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Article Calcium-binding protein secretagogin-expressing neurones in the human hippocampus are largely resistant to neurodegeneration in Alzheimer's disease. 2008
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.
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Article Immunoreactivity of calcium binding protein secretagogin in the human hippocampus is restricted to pyramidal neurons. 2007
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.
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