Alzheimer Disease: Lintner F

Attems J, Preusser M, Grosinger-Quass M, Wagner L, Lintner F, Jellinger K. · Institute of Pathology, Otto Wagner Hospital, Baumgartner Hoehe, Vienna, Austria. · Neuropathol Appl Neurobiol. · Pubmed #17961140 No free full text.

Abstract: The pathological findings in Alzheimer's disease (AD) are partly attributed to alterations in calcium-binding protein (CBP) functions. We showed previously that immunoreactivity of secretagogin, a recently cloned CBP, in the human hippocampus is restricted to pyramidal neurones and that the amount of immunoreactive neurones does not differ between AD cases and controls. In this study we investigate the influence of hippocampal tau pathology on secretagogin expression in more details. The study group consisted of 26 cases with different degrees of neuropathologically confirmed AD pathology. Sections were incubated separately with secretagogin- and tau-specific antibodies, respectively. The amount of immunoreactive neurones and integral optical densities were assessed. In addition, double immunofluorescence for both secretagogin and tau was performed. No difference with respect to secretagogin immunoreactivity was observed in different stages of AD pathology, and similarly no significant associations were seen between the amount of secretagogin and tau immunoreactivity in the different hippocampal subfields. Double immunofluorescence revealed that both proteins rarely colocalize because only 5.3% of tau and 2.9% of secretagogin immunoreactive neurones, respectively, showed colocalization. Because there are no differences in the amount of hippocampal secretagogin expression between AD cases and controls (as we have shown previously), the lack of an association between the amount of secretagogin expression and tau burden together with the low frequency of colocalization of tau and secretagogin in the human hippocampus, suggest that secretagogin-expressing neurones are largely resistant to neurodegeneration in AD.

Attems J, Quass M, Jellinger KA, Lintner F. · Institute of Pathology, Otto Wagner Hospital, Baumgartner Hohe 1, A-1145, Vienna, Austria. · J Neurol Sci. · Pubmed #17306303 No free full text.

Abstract: Cerebral amyloid angiopathy (CAA) is defined by beta-amyloid peptide (Abeta) depositions in cerebral vessels and is associated with Alzheimer disease (AD). It has been suggested that severe CAA is an independent risk factor for cognitive decline. 171 autopsy brains underwent standardized neuropathological assessment, the patients age ranged from 54 to 104 years (mean age: 83.9 years, +/-9.2, 59.6% female, 56.1% clinically demented). Using immunohistochemistry, the severity of Abeta depositions in vessels was assessed semiquantitatively in the frontal, frontobasal, hippocampal, and occipital region, respectively. CAA was present in 117 cases (68.4%), with the occipital region being affected significantly stronger than other regions. The overall incidence of CAA was significantly higher in cases with high grade neuritic AD pathology (ADP) compared to those with low grade or no ADP. The severity of CAA significantly increased with increasing ADP, with CAA in the occipital region increasing significantly stronger than that in other regions. The association of CAA and clinical dementia failed to remain statistically significant when adjusting for concomitant ADP. However, in cases devoid of any ADP CAA was significantly associated with the presence of clinical dementia. These results indicate a strong association of AD with CAA, but do not unequivocally support reports suggesting CAA to be an independent risk factor for cognitive decline, except for a subgroup of demented patients lacking any ADP.

Attems J, Quass M, Gartner W, Nabokikh A, Wagner L, Steurer S, Arbes S, Lintner F, Jellinger K. · Institute of Pathology, Otto Wagner Hospital, Baumgartner Hoehe 1A-1145, Vienna, Austria. · Exp Gerontol. · Pubmed #17116382 No free full text.

Abstract: Disturbed calcium homeostasis plays a crucial role in the aetiology of Alzheimer's disease (AD) and the aging process. We evaluated immunoreactivity of secretagogin, a recently cloned calcium binding protein, in hippocampus and adjacent entorhinal cortex of 30 neuropathologically examined post mortem brains (m:f=12:18; mean age, 79.8+/-15.1 years). The study group consisted of 15 cases fulfilling the criteria for high probability of AD according to the NIA-Reagan Institute Criteria and 15 cases with no to medium probability. Sections were incubated with secretagogin-specific antibodies and the number of immunoreactive neurons as well as staining intensities in both neurons and neuropil were assessed. Both cellular and neuropil immunoreactivity were restricted to subiculum and Ammons horn. Cellular immunoreactivity was further restricted to pyramidal neurons and showed a hierarchical distribution: the mean percentage of immunoreactive neurons was highest in sector CA3 (64.41%), followed by CA2 (44.09%), CA4 (34.38%), CA1 (10.9%), and the subiculum (2.92%; P<0.001, except CA2-CA4, P>0.05), while it did not differ significantly between groups with different degrees of AD pathology. The pattern of secretagogin immunoreactivity resembles that of calcium sensor proteins as it is restricted to a subset of neurons and therefore secretagogin could serve highly specialized tasks in neuronal calcium signalling.

Attems J, König C, Huber M, Lintner F, Jellinger KA. · Otto Wagner Hospital, Department of Pathology, Baumgartner Höhe 1, A-1145 Vienna, Austria. · J Alzheimers Dis. · Pubmed #16155350 No free full text.

Abstract: Few studies evaluated cause of death (COD) in elderly demented and non-demented people, the majority based on death certificates alone. The present study is based on autopsy reports with neuropathological examination of 308 inpatients (58.1% female) over age 60 years (mean: 83.5, SD: +/-8.6). CODs were classified into seven groups. The most common were bronchopneumonia (n=117; 38%) and cardiovascular disease (n=116, 37.7%). In 176 patients (57.1%) neuropathology was indicative for dementia: 76.7% Alzheimer disease (AD), 4.5% vascular dementia, 4.0% mixed type dementia (AD + vascular dementia), and 14.8% other dementias. Main COD significantly differed in demented and non-demented patients: bronchopneumonia (45.5% in demented versus 28.0% in non-demented), cardiovascular disease (46.2% in non-demented versus 31.3% in demented). Whereas there were significant differences in COD between AD patients and non-demented ones (bronchopneumonia versus cardiovascular disease), no differences were seen between the latter and patients with other types of dementia than AD. Our data emphasize the high incidence of bronchopneumonia as a COD in patients suffering from AD.

Attems J, Jellinger KA, Lintner F. · Pathological Institute, Otto Wagner Hospital, Baumgartner Höhe 1, 1140, Vienna, Austria. · Acta Neuropathol. · Pubmed #16133541 No free full text.

Abstract: Cerebral amyloid angiopathy (CAA) is defined by beta-amyloid peptide (Abeta) depositions in cerebral vessels and is associated with Alzheimer's disease (AD). The relationship between sporadic CAA and AD, and the origin of Abeta in CAA are poorly understood. The aim of our study was to investigate the relationship between CAA and AD. Autopsy brains (n=113, 61.1% female, 55.8% clinically demented, age range 54-102 years, mean +/- SE 83.5+/-0.93 years) underwent standardized neuropathological assessment. CAA was evaluated in frontal, frontobasal, hippocampal, and occipital regions. Using immunohistochemistry, the severity of Abeta deposition in vessels was assessed semiquantitatively for each region separately. Evaluation of APOE genotype in 53 cases using real-time PCR showed significant correlations with severe AD pathology and CAA. CAA was present in 77 cases (68.1%), with the occipital region being affected significantly more often and more severely than other regions (P<0.01). Of brains without AD pathology 23.5% revealed CAA, whereas 24% with AD pathology showed no CAA. In concordance with other studies, the severity of both AD pathology and CAA showed a low, but significant correlation. This correlation, however, was only caused by the significant increase of occipital CAA with increasing AD pathology (P<0.01), and was independent of APOE genotype. Our results suggest that progressing AD pathology not only increases the severity of CAA, but also shifts its topographical distribution towards the occipital cortex.

Attems J, Lintner F, Jellinger KA. · Institute of Pathology, O. Wagner Hospital, Vienna, Austria. · J Alzheimers Dis. · Pubmed #15851853 No free full text.

Abstract: Olfactory dysfunction and tau pathology in the olfactory bulb increase with the severity of Alzheimer's disease. We report data of a postmortem study in the aged. 130 autopsy cases (81 female, 49 male, aged 61-102, mean 82.48 +/- 4.35 SD) years, underwent a standardized neuropathological assessment with immunohistochemical study of tau pathology in the olfactory bulb and nerve and of Alzheimer's disease using established criteria including Braak staging. All cases of definite Alzheimer's disease (Braak stages 5 and 6) (n = 40) showed large numbers of neuropil threads and neurofibrillary tangles, with amyloid deposits in 32.5% and neuritic plaques in one single case in the olfactory system. Braak stage 4 (n = 27) was associated with mild to moderate tau pathology in 85.2%, and amyloid plaques in 1.1%, Braak stage 3 (n = 28) with olfactory tau lesions in 37.0% and amyloid deposits in one single case, Braak stages 3 and 4 with olfactory tau lesions in 61.1%. Braak stage 2 (n = 15) showed olfactory tau pathology in 31.2%, whereas Braak stages 0 and 1 (n = 15) were all negative. The olfactory system tau score showed highly significant correlations with neuritic Braak stages in the brain, while both scores showed significant but low correlations with age. These data confirm previous studies demonstrating abundant tau pathology in the olfactory system in all definite Alzheimer's disease cases, in two-thirds of limbic Alzheimer's disease, and in almost one-third of non-demented elderly persons with Braak stage 2. There are strong correlations between tau pathology in the olfactory and limbic systems, both with similar increase in severity. Clinical dementia correlated with both Braak and olfactory system tau scores. Since the involvement of both systems is associated with a high risk of cognitive decline, future studies should validate the sensitivity of olfactory mucosa biopsies in the diagnosis of Alzheimer's disease.

Attems J, Lintner F, Jellinger KA. · Institute of Pathology, Otto Wagner Hospital, Baumgartner Hoehe 1, 1140, Vienna, Austria. · Acta Neuropathol. · Pubmed #14986026 No free full text.

Abstract: Recent studies reported both positive [Thal et al. (2003) J Neuropathol Exp Neurol 62:1287-1301] and negative [Tian et al. (2003) Neurosci Lett 352:137-140] correlations between cerebral amyloid angiopathy (CAA) and Alzheimer's disease (AD) pathology. We have recently shown high correlations between neuritic AD pathology and amyloid beta peptide (Abeta) deposits in the capillary/pericapillary compartment (CapCAA) with only low correlations to general CAA (non-capillary). We have now studied the relationship between CapCAA and AD pathology with respect to the distribution of Abeta40 and 42 in the frontal cortex of 100 human postmortem brains from both male and female, demented and non-demented patients (mean age +/- SD 84.3 +/- 9.3 years). Using polyclonal antibodies to Abeta40 and 42, capillary and plaques positivity were assessed semiquantiatively on a four-point scale. Abeta42 deposits in capillaries correlated highly with both Abeta42 deposits in plaques and morphological AD criteria (CERAD, Braak stages, and NIA-Reagan-Institute criteria), while only a low correlation with CAA was observed. Abeta40 deposits in capillaries differed morphologically from Abeta42 ones: they were limited to capillary walls, were significantly less frequent in both capillaries and plaques compared to Abeta42 ( P < 0.01), and showed a low correlation with morphological AD criteria ( P < 0.05) and general CAA ( P < 0.01). By contrast, Abeta42 deposits were seen in the glia limitans rather than in capillary walls themselves, and showed high correlation with morphological AD criteria ( P < 0.01). These data indicate that CapCAA is characterized by Abeta42 deposits in pericapillary spaces or in the glia limitans. A low correlation between CAA and CapCAA, but high correlations between morphological AD criteria and CapCAA suggest different pathomechanisms for both types of CAA, and a close relation between CapCAA and AD pathology (both neuritic and plaque type). These data support the concept of a neuronal origin of Abeta via drainage from interstitial fluid from the central nervous system along basement membranes to capillaries.