Connie Luk

MAPT expression and splicing is differentially regulated by brain region: relation to genotype and implication for tauopathies

The MAPT (microtubule-associated protein tau) locus is one of the most remarkable in neurogenetics due not only to its involvement in multiple neurodegenerative disorders, including progressive supranuclear palsy, corticobasal degeneration, Parksinsons disease and possibly Alzheimers disease, but also due its genetic evolution and complex alternative splicing features which are, to some extent, linked and so all the more intriguing. Therefore, obtaining robust information regarding the expression, splicing and genetic regulation of this gene within the human brain is of immense importance. In this study, we used 2011 brain samples originating from 439 individuals to provide the most reliable and coherent information on the regional expression, splicing and regulation of MAPT available to date. We found significant regional variation in mRNA expression and splicing of MAPT within the human brain. Furthermore, at the gene level, the regional distribution of mRNA expression and total tau protein expression levels were largely in agreement, appearing to be highly correlated. Finally and most importantly, we show that while the reported H1/H2 association with gene level expression is likely to be due to a technical artefact, this polymorphism is associated with the expression of exon 3-containing isoforms in human brain. These findings would suggest that contrary to the prevailing view, genetic risk factors for neurodegenerative diseases at the MAPT locus are likely to operate by changing mRNA splicing in different brain regions, as opposed to the overall expression of the MAPT gene.

Development and assessment of sensitive immuno-PCR assays for the quantification of cerebrospinal fluid three- and four-repeat tau isoforms in tauopathies.

Characteristic tau isoform composition of the insoluble fibrillar tau inclusions define tauopathies, including Alzheimers disease (AD), progressive supranuclear palsy (PSP) and frontotemporal dementia with parkinsonism linked to chromosome 17/frontotemporal lobar degeneration‐tau (FTDP‐17/FTLD‐tau). Exon 10 splicing mutations in the tau gene, MAPT, in familial FTDP‐17 cause elevation of tau isoforms with four microtubule‐binding repeat domains (4R‐tau) compared to those with three repeats (3R‐tau). On the basis of two well‐characterised monoclonal antibodies against 3R‐ and 4R‐tau, we developed novel, sensitive immuno‐PCR assays for measuring the trace amounts of these isoforms in CSF. This was with the aim of assessing if CSF tau isoform changes reflect the pathological changes in tau isoform homeostasis in the degenerative brain and if these would be relevant for differential clinical diagnosis. Initial analysis of clinical CSF samples of PSP (n = 46), corticobasal syndrome (CBS; n = 22), AD (n = 11), Parkinsons disease with dementia (PDD; n = 16) and 35 controls revealed selective decreases of immunoreactive 4R‐tau in CSF of PSP and AD patients compared with controls, and lower 4R‐tau levels in AD compared with PDD. These decreases could be related to the disease‐specific conformational masking of the RD4‐binding epitope because of abnormal folding and/or aggregation of the 4R‐tau isoforms in tauopathies or increased sequestration of the 4R‐tau isoforms in brain tau pathology.

Clinical and pathological features of an Alzheimer's disease patient with the MAPT ΔK280 mutation

We identified a case of Alzheimers disease with a deletion of the lysine residue at codon 280 (Delta K280) in exon 10-encoded microtubule-binding repeat domain of the tau gene (MAPT). This mutation was originally identified in a sporadic case of frontotemporal dementia (FTD) with a family history of Parkinsons disease. In the original report, the authors were careful in their assessment of the pathogenicity and suggested one could not be sure whether the mutation was pathogenic or not. The mutation has always presented a conundrum because it is the only known mutation, of assumed pathogenicity, which increases the proportion of 3-repeat tau mRNA in in vitro assays. Here we present the clinical and pathological features of a new case with this mutation and discuss whether the mutation is indeed pathogenic

Differential DJ-1 gene expression in Parkinson's disease

Mutations in the DJ-1 gene have been linked with rare cases of early onset, autosomal recessive Parkinsons disease (PD). To determine whether DJ-1 is also involved in the pathogenesis of common forms of PD we have compared DJ-1 mRNA levels in a number of post-mortem PD and control brain regions using quantitative real-time PCR. Region-specific decreases were observed in DJ-1 mRNA levels in putamen, frontal cortex, parietal cortex and cerebellum in PD ( approximately 30-60%) compared to controls whilst an up-regulation was observed in the amygdala ( approximately 90%) and entorhinal cortex ( approximately 39%). Using quantitative western blot analysis, parallel decreases in DJ-1 protein levels were seen in frontal cortex, putamen and cerebellum of PD cases. By using 2-dimensional gel electrophoresis, we show preponderance of acidic pI isoforms of DJ-1 monomer in PD vulnerable regions, namely frontal cortex and medulla suggestive of differential post-translational modifications. Our findings point to a putative role of DJ-1 in the pathogenesis of PD.

Development of a sensitive ELISA for quantification of three- and four-repeat tau isoforms in tauopathies.

Tau protein plays an important role in stabilising and assembling neuronal microtubules. Pathological changes in expression and aggregation of tau isoforms containing three (3R-tau) and four (4R-tau) microtubule-binding repeat domains are associated with several tauopathies. This paper describes novel sandwich ELISAs for quantification of 3R- and 4R-tau in brain. The assays are constructed using well-characterised isoform-specific antibodies (RD3 and RD4) as capture antibodies and an affinity-purified HRP-anti-tau peptide antibody and biotin-tyramide amplification for detection. For 3R-tau, we achieved a minimal detection limit in buffer of 460 pg mL(-1) and a recovery of 81.0% using 500 pg mL(-1) recombinant 3R-tau spiked in diluted brain homogenate. Mean intra- and inter-assay variation of the 3R-tau ELISA was 8.8 and 10.5%, respectively. For 4R-tau, the detection limit was 780 pg mL(-1) and the recovery of 5 ng mL(-1) spiked recombinant 4R-tau was 86.0% and the mean intra- and inter-assay variation was 10.4 and 15.6%, respectively. With these assays, we showed that in progressive supranuclear palsy (PSP) brains, 4R-tau is significantly increased in frontal cortex and caudate, the two regions that are usually associated with 4R-tau-dominant pathology. This increase was not observed in occipital lobe, a region that is spared of tau inclusions. No differences in 3R-tau levels were found between PSP and control brains in all regions tested. With this, we have for the first time developed ELISAs for quantification of 3R- and 4R-tau isoforms in pathological samples. These could prove useful in the pathological investigation and differential diagnosis of tauopathies.

Diagnosing Sporadic Creutzfeldt-Jakob Disease by the Detection of Abnormal Prion Protein in Patient Urine

Importance Creutzfeldt-Jakob disease (CJD) is a fatal neurodegenerative disorder associated with the accumulation of infectious abnormal prion protein through a mechanism of templated misfolding. A recent report has described the detection of abnormal prion protein in the urine of patients with variant CJD (vCJD) using protein misfolding by cyclic amplification, which was apparently absent in the more common sporadic form of CJD (sCJD). A noninvasive diagnostic test could improve early diagnosis of sCJD and, by screening donations, mitigate the potential risks of prion transmission through human urine-derived pharmaceuticals. Here, we describe the adaptation of the direct detection assay, developed originally as a blood test for vCJD, for the detection of disease-associated prion protein in urine samples from patients with sCJD. Objective To determine the feasibility of sCJD diagnosis by adaptation of an established vCJD diagnostic blood test to urine. Design, Setting, and Participants This retrospective, cross-sectional study included anonymized urine samples from healthy nonneurological control individuals (n = 91), patients with non-prion neurodegenerative diseases (n = 34), and patients with prion disease (n = 37) of which 20 had sCJD. Urine samples obtained during the Medical Research Council PRION-1 Trial, the National Prion Monitoring Cohort Study, and/or referred to the National Prion Clinic or Dementia Research Centre at the National Hospital for Neurology and Neurosurgery in the United Kingdom. Main Outcomes and Measures Presence of sCJD infection determined by an assay that captures, enriches, and detects disease-associated prion protein isoforms. Results A total of 162 samples were analyzed, composed of 91 normal control individuals (51 male, 33 female, and 7 not recorded), 34 neurological disease control individuals (19 male and 15 female), and 37 with prion disease (22 male and 15 female). The assays specificity for prion disease was 100% (95% CI, 97%-100%), with no false-positive reactions from 125 control individuals, including 34 from a range of neurodegenerative diseases. In contrast to a previous study, which used a different method, sensitivity to vCJD infection was low (7.7%; 95% CI, 0.2%-36%), with only 1 of 13 patients with positive test results, while sensitivity to sCJD was unexpectedly high at 40% (95% CI, 19%-64%). Conclusions and Relevance We determined 40% of sCJD urine sample results as positive. To our knowledge, this is the first demonstration of an assay that can detect sCJD infection in urine or any target analyte outside of the central nervous system. Urine detection could allow the development of rapid, molecular diagnostics for sCJD and has implications for other neurodegenerative diseases where disease-related assemblies of misfolded proteins might also be present in urine.

Neurofilament light chain and tau concentrations are markedly increased in the serum of patients with sporadic Creutzfeldt-Jakob disease, and tau correlates with rate of disease progression

Objectives A blood-based biomarker of neuronal damage in sporadic Creutzfeldt-Jakob disease (sCJD) will be extremely valuable for both clinical practice and research aiming to develop effective therapies. Methods We used an ultrasensitive immunoassay to measure two candidate biomarkers, tau and neurofilament light (NfL), in serum from patients with sCJD and healthy controls. We tested longitudinal sample sets from six patients to investigate changes over time, and examined correlations with rate of disease progression and associations with known phenotype modifiers. Results Serum concentrations of both tau and NfL were increased in patients with sCJD. NfL distinguished patients from controls with 100% sensitivity and 100% specificity. Tau did so with 91% sensitivity and 83% specificity. Both tau and NfL appeared to increase over time in individual patients, particularly in those with several samples tested late in their disease. Tau, but not NfL, was positively correlated with rate of disease progression, and was particularly increased in patients homozygous for methionine at codon 129 of PRNP. Conclusions These findings independently replicate other recent studies using similar methods and offer novel insights. They show clear promise for these blood-based biomarkers in prion disease. Future work should aim to fully establish their potential roles for monitoring disease progression and response to therapies.

P2-155: Development of sensitive and specific ELISAs for three-repeat and four-repeat tau isoforms

increased levels of 27OHC. Among patients with different CNS diseases, most had an increased level of at least one of the two oxysterols. Results: In CSF from 18 AD and 20 MCI patients the levels of 24and 27OHC were significantly increased and 24OHC was significantly positively correlated with T-tau (r 0.55, P 65 ng/L) and A 42 ( 500 ng/L) were set according with literature. In case of AD, the percentage of patients with increased levels of 24OHC, T-tau, P-tau and decreased A 42 were similar (ranging from 55 to 67%). In case of MCI, 50% of the patients had increased CSF levels of 24OHC, whereas only 18% and 24% of this population had increased levels of T-tau and P-tau. The high fraction of MCI patients with increased CSF 24OHC (50%), compared with the smaller number of the same patients with a significant alteration of the levels of the other markers, is consistent with the possibility that 24OHC is a new biomarker with a high negative predictive value in connection with evaluation of patients with cognitive impairment disease.