Chronic glial activation, neurodegeneration, and APP immunoreactive deposits following acute administration of double-stranded RNA.

Several neurodegenerative disorders, including Alzheimer's and Parkinson's diseases, are associated with immunocompetent microglia, leading to the suggestion that chronic glial-mediated inflammation contributes to the neurodegeneration seen in these diseases. Little direct evidence supports this hypothesis, and no suitable rodent models exist that do not involve the use of blunt trauma or ischaemia, events that are infrequently encountered in the human disease state. In the present study, we report that administration of double-stranded RNA, a classical inducer of interferon-gamma (IFN-gamma), causes rapid and persistent activation of microglia and astrocytes, as well as induction of interleukin-1beta (IL-beta) and nitric oxide synthase. In close temporal succession to glial activation, there is neurodegeneration, with neuron loss involving apoptosis in selected brain regions including the septal nucleus, hippocampus, cortex and thalamus, along with hippocampal atrophy. This neuronal loss is accompanied by punctate deposits of material that are immunoreactive for amyloid precursor protein, beta-amyloid peptide (Abeta), and apolipoprotein E. The findings may have clinical relevance, since the administration of the nonsteroidal antiinflammatory agent (NSAID) ibuprofen markedly reduces the neurodegeneration observed in the absence of significant glial inhibition. These findings may be relevant to the pathogenesis of Alzheimer's disease in particular, and to other neurodegenerative diseases involving inflammation.

Regulation of attention and response to therapy in dementia by butyrylcholinesterase.

OBJECTIVES: To determine the response of patients with different butyrylcholinesterase genotypes to therapy, and the influence of butyrylcholinesterase on cognition. Acetylcholine plays a key role in attention and memory and reduced cortical acetylcholine is associated with the severity of dementia. Inhibitors of the enzyme acetylcholinesterase are an effective dementia treatment, though the role of the related enzyme butyrylcholinesterase is less well understood. METHODS: We examined the response of a cohort of dementia patients enrolled in a trial of a cholinesterase inhibitor who had been genotyped at the butyrylcholinesterase locus. Additionally a prospectively assessed cohort of dementia patients was genotyped and rate of cognitive decline examined, along with baseline cognitive performance in a group of elderly non-demented individuals. We identified that the presence of reduced-activity butyrylcholinesterase variants correlates with preserved attentional performance and reduced rate of cognitive decline. During cholinesterase inhibitor therapy, patients with normal butyrylcholinesterase show improved attention, though patients carrying reduced-activity enzyme do not, possibly due to being at ceiling performance. Butyrylcholinesterase did not however affect attentional performance in non-demented individuals with mild cognitive impairment. CONCLUSIONS: These findings indicate that the butyrylcholinesterase enzyme is a major regulator of attention especially in cholinergic deficiency states through its ability to hydrolyse acetylcholine. Pharmacologic manipulation of this enzyme may be a viable strategy in dementia treatment and, with butyrylcholinesterase genotyping, may provide pharmacogenomic treatment of dementia.

Clinical and neuropathological correlates of apolipoprotein E genotype in dementia with Lewy bodies.

Dementia with Lewy bodies (DLB) represents the second commonest cause of dementia in the elderly following Alzheimer's disease (AD). Whilst the presence of Lewy bodies is essential, DLB shares with AD the presence of senile plaques (SP), but neurofibrillary tangles (NFT) are not a necessary feature. The apolipoprotein E (APO E) epsilon4 allele is the most consistently associated genetic risk factor for AD and has also been shown to associate with DLB. We have therefore analysed the APO E epsilon4 allele in a large series of DLB cases coming to autopsy to: (1) determine if the epsilon4 allele describes a similar risk in DLB development as in AD and (2) determine how APO E epsilon4 allele status correlates with clinical and neuropathological findings in DLB, and in AD, as an indication of the role of APO E in underlying disease biology. Both DLB and AD share an increased epsilon4 allele frequency, though in DLB the epsilon2 allele frequency is not reduced and there is a relative lack of epsilon4 homozygotes. In contrast to previous studies, no association of the epsilon4 allele with age at onset or duration of disease was found in either disorders. In DLB cases, overall a significantly shorter duration of illness was observed when compared with AD cases, though no significant effect of the epsilon4 allele on disease onset or duration was seen. The survival rate was reduced by the presence of the epsilon4 allele in DLB, as with AD. No effect on SP or NFT counts was seen with the epsilon4 allele, though DLB cases showed a lower SP burden in addition to the expected lower NFT counts. This study demonstrates that DLB shares the APO epsilon4 allele with AD as a common risk factor, but that there are differences in the way the epsilon4 allele affects the phenotypic expression of disease.

Transferrin gene polymorphism in Alzheimer's disease and dementia with Lewy bodies in humans.

Genetic studies in Alzheimer's disease (AD), have indicated that the apolipoprotein E locus (APO E) is a major susceptibility factor, but that it can only account for approximately 50% of AD cases. Several other studies have attempted to identify additional genetic loci associated with disease development, often based on a candidate gene approach. As several lines of evidence indicate that oxidative stress and free radical damage occur in AD, the transferrin gene (TF) has been suggested as a candidate locus for AD since it is the major transport protein for iron, which itself is a major factor in free radical generation. Previous studies have shown elevated TF C2 allele frequencies in AD, this being specifically associated with carriers of the APO E varepsilon4 allele. We have therefore determined the influence of the common polymorphisms in TF, C1 and C2, in dementia. The frequency of the C2 allele was not significantly associated with AD. Stratification of cases according to the APO E varepsilon4 allele showed a highly significant excess of the C2 allele in AD cases without the varepsilon4 allele, contrasting with previous studies. Given the contrasting findings between reports of altered TF C2 allele frequencies, the TF locus would not appear to be a strong risk factor for AD in this population.