations connected with frontotemporal dementia-like clinical phenotype : Genetic and bioinformatic assessment

Mutations in the amyloid precursor protein (APP), presenilin 1 (PSEN1) and presenilin 2 (PSEN2) genes are associated with early-onset familial Alzheimers disease (EOAD). There are several reports describing mutations in PSEN1 in cases with frontotemporal dementia (FTD). We identified two novel mutations in the PSEN1 gene: L226F and L424H. The first mutation was detected in a patient with a clinical diagnosis of FTD and a post-mortem diagnosis of AD. The second mutation is connected with a clinical phenotype of variant AD with strong FTD signs. In silico modeling revealed that the mutations, as well as mutations used for comparison (F177L and L424R), change the local structure, stability and/or properties of the transmembrane regions of the presenilin 1 protein (PS1). In contrast, a silent non-synonymous substitution F175S is eclipsed by external residues and has no influence on PS1 interfacial surface. We suggest that in silico analysis of PS1 substitutions can be used to characterize novel PSEN1 mutations, to discriminate between silent polymorphisms and a potential disease-causing mutation. We also propose that PSEN1 mutations should be considered in FTD patients with no MAPT mutations.

Association study of cholesterol-related genes in Alzheimer’s disease

Alzheimer’s disease (AD) is a genetically complex disorder, and several genes related to cholesterol metabolism have been reported to contribute to AD risk. To identify further AD susceptibility genes, we have screened genes that map to chromosomal regions with high logarithm of the odds scores for AD in full genome scans and are related to cholesterol metabolism. In a European screening sample of 115 sporadic AD patients and 191 healthy control subjects, we analyzed single nucleotide polymorphisms in 28 cholesterol-related genes for association with AD. The genes HMGCS2, FDPS, RAFTLIN, ACAD8, NPC2, and ABCG1 were associated with AD at a significance level of P ≤ 0.05 in this sample. Replication trials in five independent European samples detected associations of variants within HMGCS2, FDPS, NPC2, or ABCG1 with AD in some samples (P = 0.05 to P = 0.005). We did not identify a marker that was significantly associated with AD in the pooled sample (n = 2864). Stratification of this sample revealed an APOE-dependent association of HMGCS2 with AD (P = 0.004). We conclude that genetic variants investigated in this study may be associated with a moderate modification of the risk for AD in some samples.

Why looking at the whole hippocampus is not enough-a critical role for anteroposterior axis, subfield and activation analyses to enhance predictive value of hippocampal changes for Alzheimer's disease diagnosis.

The hippocampus is one of the earliest affected brain regions in Alzheimer’s disease (AD) and its dysfunction is believed to underlie the core feature of the disease-memory impairment. Given that hippocampal volume is one of the best AD biomarkers, our review focuses on distinct subfields within the hippocampus, pinpointing regions that might enhance the predictive value of current diagnostic methods. Our review presents how changes in hippocampal volume, shape, symmetry and activation are reflected by cognitive impairment and how they are linked with neurogenesis alterations. Moreover, we revisit the functional differentiation along the anteroposterior longitudinal axis of the hippocampus and discuss its relevance for AD diagnosis. Finally, we indicate that apart from hippocampal subfield volumetry, the characteristic pattern of hippocampal hyperactivation associated with seizures and neurogenesis changes is another promising candidate for an early AD biomarker that could become also a target for early interventions.

Mitochondrial transcription factor A variants and the risk of Parkinson's disease.

The mitochondrial transcription factor A (TFAM) has been recently shown to decrease reactive oxygen species (ROS) generation. It is also known that mitochondrial DNA (mtDNA) haplogroups might confer different coupling properties, resulting in different ROS levels. We hypothesized that potentially functional TFAM variants could influence PD risk depending on haplogroup background. To test this we assessed the role of six TFAM variants on PD risk in 326 PD patients and 316 controls, and correlated it with mtDNA haplogroup clusters (HV, JTKU and a putative functionally different group U4U5a1KJ1cJ2, connected previously with partial uncoupling of oxidative phosphorylation). Both genotype and haplotype analysis showed that intronic variant rs2306604 modifies PD risk. Multivariate logistic regression analysis confirmed that rs2306604 G/G genotype is an independent risk factor for PD (OR 1.789, 95% CI 1.162-2.755, p=0.008). There was a borderline interaction between G/G genotype and HV haplogroup (p=0.075). Haplotype analysis showed that all three haplotypes containing rs2306604 allele A occurred at higher frequencies in controls, but only one of them reached statistical significance (chi(2) 4.523, p=0.0334). Conversely, four of five haplotypes containing allele G had higher frequencies in PD group, with no statistical significance.

Hippocampal Neurogenesis in Alzheimer's Disease: Is There a Role for Dietary Modulation?

Alterations in hippocampal neurogenesis have been recognized as an integral part of Alzheimers disease. Adult hippocampal neurogenesis is regulated by intrinsic and extrinsic factors; one of them is diet. This review provides an assessment of the current state of the field in hippocampal neurogenesis studies in Alzheimers disease and focuses on the role of diet. The review highlights some of the key dietary compounds and interventions such as calorie restriction, fat, polyphenols, zinc, folate, alcohol and thiamine, and emphasizes the pathways that they modify.

Early-onset Alzheimer's disease with a de novo mutation in the presenilin 1 gene

A 32-year-old woman diagnosed with very rapidly progressing early-onset Alzheimers disease (EOAD), age of onset 29 years, and S170F mutation in presenilin 1 gene (PSEN1) is presented. Neuroimaging conducted 2 years after the first symptoms was typical for the advanced stage of Alzheimers disease (AD), showing cortical brain atrophy, particularly within hippocampus, frontal and temporal cortex. The unaffected parents of the proband are not carriers of the mutation. The paternity was confirmed by microsatellite typing, strongly suggesting de novo origin of S170F mutation. In silico modeling of S170F mutation impact on presenilin 1 (PS1) transmembrane structure indicates that the mutation considerably alters putative interactions of PS1 with other proteins within gamma-secretase complex.

TOMM40 rs10524523 Polymorphism's Role in Late-Onset Alzheimer's Disease and in Longevity

Recently, it has been reported that TOMM40 variable-length poly-T sequence polymorphism (rs10524523) in combination with APOE alleles (E2, E3, E4) significantly influences late-onset Alzheimers disease (LOAD) age of onset. In a group of 414 LOAD patients, 173 centenarians and 305 neurologically healthy individuals, we investigated the impact of TOMM40 poly-T tracts on LOAD incidence, age of onset, and longevity. TOMM40 allelic variants were classified into four categories: short (S; 14-16T), long a (La; 20-22T), long b (Lb; 26-30T), and very long (VL; 31-39T). Our results demonstrate that La and Lb share similar characteristics in affecting LOAD risk, thus for some analyses they were combined into L category. We observed significantly lower frequency of VL allele (p < 0.0001) and significantly higher frequency of L alleles in the LOAD patients compared to the control individuals (p < 0.0001). S/S, S/VL, and VL/VL genotypes and VL-E2, S-E3, VL-E3 haplotypes are significantly associated with lower LOAD risk. VL-E3 haplotype carriers significantly more frequently developed LOAD when they were ≥79 years old. Additionally, S/L genotype is associated with a significantly increased LOAD risk (p < 0.0001). We conclude that in the carriers of TOMM40-APOE haplotypes comprising E4 allele, the TOMM40 rs10524523 allele does not play substantial role in establishing LOAD risk. Nevertheless, TOMM40 L allele increases the risk when E4 is absent. Finally, L allele, as well as genotypes (S/L, V/L) and haplotypes (L-E3, L-E4) comprising L significantly reduce the likelihood of living up to 100 years.