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1.  Comparison of Cerebrospinal Fluid Levels of Tau and Aß1-42 in Alzheimer’s disease and Frontotemporal Degeneration Using Two Analytical Platforms 
Archives of neurology  2012;69(8):1018-1025.
Objective
To utilize values of cerebrospinal fluid (CSF) tau and ß-amyloid obtained from two different analytical immunoassays to differentiate Alzheimer’s disease (AD) from frontotemporal lobar degeneration (FTLD).
Design
CSF values of total tau (t-tau) and ß-amyloid (Aß1-42) obtained using the INNOTEST® ELISA were transformed using a linear regression model to equivalent values obtained using the INNO-BIA AlzBio3™ (xMAP Luminex) assay. Cutoff values obtained from the xMAP assay were developed in a series of autopsy-confirmed cases and cross-validated in another series of autopsy-confirmed samples using transformed ELISA values to assess sensitivity and specificity for differentiating AD from FTLD.
Setting
Tertiary memory disorders clinics and neuropathological and biomarker core centers.
Participants
75 samples from patients with CSF data obtained from both assays were used for transformation of ELISA values. 40 autopsy-confirmed cases (30 AD, 10 FTLD) were used to establish diagnostic cutoff values, and then cross-validated in a second sample set of 21 autopsy-confirmed cases (11 AD, 10 FTLD) with transformed ELISA values.
Main outcome measure
Diagnostic accuracy using transformed biomarker values.
Results
Data obtained from both assays were highly correlated. The t-tau:Aß1-42 ratio had the highest correlation between measures (r=0.928, p<0.001) and high reliability of transformation (ICC=0.89). A cutoff of 0.34 for the t-tau:Aß1-42 ratio had 90% and 100% sensitivity and 96.7% and 91% specificity to differentiate FTLD cases in the validation and cross-validation samples, respectively.
Conclusions
Values from two analytical platforms can be transformed into equivalent units, which can distinguish AD from FTLD more accurately than the clinical diagnosis.
doi:10.1001/archneurol.2012.26
PMCID: PMC3528180  PMID: 22490326
2.  Pathological 43-kDa Transactivation Response DNA-Binding Protein in Older Adults With and Without Severe Mental Illness 
Archives of neurology  2010;67(10):1238-1250.
Background
Major psychiatric diseases such as schizophrenia and mood disorders have not been linked to a specific pathology, but their clinical features overlap with some aspects of the behavioral variant of frontotemporal lobar degeneration. Although the significance of pathological 43-kDa (transactivation response) DNA-binding protein (TDP-43) for frontotemporal lobar degeneration was appreciated only recently, the prevalence of TDP-43 pathology in patients with severe mental illness vs controls has not been systematically addressed.
Objective
To examine patients with chronic psychiatric diseases, mainlyschizophrenia, for evidence of neurodegenerative TDP-43 pathology in comparison with controls.
Design
Prospective longitudinal clinical evaluation and retrospective medical record review, immunohistochemical identification of pathological TDP-43 in the central nervous system, and genotyping for gene alterations known to cause TDP-43 proteinopathies including the TDP-43 (TARDBP) and progranulin (GRN) genes.
Setting
University health system.
Participants
One hundred fifty-one subjects including 91 patients with severe mental illness (mainly schizophrenia) and 60 controls.
Main Outcome Measures
Clinical medical record review, neuronal and glial TDP-43 pathology, and TARDP and GRN genotyping status.
Results
Significant TDP-43 pathology in the amygdala/periamygdaloid region or the hippocampus/transentorhinal cortex was absent in both groups in subjects younger than 65 years but present in elderly subjects (29% [25 of 86] of the psychiatric patients and 29% [10 of 34] of control subjects). Twenty-three percent (8 of 35) of the positive cases showed significant TDP-43 pathology in extended brain scans. There were no evident differences between the 2 groups in the frequency, degree, or morphological pattern of TDP-43 pathology. The latter included (1) subpial and subependymal, (2) focal, or (3) diffuse lesions in deep brain parenchyma and (4) perivascular pathology. A new GRN variant of unknown significance (c.620T>C, p.Met207Thr) was found in 1 patient with schizophrenia with TDP-43 pathology. No known TARDBP mutations or other variants were found in any of the subjects studied herein.
Conclusions
The similar findings of TDP-43 pathology in elderly patients with severe mental illness and controls suggest common age-dependent TDP-43 changes in limbic brain areas that may signify that these regions are affected early in the course of a cerebral TDP-43 multisystem proteinopathy. Finally, our data provide an age-related baseline for the development of whole-brain pathological TDP-43 evolution schemata.
doi:10.1001/archneurol.2010.254
PMCID: PMC3050578  PMID: 20937952
3.  The Spectrum of Mutations in Progranulin 
Archives of neurology  2010;67(2):161-170.
Background
Mutation in the progranulin gene (GRN) can cause frontotemporal dementia (FTD). However, it is unclear whether some rare FTD-related GRN variants are pathogenic and whether neurodegenerative disorders other than FTD can also be caused by GRN mutations.
Objectives
To delineate the range of clinical presentations associated with GRN mutations and to define pathogenic candidacy of rare GRN variants.
Design
Case-control study.
Setting
Clinical and neuropathology dementia research studies at 8 academic centers.
Participants
Four hundred thirty-four patients with FTD, including primary progressive aphasia, semantic dementia, FTD/amyotrophic lateral sclerosis (ALS), FTD/motor neuron disease, corticobasal syndrome/corticobasal degeneration, progressive supranuclear palsy, Pick disease, dementia lacking distinctive histopathology, and pathologically confirmed cases of frontotemporal lobar degeneration with ubiquitin-positive inclusions (FTLD-U); and 111 non-FTD cases (controls) in which TDP-43 deposits were a prominent neuropathological feature, including subjects with ALS, Guam ALS and/or parkinsonism dementia complex, Guam dementia, Alzheimer disease, multiple system atrophy, and argyrophilic grain disease.
Main Outcome Measures
Variants detected on sequencing of all 13 GRN exons and at least 80 base pairs of flanking introns, and their pathogenic candidacy determined by in silico and ex vivo splicing assays.
Results
We identified 58 genetic variants that included 26 previously unknown changes. Twenty-four variants appeared to be pathogenic, including 8 novel mutations. The frequency of GRN mutations was 6.9% (30 of 434) of all FTD-spectrum cases, 21.4% (9 of 42) of cases with a pathological diagnosis of FTLD-U, 16.0% (28 of 175) of FTD-spectrum cases with a family history of a similar neurodegenerative disease, and 56.2% (9 of 16) of cases of FTLD-U with a family history.
Conclusions
Pathogenic mutations were found only in FTD-spectrum cases and not in other related neurodegenerative diseases. Haploinsufficiency of GRN is the predominant mechanism leading to FTD.
doi:10.1001/archneurol.2009.328
PMCID: PMC2901991  PMID: 20142524
4.  Survival Profiles of Patients With Frontotemporal Dementia and Motor Neuron Disease 
Archives of neurology  2009;66(11):1359-1364.
Background
Frontotemporal dementia and amyotrophic lateral sclerosis are neurodegenerative diseases associated with TAR DNA-binding protein 43– and ubiquitin-immunoreactive pathologic lesions.
Objective
To determine whether survival is influenced by symptom of onset in patients with frontotemporal dementia and amyotrophic lateral sclerosis.
Design, Setting, and Patients
Retrospective review of patients with both cognitive impairment and motor neuron disease consecutively evaluated at 4 academic medical centers in 2 countries.
Main Outcome Measures
Clinical phenotypes and survival patterns of patients.
Results
A total of 87 patients were identified, including 60 who developed cognitive symptoms first, 19 who developed motor symptoms first, and 8 who had simultaneous onset of cognitive and motor symptoms. Among the 59 deceased patients, we identified 2 distinct subgroups of patients according to survival. Long-term survivors had cognitive onset and delayed emergence of motor symptoms after a long monosymptomatic phase and had significantly longer survival than the typical survivors (mean, 67.5 months vs 28.2 months, respectively; P<.001). Typical survivors can have simultaneous or discrete onset of cognitive and motor symptoms, and the simultaneous-onset patients had shorter survival (mean, 19.2 months) than those with distinct cognitive or motor onset (mean, 28.6 months) (P=.005).
Conclusions
Distinct patterns of survival profiles exist in patients with frontotemporal dementia and motor neuron disease, and overall survival may depend on the relative timing of the emergence of secondary symptoms.
doi:10.1001/archneurol.2009.253
PMCID: PMC2881327  PMID: 19901167
5.  Transactive Response DNA-Binding Protein 43 Burden in Familial Alzheimer Disease and Down Syndrome 
Archives of neurology  2009;66(12):1483-1488.
Objective
To assess the transactive response DNA-binding protein 43 (TDP-43) burden in familial forms of Alzheimer disease (FAD) and Down syndrome (DS) to determine whether TDP-43 inclusions are also present.
Design
Using standard immunohistochemical techniques, we examined brain tissue samples from 42 subjects with FAD and 14 with DS.
Results
We found pathological TDP-43 aggregates in 14.0% of participants (6 of 42 and 2 of 14 participants with FAD and DS, respectively). In both FAD and DS, TDP-43 immunoreactivity did not colocalize with neurofibrillary tangles. Occasionally participants with FAD or DS had TDP-43–positive neuropil threads or dots. Overall, the amygdala was most commonly affected, followed by the hippocampus, with no TDP-43 pathology in neocortical regions. A similar distribution of TDP-43 inclusions is seen in sporadic Alzheimer disease, but it differs from that seen in amyotrophic lateral sclerosis and frontotemporal dementia.
Conclusions
Transactive response DNA-binding protein 43 pathology occurs in FAD and DS, similar to that observed in sporadic Alzheimer disease. Thus, pathological TDP-43 may contribute the cognitive impairments in familial and sporadic forms of Alzheimer disease.
doi:10.1001/archneurol.2009.277
PMCID: PMC2864642  PMID: 20008652
6.  Clinical and Pathological Continuum of Multisystem TDP-43 Proteinopathies 
Archives of neurology  2009;66(2):180-189.
Objective
To determine the extent of transactivation response DNA-binding protein with a molecular weight of 43 kDa (TDP-43) pathology in the central nervous system of patients with clinically and autopsy-confirmed diagnoses of frontotemporal lobar degeneration with and without motor neuron disease and amyotrophic lateral sclerosis with and without cognitive impairment.
Design
Performance of immunohistochemical whole–central nervous system scans for evidence of pathological TDP-43 and retrospective clinical medical record review.
Setting
An academic medical center.
Participants
We included 64 patients with clinically and pathologically confirmed frontotemporal lobar degeneration with ubiquitinated inclusions with or without motor neuron disease and amyotrophic lateral sclerosis with or without cognitive impairment.
Main Outcome Measure
Neuronal and glial TDP-43 pathology.
Results
We found evidence of neuronal and glial TDP-43 pathology in all disease groups throughout the neuraxis, albeit with variations in the frequency, morphology, and distribution of TDP-43 lesions. Moreover, the major clinical manifestations (eg, cognitive impairments, motor neuron signs, extrapyramidal symptoms, neuropsychiatric features) were reflected by the predominant distribution and burden of TDP-43 pathology.
Conclusion
These findings strongly suggest that amyotrophic lateral sclerosis, frontotemporal lobar degeneration with amyotrophic lateral sclerosis or motor neuron disease, and frontotemporal lobar degeneration with ubiquitinated inclusions are different manifestations of a multiple-system TDP-43 proteinopathy linked to similar mechanisms of neurodegeneration.
doi:10.1001/archneurol.2008.558
PMCID: PMC2774117  PMID: 19204154
7.  Two German Kindreds with Familial Amyotrophic Lateral Sclerosis due to TARDBP Mutations 
Archives of neurology  2008;65(9):1185-1189.
Background:
Abnormal neuronal inclusions composed of the TAR DNA binding protein 43 (TDP-43) are the characteristic neuropathological lesions in sporadic and familial forms of amyotrophic lateral sclerosis (ALS). This makes TARDBP, the gene encoding for TDP-43, an interesting candidate gene for genetic screening in ALS.
Objective:
To investigate the presence and frequency of TARDBP mutations in ALS.
Design:
Genetic analysis
Participants:
One hundred thirty-four patiens with sporadic ALS, 31 patients with familial non-SOD1-ALS, and 400 healthy control subjects.
Results:
We identified two missense mutations in TARDBP (G348C and the novel N352S) in two small kindreds with a hereditary form of ALS with early spinal onset resulting in fatal respiratory insufficiency without clinical relevant bulbar symptoms or signs of cognitive impairment. The mutations located in the C-terminus of TDP-43 were absent in 400 Caucasian control individuals. The novel identified N352S mutation is predicted to increase TDP-43 phosphorylation while the G348C mutation might interfere with normal TDP-43 function by forming intermolecular disulfide bridges.
Conclusion:
Mutations in TARDBP are a rare cause of familial non-SOD1-ALS. The identification of TARDBP mutations provides strong evidence for a direct link between TDP-43 dysfunction and neurodegeneration in ALS.
doi:10.1001/archneur.65.9.1185
PMCID: PMC2742976  PMID: 18779421
TDP-43; ALS; TARDBP
8.  TDP-43 in Cerebrospinal Fluid of Patients With Frontotemporal Lobar Degeneration and Amyotrophic Lateral Sclerosis 
Archives of neurology  2008;65(11):1481-1487.
Background
Recently, TAR DNA-binding protein 43 (TDP-43) was identified as the major component of ubiquitin-positive tau-negative neuronal and glial inclusions in the most common form of frontotemporal lobar degeneration (FTLD) and in amyotrophic lateral sclerosis (ALS). It was demonstrated that different TDP-43 profiles correspond to clinical phenotypes of FTLD or ALS subgroups, and the differential diagnostic potential of TDP-43 was suggested.
Objectives
To examine TDP-43 in cerebrospinal fluid (CSF) and to analyze whether it could serve as a diagnostic marker.
Design
We characterized CSF TDP-43 by immunoblot using different TDP-43 antibodies and determined the relative TDP-43 levels in CSF samples from patients.
Setting
Academic research.
Patients
Twelve patients with FTLD, 15 patients with ALS, 9 patients with ALS plus FTLD, 3 patients with ALS plus additional signs of frontal disinhibition, and 13 control subjects.
Main Outcome Measures
Results of TDP-43 immunoblot.
Results
Polyclonal TDP-43 antibodies recognized a 45-kDa band in all analyzed samples. Two monoclonal and N-terminus—specific antibodies did not detect any specific bands, but C-terminus—specific antibodies detected a 45-kDa band and additional bands at approximately 20 kDa in all CSF samples. Relative quantification of 45-kDa bands revealed significant differences among the diagnostic groups (P=.046). Specifically, patients with ALS (P=.03) and FTLD (P=.02) had higher TDP-43 levels than controls but with a prominent overlap of values.
Conclusion
Although there is no evidence of pathologically altered TDP-43 proteins in CSF, TDP-43 levels in CSF might aid in characterizing subgroups of patients across the ALS and FTLD disease spectrum.
doi:10.1001/archneur.65.11.1481
PMCID: PMC2690860  PMID: 19001167
9.  Novel Tau Polymorphisms, Tau Haplotypes, and Splicing in Familial and Sporadic Frontotemporal Dementia 
Archives of neurology  2003;60(5):698-702.
Background
A subset of familial cases (FTDP-17) of frontotemporal dementia (FTD) are caused by mutations in the tau gene. The role of tau gene mutations and haplotypes in sporadic FTD and the functional consequences of tau polymorphisms are unknown.
Objectives
To investigate (1) the frequency of known FTDP-17 mutations in familial and sporadic FTD and compare these results with previous studies; (2) whether the tau H1 haplotype is associated with FTD; and (3) the functional effect of intronic tau sequence variations.
Patients and Methods
Patients with familial and sporadic FTD were screened for mutations in the microtubule-binding region of tau. The frequencies of tau haplotypes and genotypes were compared between patients with FTD and control subjects. We analyzed the splicing effect of novel intronic polymorphisms associated with FTD.
Results
The P301L mutation was detected in 11% of familial FTD cases. The H1 haplotype was not overrepresented in patients with FTD, but the P301L mutation appeared on the background of the H2 tau haplotype. We identified 4 novel single nucleotide polymorphisms in intron 9 and a 9–base pair deletion in intron 4A. A C-to-T transition 177 base pairs upstream from exon 10 was significantly increased in patients with FTD compared with controls. Direct analysis of brain tissue from a patient with this variant showed an increase in exon 10–containing tau transcripts.
Conclusions
Sequence variations in intronic or regulatory regions of tau may have previously unrecognized consequences leading to tau dysfunction and neurodegeneration.
doi:10.1001/archneur.60.5.698
PMCID: PMC2072863  PMID: 12756133

Results 1-9 (9)