Tau proteins are the basic components of filaments that accumulate within neurons during neurofibrillary degeneration, a degenerating process with disease-specific phenotypes. This specificity is likely to be sustained by both phosphorylation state and isoform content of tau aggregates that form neuronal inclusions. In the present study, characterization of tau isoforms involved in neurofibrillary degeneration in Alzbeimer's disease, Pick's disease, corticobasal degeneration and progressive supranuclear palsy was performed. Both analyses by immunoblotting using specific tau antibodies and cell transfection by tau isoform cDNAs allowed us to demonstrate the aggregation of (1) the six hyperpbosphorylated tau isoforms in Alzheimer's disease, (2) tau isoforms without exon 10-encoding sequence in Pick's disease and (3) hyperphosphorylated exon 10-tau isoforms in corticobasal degeneration and progressive supranuclear palsy. Thus, neurofibrillary degeneration phenotypes are likely to be related to the phosphorylation of different combinations of tau isoforms (with and/or without exon 10-encoding sequence) in subpopulations of neurons.
Neuronal inclusions with bundles of abnormal filaments made of tau polymers are found in numerous diseases with neurofibrillary degeneration. Tau proteins are the basic components of paired helical filaments (PHF) in Alzheimer's disease (AD), and are abnormally phosphorylated. A disease-specific phosphorylation site at serine422 was demonstrated on PHF, but not on tau proteins from biopsy-derived brain samples. In the present study, we report the characterization of a polyclonal antibody (988) against the serine422 phosphorylation site. By using biochemical and immunohistochemical methods, we confirmed that it is not found on tau proteins from biopsy- or autopsy-derived control samples, and we investigated the presence of this epitope on tau proteins in several neurodegenerative disorders, including AD, Down syndrome (DS), Guamanian amyotrophic lateral sclerosis/Parkinsonism-dementia complex (ALS/PDC), corticobasal degeneration (CBD), progressive supranuclear palsy (PSP), postencephalitic parkinsonism (PEP) and Pick's disease (PiD). By Western blotting, antibody 988 labeled the characteristic tau triplet (tau 55, 64, 69) in AD, DS, Guamanian ALS/PDC and PEP. PSP and CBD exhibited their typical tau doublet (tau 64, 69), whereas the doublet tau 55 and 64 was detected in PiD. In all of these neurodegenerative disorders, antibody 988 clearly labeled NFT and dystrophic neurites, as well as Pick bodies in PiD cases, whereas no staining was observed in control cases. These data indicate that phosphorylation of serine422 on tau proteins is a common feature among neurodegenerative disorders and is therefore not specific of AD. Moreover, phosphorylation of this epitope permits the distinction between normal tau proteins and pathological tau proteins.
In Alzheimer's disease, neurofibrillary degeneration results from the aggregation of abnormally phosphorylated Tau proteins into filaments and it may be related to the reactivation of mitotic mechanisms. In order to investigate the link between Tau phosphorylation and mitosis, Xenopus laevis oocytes in which most of the M-phase regulators have been discovered were used as a cell model. The human Tau isoform htau412 (2+3-10+) was microinjected into prophase I oocytes that were then stimulated by progesterone that activate cyclindependent kinase pathways. Hyperphosphorylation of the Tau isoform, which is characterized by a decrease of its electrophoretic mobility and its labelling by a number of phosphorylation-dependent antibodies, was observed at the time of germinal vesicle breakdown. Surprisingly, Tau immunoreactivity, considered as typical of Alzheimer's pathology (AT100 and phospho-Ser422), was observed in meiosis II. Because meiosis II is considered as a mitosis-like phase, we investigated if our observation was also relevant to a neuronelike model. Abnormal Tau phosphorylation was detected in mitotic human neuroblastoma SY5Y cells overexpressing Tau. Regarding AT100-immunoreactivity and phosphoSer422, we suggest that phosphatase 2A inhibition and a phosphorylation combination of mitotic kinases may lead to this Alzheimer-type phosphorylation. Our results not only demonstrate the involvement of mitotic kinases in Alzheimertype Tau phosphorylation but also indicate that Xenopus oocyte could be a useful model to identify the kinases involved in this process. Keywords: Alzheimer's disease, microtubule-associated Tau proteins, mitosis, oocyte maturation, phosphorylation. The mechanisms leading to neurodegenerative disorders referred to as tauopathies, such as Alzheimer's disease (AD) are still unknown but recent evidences had shown that neurones affected in these diseases and undergoing neurofibrillary degeneration may re-express some cell cycle genes notably implicated in the G 2 /M transition (Vincent et al. 1998;Husseman et al. 2000).Neurofibrillary degeneration is one of the neuropathological hallmarks of AD. It results from the aggregation of abnormally phosphorylated Tau proteins into paired helical filaments (PHFs). Tau proteins are mainly found in neurones. They play important roles in the polymerization and stability of microtubules (MTs). Moreover, phosphorylation is a key post-translational modification involved in their regulation. At least 30 phosphorylation sites have been described in Tau proteins, most of which occur on Ser/Pro and Thr/Pro motifs.Despite the fact that many phosphorylation sites are common between Tau aggregated into filaments in AD and normal Tau from biopsy-derived material, some differences exist and support the idea of an abnormal phosphorylation of Tau proteins in AD (for review see Buée et al. 2000). This latter is also a common feature among tauopathies. Despite the lack of evidence, a possible link may exist between abnormal Tau
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