Tau is a microtubule-associated protein that is important for establishing and maintaining neuronal morphology. In addition to its role in normal cells, tau protein is involved in many neurodegenerative diseases, e.g. Alzheimer's disease (AD) and frontotemporal dementia, as the main component of intraneuronal aggregates. Alternative splicing of tau gene in the brain can give rise to at least six protein variants. A causative role of skewed tau exon 10 inclusion has been defined in frontotemporal dementia; however, no link was established between the aberrant splicing of tau and AD. Here, we applied a single-molecule-based technology, polymerase colony or polony, to simultaneously monitor tau splicing variant and haplotype profile in sporadic AD and normal brains. We found that the coordinated expression of tau exons 2 and 10 is altered in AD. Additional investigations of cis and trans mechanisms of this observation revealed a decreased protein expression of a known tau splicing factor, htra2-beta-1 in AD, thereby implicating a trans mechanism. Our results demonstrate that dysregulation of combinatorial splicing might serve as a signature for aging-related diseases, and the polony assay could be widely adapted for the study of other tauopathies. Furthermore, splicing-based therapeutics is an emerging area of drug development, and a well-defined and quantitative assay for monitoring single-gene transcriptome will be relevant for such development. Alternative pre-mRNA splicing is a major contributor of mammalian proteome diversity. Combinatorial usage of multiple alternatively spliced exons of a transcript can lead to exponential accumulation of protein variants, which may play distinct roles in establishing and maintaining cellular identity (Lander et al. 2001). One such locus encodes for the microtubule-associated protein, tau. In the human CNS, at least six tau isoforms can be produced as the result of combinatorial inclusion of its exons 2, 3, and 10 (Fig. 1a). Although the function of individual tau variants remains to be fully determined, dysregulation of tau splicing is often observed in neurodegenerative diseases with aberrant tau deposition, including frontotemporal dementia (FTD), Pick's disease, and progressive supranuclear palsy (Brandt et al. 2005). In FTD, several mutations in the tau gene have been shown to not only promote tau aggregation but also skew tau splicing (D'Souza and Schellenberg 2005), prompting the investigation of tau splicing in other tau pathology-related disorders like Alzheimer's disease (AD).Alternative splicing of the tau gene in AD patients had been previously examined using in situ hybridization (Goedert et al. 1989a,b), microarray analysis (Ginsberg et al. Yasojima et al. 1999;Boutajangout et al. 2004;Umeda et al. 2004;Connell et al. 2005;Glatz et al. 2006;Ingelsson et al. 2006); most of these studies did not detect differences in AD, although several experiments suggested an increase in exon 10 in tangle affected neurons or brain areas (Yasojima et al. 1999;Glatz et a...
