Detection of amyloid beta aggregates in the brain of BALB/c mice after Chlamydia pneumoniae infection

Neuroinflammation, initiated by cerebral infection, is increasingly postulated as an aetiological factor in neurodegenerative diseases such as Alzheimer’s disease (AD). We investigated whether Chlamydia pneumoniae (Cpn) infection results in extracellular aggregation of amyloid beta (Aβ) in BALB/c mice. At 1 week post intranasal infection (p.i.), Cpn DNA was detected predominantly in the olfactory bulbs by PCR, whereas brains at 1 and 3 months p.i. were Cpn negative. At 1 and 3 months p.i., extracellular Aβ immunoreactivity was detected in the brain of Cpn-infected mice but also in the brain of mock-infected mice and mice that were neither Cpn infected nor mock infected. However, these extracellular Aβ aggregates showed morphological differences compared to extracellular Aβ aggregates detected in the brain of transgenic APP751SL/PS1M146L mice. These data do not unequivocally support the hypothesis that Cpn infection induces the formation of AD-like Aβ plaques in the brain of BALB/c mice, as suggested before. However, future studies are required to resolve these differences and to investigate whether Cpn is indeed an etiological factor in AD pathogenesis

Tau, prions and Aβ: the triad of neurodegeneration

This article highlights the features that connect prion diseases with other cerebral amyloidoses and how these relate to neurodegeneration, with focus on tau phosphorylation. It also discusses similarities between prion disease and Alzheimer’s disease: mechanisms of amyloid formation, neurotoxicity, pathways involved in triggering tau phosphorylation, links to cell cycle pathways and neuronal apoptosis. We review previous evidence of prion diseases triggering hyperphosphorylation of tau, and complement these findings with cases from our collection of genetic, sporadic and transmitted forms of prion diseases. This includes the novel finding that tau phosphorylation consistently occurs in sporadic CJD, in the absence of amyloid plaques

Phenotype-Genotype analysis of dystrophinopathy caused by duplication mutation in Dystrophin gene in an African patient

Background: The dystrophinopathies, duchenne muscular dystrophy (DMD) and Becker muscular dystrophy are common X-linked genetic myopathies resulting from mutations in the dystrophin gene. Duplication is an uncommon mechanism of mutation occurring in about 5% of DMD cases. The global prevalence of DMD is reported as 1/18,000 males. There is little clinical or epidemiological data on African patients.Objective: To present the genotype-phenotype analysis of dystrophinopathy with an exon 8 through 9 duplication mutation in a patient of African/Ghanaian descent and his asymptomatic mother.Methods: Investigations including a biopsy of the vastus lateralis muscle and genetic testing of the patient and his mother.Results: Genetic testing demonstrated a duplication of exons 8 through 9 of the dystrophin gene in both the patient and his mother. The muscle biopsy of the patient showed partial expression of the dystrophin protein. In the absence of a family history of dystrophinopathy, we hypothesize that this is a sporadic mutation occurring in the grand maternal lineage.Conclusion: This case extends the world wide epidemiology of this disease to include the African/Ghanaian population and confirms the vulnerability of the dystrophin gene to recurrent spontaneous mutations at the exon 8 and 9 site

Phenotype-Genotype analysis of dystrophinopathy caused by duplication mutation in duplication mutation in Dystrophin gene in an African patient

Background: The dystrophinopathies, duchenne muscular dystrophy (DMD) and Becker muscular dystrophy are common X-linked genetic myopathies resulting from mutations in the dystrophin gene. Duplication is an uncommon mechanism of mutation occurring in about 5% of DMD cases. The global prevalence of DMD is reported as 1/18,000 males. There is little clinical or epidemiological data on African patients. Objective: To present the genotype-phenotype analysis of dystrophinopathy with an exon 8 through 9 duplication mutation in a patient of African/Ghanaian descent and his asymptomatic mother. Methods: Investigations including a biopsy of the vastus lateralis muscle and genetic testing of the patient and his mother. Results: Genetic testing demonstrated a duplication of exons 8 through 9 of the dystrophin gene in both the patient and his mother. The muscle biopsy of the patient showed partial expression of the dystrophin protein. In the absence of a family history of dystrophinopathy, we hypothesize that this is a sporadic mutation occurring in the grand maternal lineage. Conclusion: This case extends the world wide epidemiology of this disease to include the African/Ghanaian population and confirms the vulnerability of the dystrophin gene to recurrent spontaneous mutations at the exon 8 and 9 site

The Number of Trait Loci in Late-Onset Alzheimer Disease

Although it is clear that apoE plays an important role in the genetics of late-onset Alzheimer disease (AD), evidence exists that additional genes may play a role in AD, and estimates of the total contribution of apoE to the variance in onset of AD vary widely. Unfortunately, little information is available on the number and contribution of additional genes. We estimated the number of additional quantitative-trait loci and their contribution to the variance in age at onset of AD, as well as the contribution of apoE and sex, in an oligogenic segregation analysis of 75 families (742 individuals) ascertained for members with late-onset AD. We found evidence that four additional loci make a contribution to the variance in age at onset of late-onset AD that is similar to or greater in magnitude than that made by apoE, with one locus making a contribution several times greater than that of apoE. Additionally, we confirmed previous findings of a dose effect for the apoE ɛ4 allele, a protective effect for the ɛ2 allele, evidence for allelic interactions at the apoE locus, and a small protective effect for males. Furthermore, although we estimate that the apoE genotype can make a difference of ⩽17 years in age at onset of AD, our estimate of the contribution of apoE (7%–9%) to total variation in onset of AD is somewhat smaller than that which has previously been reported. Our results suggest that several genes that have not yet been localized may play a larger role than does apoE in late-onset AD

APOE and Other Loci Affect Age-At-Onset in Alzheimer's Disease Families With PS2 Mutation

Several kindreds of Volga German (VG) ancestry have a single PS2 mutation that causes an autosomal dominant form of Alzheimer's disease (AD). These families show a wide range in age-at-onset, which suggests the existence of modifying factors other than the PS2 mutation. To examine evidence for a genetic basis of variation in onset age, we performed a Bayesian oligogenic segregation and linkage analysis on nine VG families confirmed to have at least one affected PS2 carrier. This analysis simultaneously estimated the effects of APOE and PS2 and the number and effects of additional loci affecting AD age-at-onset. In addition, a family effect accounted for shared environmental effects. This analysis approach has the advantage of full use of the complete pedigree structure, as well as use of information on unsampled individuals with phenotypic data. These analyses provide evidence that APOE plays a small, but significant, role in modifying the ageat-onset in these VG families. The effects estimated for the APOE e3 and e4 genotypes were consistent with those estimated in previous analysis of late-onset AD families, with evidence for a dose-dependent relationship between number of e4 alleles and age-at-onset. We estimated an $83$70, $2,$6.5, and $8.5%, respectively. These results provide evidence that APOE and other loci modify onset in AD caused by PS2 mutation