Beta (A4)-amyloid protein and parkinsonian dementia complex of Guam

Dysfunction of Protein Quality Control in Parkinsonism-Dementia Complex of Guam

Guam parkinsonism–dementia complex (G-PDC) is an enigmatic neurodegenerative disease that is endemic to the Pacific island of Guam. G-PDC patients are clinically characterized by progressive cognitive impairment and parkinsonism. Neuropathologically, G-PDC is characterized by abundant neurofibrillary tangles, which are composed of hyperphosphorylated tau, marked deposition of 43-kDa TAR DNA-binding protein, and neuronal loss. Although both genetic and environmental factors have been implicated, the etiology and pathogenesis of G-PDC remain unknown. Recent neuropathological studies have provided new clues about the pathomechanisms involved in G-PDC. For example, deposition of abnormal components of the protein quality control system in brains of G-PDC patients indicates a role for proteostasis imbalance in the disease. This opens up promising avenues for new research on G-PDC and could have important implications for the study of other neurodegenerative disorders.

Enduring involvement of tau, beta-amyloid, alpha-synuclein, ubiquitin and TDP-43 pathology in the amyotrophic lateral sclerosis/parkinsonism-dementia complex of Guam (ALS/PDC)

Guam ALS/PDC is a severe tangle forming disorder endemic to Guam with features overlapping such neurodegenerative disorders as Alzheimer disease (AD), Parkinson disease (PD), progressive supranuclear palsy (PSP), ALS, corticobasal degeneration (CBD) and pallido-ponto-nigral degeneration (PPND). Since the prevalence is declining, we examined brain tissue from 35 clinically diagnosed Chamorro patients with ALS/PDC and two Chamorro controls autopsied between 1946 and 2006, to determine if distinct variations in the pathology could be identified up to this time. Although the age at autopsy increased by 4.5-5 years per decade, we identified no qualitative differences in pathological deposits with antibodies against tau, ubiquitin, A beta, alpha-synuclein and TDP-43, indicating that these more recently identified proteins have been involved in the neuropathogenesis over the past 6 decades. Tau and TDP-43 positive neuronal, oligodendroglial and astrocytic inclusions involving multiple nerve fiber tracts occurred in both the ALS and PDC types, reinforcing the concept that these forms are part of the same disorder. The results obtained may help to define the commonality of the Guam disease with other tangle forming disorders and may help in monitoring the epidemiological changes that are taking place.

Characterization of tau pathologies in gray and white matter of Guam parkinsonism-dementia complex

Guam parkinsonism-dementia complex (PDC) is a neurodegenerative tauopathy in ethnic Chamorro residents of the Mariana Islands that manifests clinically with parkinsonism as well as dementia and is characterized neuropathologically by prominent cortical neuron loss in association with extensive telencephalic neurofibrillary tau pathology. To further characterize cortical gray and white matter tau, alpha-synuclein and lipid peroxidation pathologies in Guam PDC, we examined the brains of 17 Chamorro PDC and control subjects using biochemical and immunohistological techniques. We observed insoluble tau pathology in both gray and white matter of PDC and Guam control cases, with frontal and temporal lobes being most severely affected. Using phosphorylation dependent anti-tau antibodies, abundant tau inclusions were detected by immunohistochemistry in both neuronal and glial cells of the neocortex, while less alpha-synuclein pathology was observed in more limited brain regions. Further, in sharp contrast to Alzheimer's disease (AD), levels of the lipid peroxidation product 8, 12-iso-iPF(2alpha)-VI isoprostane were not elevated in Guam PDC brains relative to controls. Thus, although the tau pathologies of Guam PDC share similarities with AD, the composite Guam PDC neuropathology profile of tau, alpha-synuclein and 8, 12-iso-iPF(2alpha)-VI isoprostane reported here more closely resembles that seen in other tauopathies including frontotemporal dementias (FTDs), which may imply that Guam PDC and FTD tauopathies share underlying mechanisms of neurodegeneration.

Hippocampal and entorhinal cortex neurofibrillary tangle formation in Guamanian Chamorros free of overt neurologic dysfunction

Since first described, amyotrophic lateral sclerosis/parkinsonism-dementia complex (ALS/PDC) of Guam has represented an important model of age-related neurodegenerative disease. ALS/PDC is characterized neuropathologically by severe widespread involvement by neurofibrillary tangles (NFTs). Over the past 30 years there has been a dramatic decrease in the incidence of ALS and a 10-year increase in the age of onset of ALS and PDC. In 1979, Anderson et al reported evidence of significant NFT involvement in Guam natives who had been free of evidence of neurologic dysfunction. Using the slides from this study, we re-examined the extent of hippocampus and entorhinal NFT involvement and compared it to brains recently obtained from neurologically intact Guam natives and age-matched controls from New York. The tendency towards hippocampal and entorhinal NFT formation continues to be encountered among the inhabitants of Guam, particularly among those over age 50. although severe involvement was less commonly noted in relatively young individuals (< 50 years). As noted by Anderson et al, the pattern of neuropathologic lesions seen in those with extensive NFT involvement suggests that such cases represent preclinical examples of ALS/PDC in individuals who have yet to accumulate a sufficient burden of pathology to attract clinical attention and diagnostic evaluation.

Tau and alpha-synuclein pathology in amygdala of Parkinsonism-dementia complex patients of Guam

Amyotrophic lateral sclerosis/parkinsonism-dementia complex (ALS/PDC) is a progressive neurodegenerative disorder of Chamorro residents of Guam and the Mariana Islands, characterized by abundant neuron loss and tau neurofibrillary pathology similar to that observed in Alzheimer's disease (AD). A variety of neurodegenerative diseases with tau pathology including ALS/PDC also have alpha-synuclein positive pathology, primarily in the amygdala. We further characterized the tau and alpha-synuclein pathology in the amygdala of a large series of 30 Chamorros using immunohistochemical and biochemical techniques. Tau pathology was readily detected in both affected and unaffected Chamorros. In contrast, alpha-synuclein pathology was detected in 37% of patients with PDC but not detected in Chamorros without PDC or AD. The alpha-synuclein aggregates often co-localized within neurons harboring neurofibrillary tangles suggesting a possible interaction between the two proteins. Tau and alpha-synuclein pathology within the amygdala is biochemically similar to that observed in AD and synucleinopathies, respectively. Thus, the amygdala may be selectively vulnerable to developing both tau and alpha-synuclein pathology or tau pathology may predispose it to synuclein aggregation. Furthermore, in PDC, tau and alpha-synuclein pathology occurs independent of beta-amyloid deposition in amygdala thereby implicating the aggregation of these molecules in the severe neurodegeneration frequently observed in this location.

Relationship of amyloid beta/A4 protein to the neurofibrillary tangles in Guamanian parkinsonism-dementia

The Chamorro population of the island of Guam is highly susceptible to a disease called lytico-bodig (LB), which clinically resembles a mixture of amyotrophic lateral sclerosis (ALS), Parkinson's disease (PD) and Alzheimer disease (AD). The disease is characterized by the widespread development of neurofibrillary tangles in the central nervous system. These tangles have an immunohistochemical profile indistinguishable from that seen in AD. We studied by immunohistochemistry the occurrence of intracellular and extracellular neurofibrillary tangles in LB in the entorhinal cortex, hippocampus and substantia nigra using antibodies to tau protein and ubiquitin. We also studied the relationship of these tangles to amyloid precursor protein (APP) and its beta-amyloid fragment (BAP), using multiple antibodies to BAP and other APP sequences. In advanced cases of LB, the development of neurofibrillary tangles was far more severe than in advanced cases of AD. Virtually all neurons of CA-1 and the subiculum were lost and only ghost tangles remained. In areas dominated by such extracellular tangles, BAP deposits were frequently observed developing around the fibers of ghost tangles. In some cases, the deposits covered only a few of the fibers, but in others, they seemed to envelope the complete tangle. The deposits were thioflavin S and Congo red positive, indicating that the BAP was in a consolidated form. We describe these entities as "tangle-associated amyloid deposits". Such BAP deposits have previously been described in some cases of AD, dementia pugilistica and LB. However, we found them in all cases of LB with dementia in the hippocampal-entorhinal areas and in most cases in the substantia nigra. They do not evolve from diffuse BAP deposits since they are remote from them, and they do not trap dystrophic neurites. The fact that extracellular tangle material can act as a nidus for BAP build-up in LB suggests that further consideration needs to be given to the ways in which extracellular BAP deposits are formed.

Amyotrophic lateral sclerosis/parkinsonism-dementia complex of Guam: quantitative neuropathology, immunohistochemical analysis of neuronal vulnerability, and comparison with related neurodegenerative disorders

Amyotrophic lateral sclerosis/parkinsonism-dementia complex (lytico-bodig) is a chronic neurodegenerative disorder with high prevalence among the native Chamorro population of Guam. Neuropathological, biochemical, and immunohistochemical analyses were performed on a relatively large series of Guamanian cases and compared to Alzheimer's disease cases. Thioflavin S and antibodies to amyloid beta A4 and tau proteins were used for analysis of pathological changes, and antibodies to the calcium-binding proteins parvalbumin and calretinin, and to a nonphosphorylated epitope on neurofilament protein to study select neuronal populations. A differential distribution of neurofibrillary tangles was observed in the neocortex of Guamanian cases compared to Alzheimer's disease cases, with much higher lesion counts in supragranular than in infragranular layers. Also, Guamanian cases with predominant parkinsonism had generally higher neurofibrillary tangle densities than cases with predominant amyotrophic lateral sclerosis. In addition, there was a certain degree of heterogeneity, qualitatively and quantitatively, in the biochemical distribution of tau proteins among Guamanian and Alzheimer's disease cases as revealed by Western blot analysis. Previous studies have suggested that the clinical symptomatology observed in patients suffering from Alzheimer's disease is related to the dramatic loss of specific corticocortically projecting neurons in the neocortex. Interestingly, a subset of neurofilament-rich pyramidal neurons known to be dramatically affected in Alzheimer's disease appears to be resistant in lytico-bodig. Finally, as in Alzheimer's disease, calcium-binding protein-containing interneurons are not affected. These data suggest that the set of projection neurons affected in Guamanian cases may not correspond to those involved in Alzheimer's disease, and that both disorders are characterized by specific patterns of neuronal vulnerability.

Neurofibrillary tangles of Guamanian amyotrophic lateral sclerosis, parkinsonism-dementia and neurologically normal Guamanians contain a 4- to 4.5-kilodalton protein which is immunoreactive to anti-amyloid beta/A4-protein antibodies

Neurofibrillary tangles (NFT), one of the neurodegenerative features of Alzheimer's disease, Down's syndrome and normal aging, is a constant, widespread neuropathological finding in Guamanian amyotrophic lateral sclerosis (ALS), parkinsonism-dementia (PD) and in neurologically normal Guamanians, dying of causes other than ALS and PD. NFT in brain tissue sections of patients with Guamanian ALS and PD were immunoreactive to antibodies directed against a 43-amino acid synthetic peptide homologous to amyloid beta/A4-protein (anti-SP43) associated with Alzheimer's disease. NFT extracted from frozen brain tissues of Guamanian patients with ALS and PD and from tissues of neurologically normal Guamanians were congophilic and birefringent. By negative-stain electron microscopy, NFT preparations contained bundles and/or isolated single, straight, unpaired filaments in Guamanian ALS and occasionally pairing of filaments in neurologically normal Guamanians, measuring 5-20 nm in diameter. Formic acid digestion of NFT preparations, followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and size-exclusion high-pressure liquid chromatography, showed a protein with an apparent molecular mass of 4- to 4.5-kDa, which by Western blot analysis was immunoreactive to anti-SP43. Immunoabsorption of purified NFT or SP43 with anti-SP43 abolished immunostaining. Our study corroborate previous data that amyloid beta/A4-protein is present in NFT in Guamanian PD. Furthermore, our data indicate that amyloid beta/A4-protein is present in NFT in brain tissues of patients with Guamanian ALS and in neurologically normal Guamanians, suggesting a common mechanism of amyloidogenesis with NFT formation in Alzheimer's disease and normal brain aging.

Sequencing of exons 16 and 17 of the beta-amyloid precursor protein gene reveals the beta-amyloid sequence to be normal in cases of the parkinson dementia complex of Guam

Exons 16 and 17 of the beta-amyloid precursor protein gene has been sequenced in individuals with the amyotropic lateral sclerosis/Parkinson's dementia complex of Guam to test the hypothesis that this disease is an allelic variant of Alzheimer's disease and to test whether sequence differences within beta-amyloid in this population contributes to the non-deposition of this peptide in the disorder. The sequence was normal.

Neurofibrillary tangle distribution in the cerebral cortex of parkinsonism-dementia cases from Guam: differences with Alzheimer's disease

Parkinsonism-dementia together with amyotrophic lateral sclerosis is a highly prevalent disorder among the native Chamorro population of Guam and is accompanied by severe widespread neurofibrillary tangle formation. In the present study we compared the regional and laminar distribution of neurofibrillary tangles in the cerebral cortex of 5 Guamanian parkinsonism-dementia cases to 9 Caucasian Alzheimer's disease cases. Although in both diseases the superior frontal and inferior temporal cortex were affected to a comparable degree, there was a striking difference in the laminar distribution of neurofibrillary tangles. Neurofibrillary tangles in Alzheimer's disease are known to be more numerous in layers V-VI than in layers II-III of frontal and temporal cortex, however in the Guam cases, the opposite distribution was observed with most of the tangles located within layer II and the superior part of layer III and relatively low tangle density in layers V-VI. Interestingly, in both conditions, the hippocampal pyramidal layer showed a comparable degree of degeneration. Moreover no amyloid deposits and neuritic plaques were observed in the Guam brains, whereas they were frequent in the Alzheimer's disease cases. Previous studies have suggested that the clinical symptomatology observed in patients suffering from Alzheimer's disease is related to the dramatic loss of specific corticocortically projecting neurons in the neocortex. The present data on Guam parkinsonism-dementia further support this hypothesis, although the set of corticocortical connections affected in Guam cases might differ from that observed in Alzheimer's disease, which may contribute to some extent to the different clinical symptoms of the dementia observed in Guamanian patients.

Neurofibrillary tangles and beta-amyloid deposits in Alzheimer's disease

Alzheimer's disease is characterized by the presence of abundant neurofibrillary tangles and beta-amyloid deposits in neocortex, hippocampus and amygdala. The major protein components of tangles and plaques have recently been identified. These findings, briefly reviewed here, will allow researchers to design investigations that will lead to an understanding of the pathogenesis of the disease and to the development of new therapeutic approaches that may result in an effective treatment.