Showing papers by "Heiko Braak published in 2002"

Phases of Aβ-deposition in the human brain and its relevance for the development of AD

Abstract: Background: The deposition of the amyloid β protein (Aβ) is a histopathologic hallmark of AD. The regions of the medial temporal lobe (MTL) are hierarchically involved in Aβ-deposition. Objective: To clarify whether there is a hierarchical involvement of the regions of the entire brain as well and whether there are differences in the expansion of Aβ-pathology between clinically proven AD cases and nondemented cases with AD-related pathology, the authors investigated 47 brains from demented and nondemented patients with AD-related pathology covering all phases of β-amyloidosis in the MTL (AβMTL phases) and four control brains without any AD-related pathology. Methods: Aβ deposits were detected by the use of the Campbell-Switzer silver technique and by immunohistochemistry in sections covering all brain regions and brainstem nuclei. It was analyzed how often distinct regions exhibited Aβ deposits. Results: In the first of five phases in the evolution of β-amyloidosis Aβ deposits are found exclusively in the neocortex. The second phase is characterized by the additional involvement of allocortical brain regions. In phase 3, diencephalic nuclei, the striatum, and the cholinergic nuclei of the basal forebrain exhibit Aβ deposits as well. Several brainstem nuclei become additionally involved in phase 4. Phase 5, finally, is characterized by cerebellar Aβ-deposition. The 17 clinically proven AD cases exhibit Aβ-phases 3, 4, or 5. The nine nondemented cases with AD-related Aβ pathology show Aβ-phases 1, 2, or 3. Conclusions: Aβ-deposition in the entire brain follows a distinct sequence in which the regions are hierarchically involved. Aβ-deposition, thereby, expands anterogradely into regions that receive neuronal projections from regions already exhibiting Aβ. There are also indications that clinically proven AD cases with full-blown β-amyloidosis may be preceded in early stages by nondemented cases exhibiting AD-related Aβ pathology.

Where does Parkinson disease pathology begin in the brain

Abstract: The substantia nigra is not the induction site in the brain of the neurodegenerative process underlying Parkinson disease (PD) Instead, the results of this semi-quantitative study of 30 autopsy cases with incidental Lewy body pathology indicate that PD in the brain commences with the formation of the very first immunoreactive Lewy neurites and Lewy bodies in non-catecholaminergic neurons of the dorsal glossopharyngeus-vagus complex, in projection neurons of the intermediate reticular zone, and in specific nerve cell types of the gain setting system (coeruleus-subcoeruleus complex, caudal raphe nuclei, gigantocellular reticular nucleus), olfactory bulb, olfactory tract, and/or anterior olfactory nucleus in the absence of nigral involvement The topographical parcellation of the nuclear grays described here is based upon known architectonic analyses of the human brainstem and takes into consideration the pigmentation properties of a few highly susceptible nerve cell types involved in PD In this sample and in all 58 age- and gender-matched controls, Lewy bodies and Lewy neurites do not occur in any of the known prosencephalic predilection sites (ie hippocampal formation, temporal mesocortex, proneocortical cingulate areas, amygdala, basal nucleus of Meynert, interstitial nucleus of the diagonal band of Broca, hypothalamic tuberomamillary nucleus)

Staging of the intracerebral inclusion body pathology associated with idiopathic Parkinson's disease (preclinical and clinical stages).

Abstract: The synucleinopathy known as idiopathic Parkinson's disease (IPD) is a multi-system disorder in the course of which only a few predisposed nerve cell types in specific regions of the human brain become progressively involved. The underlying neuropathological process (formation of proteinaceous intraneuronal inclusion bodies) intracerebrally begins in clearly defined induction sites and advances in a topographically predictable sequence. Components of the autonomic, limbic, and motor systems sustain especially heavy damage. During the presymptomatic stages 1 and 2, the IPD-related inclusion body pathology remains confined to the medulla oblongata and olfactory bulb. In stages 3 and 4, the substantia nigra and other nuclear grays of the midbrain and basal forebrain are the focus of initially subtle and, then, severe changes. The illness reaches its symptomatic phase. In end-stages 5 and 6, the pathological process encroaches upon the telencephalic cortex. IPD manifests itself in all of its dimensions, which under the influence of the supervening cortical pathology are subject to increasing complexity.

Two types of sporadic cerebral amyloid angiopathy.

Abstract: Cerebral amyloid angiopathy (CAA) is a type of beta-amyloidosis that occurs in leptomeningeal and cortical vessels of the elderly. In a sample of 41 CAA cases including 16 Alzheimer disease (AD) cases and 28 controls, we show that 2 types of sporadic CAA exist: The first type is characterized by immunohistochemically detectable amyloid beta-protein (Abeta) in cortical capillaries, leptomeningeal and cortical arteries, arterioles, veins, and venules. It is referred to here as CAA-Type 1. The second type of CAA also exhibits immunohistochemically detectable Abeta deposits in leptomeningeal and cortical vessels, with the exception of cortical capillaries. This type is termed CAA-Type 2. In cases with CAA-Type 1, the frequency of the apolipoprotein E (ApoE) epsilon4 allele is more than 4 times greater than in CAA-Type 2 cases and in controls. CAA-Type 2 cases have a higher epsilon2 allele frequency than CAA-Type 1 cases and controls. The ratio of CAA-Type 2 to CAA-Type 1 cases does not shift significantly with respect to the severity of AD-related beta-amyloidosis, with respect to degrees of CAA-severity, or with increasing age. Therefore, CAA-Type 1 is unlikely to be the late stage of CAA-Type 2; rather, they represent 2 different entities. Since both the ApoE epsilon2 and the epsilon4 allele are known to be risk factors for CAA, we can assign the risk factor ApoE epsilon4 to a distinct morphological type of CAA. The ApoE epsilon4 allele constitutes a risk factor for CAA-Type 1 and, as such, for neuropil-associated dyshoric vascular Abeta deposition in capillaries, whereas the e2 allele does not. CAA-Type 2 is not associated with the epsilon4 allele as a risk factor but shows a higher epsilon2 allele frequency than CAA-Type 1 cases and controls in our sample.

Biochemical Analysis of τ Proteins in Argyrophilic Grain Disease, Alzheimer's Disease, and Pick's Disease: A Comparative Study

Abstract: Although argyrophilic grain disease is characterized histopathologically by τ-positive lesions known as argyrophilic grains located predominantly in limbic brain regions in the absence of other diagnostic neuropathologies, the biochemical correlates of argyrophilic grains in gray and white matter have not been reported. Thus, we analyzed insoluble (pathological) τ proteins in five argyrophilic grain disease brains in comparison with those seen in Alzheimer's disease and Pick's disease. Analyses of separately dissected gray and white matter samples from various cortical regions revealed that pathological τ in argyrophilic grain disease was confined primarily to mediotemporal neocortical gray and adjacent white matter, and also to the allocortex, amygdala, and hippocampus. The amounts of sarcosyl-insoluble τ in all five cases were substantially lower than in Alzheimer's disease and Pick's disease, but the amounts of sarcosyl-insoluble τ in white matter were higher or comparable to that detected in gray matter from the same region, which distinguishes argyrophilic grain disease from Alzheimer's disease. The banding patterns of τ isoforms in argyrophilic grain disease varied: in three cases they were similar to Alzheimer's disease, but in two other cases, 4 microtubule binding repeat (4R) τ predominated, which distinguishes argyrophilic grain disease from classical Pick's disease. The differences between these three diseases were re-enforced by the predominance of straight τ filaments from argyrophilic grain disease brains. Thus, we conclude that argyrophilic grain disease is a distinct tauopathy characterized by prominent accumulation of argyrophilic grains in limbic brain regions in association with the characteristic τ biochemical and ultrastructural profile reported here.

Spinocerebellar ataxia type 3 (Machado–Joseph disease): severe destruction of the lateral reticular nucleus

Abstract: The lateral reticular nucleus (LRT) of the medulla oblongata is a precerebellar nucleus involved in proprioception and somatomotor automatisms. We investigated this nucleus in five individuals with clinically diagnosed and genetically confirmed spinocerebellar ataxia type 3 (SCA3, Machado-Joseph disease). Polyethylene glycol-embedded 100 micro m thick sections stained for lipofuscin granules and Nissl material as well as Nissl-stained paraffin-embedded sections revealed severe destruction of the LRT in all SCA3 brains examined. Some of the few surviving neurones contained ataxin-3-immunopositive intranuclear inclusion bodies, as noted in other affected brain regions in SCA3. Along with the severe neuronal depletion, obvious astrogliosis was seen in the LRT of all SCA3 patients. The findings suggest that the LRT is a consistent target of the pathological process underlying SCA3. In view of its afferent and efferent connections, destruction of the LRT probably contributes to gait ataxia in individuals suffering from SCA3.

Up-regulation of cell division cycle (cdc) 2 kinase in neurons with early stage Alzheimer's disease neurofibrillary degeneration.

Abstract: The major component of Alzheimer's disease (AD) neurofibrillary tangles (NFTs) is abnormally hyperphosphorylated tau aggregated as paired helical filaments (PHFs) Cell division cycle (cdc) 2 kinase is one of the main candidate kinases that phosphorylates normal tau in vitro at several sites seen in PHF-tau Using brains staged according to Braak and Braak criteria, we investigated the role of cdc2 in neurofibrillary changes in the hippocampal formation, and the entorhinal and temporal cortices Neurons with tangle-like inclusions positive for active cdc2 were found to appear first in the Pre-alpha layer of the entorhinal cortex, and then extend to other brain regions co-incident with the progressive sequence of neurofibrillary changes This predictable progressive pattern is not associated with amyloid The intraneuronal accumulation of active cdc2 appeared to precede the deposition of PHF-tau phosphorylated at Ser 202/Thr 205 sites These data are consistent with the notion that cdc2 might be involved in the abnormal hyperphosphorylation of tau and consequently aggregation of tau into PHF at an early stage and that increased cdc2 activity is not consequent to the deposition of beta-amyloid in AD brain

Progressive supranuclear palsy: neuronal and glial cytoskeletal pathology in the higher order processing autonomic nuclei of the lower brainstem.

Abstract: The medial and lateral parabrachial nuclei (MPB, LPB), the gigantocellular reticular nucleus (GI), the raphes magnus (RMG) and raphes obscurus nuclei (ROB), as well as the intermediate reticular zone (IRZ) represent pivotal subordinate brainstem centres, all of which control autonomic functions. In this study, we investigated the occurrence and severity of the neuronal and glial cytoskeletal pathology in these six brainstem nuclei from 17 individuals with clinically diagnosed and neuropathologically confirmed progressive supranuclear palsy (PSP). The association between the severity of the pathology and the duration of the disease was investigated by means of correlation analysis. The brainstem nuclei in all of the PSP cases were affected by the neuronal cytoskeletal pathology, with the IRZ and GI regularly showing severe involvement, the MPB, RMG, and ROB marked involvement, and the LPB mild involvement. In the six nuclear greys studied, glial cells undergo alterations of their cytoskeleton on an irregular basis, whereby diseased oligodendrocytes predominantly presented as coiled bodies and affected astrocytes as thorn-shaped astrocytes. In all six nuclei, the severity of the neuronal or glial cytoskeletal pathology showed no correlation with the duration of PSP. In view of their functional role, the neuronal pathology in the nuclei studied offers a possible explanation for the autonomic dysfunctions that eventually develop in the course of PSP.

Interstitial cells subjacent to the entorhinal region expressing somatostatin-28 immunoreactivity are susceptible to development of Alzheimer's disease-related cytoskeletal changes.

Abstract: Interstitial cells are isolated neurons located in the infracortical white matter that are known to express neuropeptides. Twenty-four cases selected for the absence, slight (Braak stages I-II), moderate (Braak stages III-IV), or serious degree (Braak stages V-VI) of cortical neurofibrillary pathology were studied for the presence of Alzheimer's disease-related abnormal tau in interstitial cells of the entorhinal region. AT8-immunoreactive white matter neurons were observed in all Braak stages of cortical neurofibrillary pathology. Both normal-appearing neurons and neurons with degenerative changes in the cellular processes were observed. Normal-appearing cells were predominantly found in stages I and II, whereas degenerative interstitial cells numerically increased from stage I onwards. The normal-appearing cells were medium-sized (10-25 micro m), with ovoid, fusiform, triangular or multipolar cell bodies, and showed an extensive dendritic field, which was oriented perpendicular to the direction of the perforant pathway. Since the morphology of the AT8-immunopositive normal-appearing cells was similar to that reported on somatostatinergic interstitial cells subjacent to the entorhinal region, double-labeling with AT8 and anti-somatostatin-28 (S309) was performed. All AT8-immunoreactive normal-appearing interstitial cells revealed co-staining with somatostatin-28 antiserum, whereas some of the AT8-immunopositive cells with degenerative processes reacted positively and others negatively with S309. In summary, a distinctive interstitial cell type characterized by extensive arborization oriented perpendicular to the course of the perforant pathway and showing somatostatin expression is susceptible to developing the Alzheimer's disease-related cytoskeletal changes. Progression in cytoskeleton change is accompanied by loss of somatostatin.

Genetic association of argyrophilic grain disease with polymorphisms in alpha‐2 macroglobulin and low‐density lipoprotein receptor‐related protein genes

Abstract: Argyrophilic grain disease (AGD) is a neurodegenerative disorder of the aged human brain associated with the formation of abnormal tau protein in specific neurones and macroglial cells. Previously, we reported the association between AGD and the epsilon2 allele of apolipoprotein E (ApoE). Here, the polymorphisms of the alpha-2 macroglobulin gene (A2M) and those of the low-density lipoprotein receptor-related protein gene (LRP) were assessed in 115 AGD cases and compared with 170 controls. The results reveal an association between AGD and the C766T polymorphism of LRP (P=0.001). In addition, the present study shows that the valine to isoleucine (Val1000Ile) polymorphism of A2M is linked with AGD (P=0.03). By comparison, no relationship between AGD and the intronic 5-bp deletion/insertion polymorphism of A2M is demonstrable (P=0.8). Finally, this report corroborates and extends our earlier finding in that the frequency of the epsilon2 allele of ApoE is higher in AGD cases than in controls (17.4% vs. 8.5%, P=0.003), whereas the epsilon4 allele frequency approximates that in control cases (13.9% vs. 13.2%, P=0.93). This association, however, is only apparent in the presence of the LRP CC genotype. In conclusion, the present study shows that AGD is associated with the LRP, A2M and ApoE genes.

Pallido-nigral spheroids in nonhuman primates: accumulation of heat shock proteins in astroglial processes

Abstract: Alpha-B crystallin, ubiquitin and heat shock protein 27 (hsp27) belong to a class of proteins that are overexpressed in response to pathological conditions associated with increased cellular stress. In the present study, brain sections of old rhesus monkeys ( Macaca mulatta; n=10; mean age, 29.4 years) and baboons ( Papio anubis; n=8; mean age, 18.3 years) were examined for ubiquitin, alpha-B crystallin and hsp27-immunopositive structures. In both species, immunoreactive spheroid-like bodies were found in the globus pallidus and in the substantia nigra, pars reticulata. These structures frequently were associated with abnormally swollen cellular processes. To further clarify the origin of the pallido-nigral spheroids, single- and double-immunostaining was performed for hsp27, alpha-B crystallin and the astroglial marker glial fibrillary acidic protein (GFAP) as well as for neuronal markers against neurofilament and dendritic microtubule-associated protein 2. Confocal microscopic analysis demonstrated that spheroids were localized in swollen astroglial processes, whereas they were not seen in neuronal structures. Thus, pallido-nigral spheroids can be classified as astroglial accumulations of heat shock proteins. Further investigations of these structures may provide information pertinent to our understanding of astroglial heat shock protein inclusions developing in degenerative human brain diseases.