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152. Variable phenotype of Alzheimer's disease with spastic paraparesis

Author

Smith, Margaret J., primary, Kwok, John B.J., additional, McLean, Catriona A., additional, Kril, Jillian J., additional, Broe, G. Anthony, additional, Nicholson, Garth A., additional, Cappai, Roberto, additional, Hallupp, Marianne, additional, Cotton, Richard G.H., additional, Masters, Colin L., additional, Schofield, Peter R., additional, and Brooks, William S., additional

Published
2001
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154. Two novel presenilin-1 mutations (Ser169Leu and Pro436Gln) associated with very early onset Alzheimerʼs disease

Author

Taddei, Kevin, primary, Kwok, John B. J., additional, Kril, Jillian J., additional, Halliday, Glenda M., additional, Creasey, Helen, additional, Hallupp, Marianne, additional, Fisher, Christopher, additional, Brooks, William S., additional, Chung, Christopher, additional, Andrews, Colin, additional, Masters, Colin L., additional, Schofield, Peter R., additional, and Martins, Ralph N., additional

Published
1998
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158. Cortical Function in Asymptomatic Carriers and Patients With C9orf72 Amyotrophic Lateral Sclerosis

Author

Geevasinga, Nimeshan, Menon, Parvathi, Nicholson, Garth A., Ng, Karl, Howells, James, Kril, Jillian J., Yiannikas, Con, Kiernan, Matthew C., and Vucic, Steve

Abstract

IMPORTANCE: The identification of the chromosome 9 open reading frame 72 (c9orf72) gene hexanucleotide repeat expansion represents a major advance in the understanding of amyotrophic lateral sclerosis (ALS) pathogenesis. The pathophysiological mechanism by which the c9orf72 gene expansion leads to neurodegeneration is not yet elucidated. Cortical hyperexcitability is potentially an important pathophysiological process in sporadic ALS and familial ALS (FALS). OBJECTIVE: To investigate whether cortical hyperexcitability forms the pathophysiological basis of c9orf72 FALS using the threshold-tracking transcranial magnetic stimulation technique. DESIGN, SETTING, AND PARTICIPANTS: Prospective case-control single-center study that took place at hospitals and outpatient clinics from January 1, 2013, to January 1, 2015. Clinical and functional assessments along with transcranial magnetic stimulation studies were taken on 15 patients with c9orf72 FALS and 11 asymptomatic expansion carriers of c9orf72 who were longitudinally followed up for 3 years. Results were compared with 73 patients with sporadic ALS and 74 healthy control participants. MAIN OUTCOMES AND MEASURES: Cortical excitability variables, including short-interval intracortical inhibition, were measured in patients with c9orf72 FALS and results were compared with asymptomatic c9orf72 carriers, patients with sporadic ALS, and healthy control participants. RESULTS: Mean (SD) short-interval intracortical inhibition was significantly reduced in patients with c9orf72 FALS (1.2% [1.8%]) and sporadic ALS (1.6% [1.2%]) compared with asymptomatic c9orf72 expansion carriers (10.2% [1.8%]; F = 16.1; P < .001) and healthy control participants (11.8% [1.0%]; F = 16.1; P < .001). The reduction of short-interval intracortical inhibition was accompanied by an increase in intracortical facilitation (P < .01) and motor-evoked potential amplitude (P < .05) as well as a reduction in the resting motor threshold (P < .05) and cortical silent period duration (P < .001). CONCLUSIONS AND RELEVANCE: This study establishes cortical hyperexcitability as an intrinsic feature of symptomatic c9orf72 expansion-related ALS but not asymptomatic expansion carriers.

Published
2015
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159. Is the logopenic-variant of primary progressive aphasia a unitary disorder?

Author

Leyton, Cristian E., Hodges, John R., McLean, Catriona A., Kril, Jillian J., Piguet, Olivier, and Ballard, Kirrie J.

Abstract

Logopenic progressive aphasia is one of the clinical presentations of primary progressive aphasia and formally defined by the co-occurrence of impaired naming and sentence repetition. Impaired naming is attributed to failure of lexical retrieval, which is a multi-staged process subserved by anatomically segregated brain regions. By dissecting the neurocognitive processes involved in impaired naming, we aimed to disentangle the clinical and neuroanatomical heterogeneity of this syndrome. Twenty-one individuals (66.7% females, age range 53–83 years) who fulfilled diagnostic criteria for logopenic variant and had at least two clinical and language assessments, 1 year apart, were recruited and matched for age, sex distribution and level of education with a healthy control sample (n = 18). All participants underwent a structural brain scan at the first visit and surface-wise statistical analysis using Freesurfer. Seventeen participants with logopenic variant underwent amyloid imaging, with 14 demonstrating high amyloid retention. Based on their performance on single-word comprehension, repetition and confrontation naming, three subgroups of logopenic cases with distinctive linguistic profiles and distribution of atrophy were identified. The first subgroup (n = 10) demonstrated pure anomia and left-sided atrophy in the posterior inferior parietal lobule and lateral temporal cortex. The second subgroup (n = 6), presented additional mild deficits in single-word comprehension, and also exhibited bilateral thinning of the fusiform gyri. The third subgroup (n = 5) showed additional impaired single-word repetition, and cortical thinning focused on the left superior temporal gyrus. The subgroups differed in the proportion of cases with high amyloid retention and in the rate of decline of naming performance over time, suggesting that neurodegeneration spreads differentially throughout regions subserving word processing. In line with previous reports, these results confirm the extensive damage to the language network and, in part, explain the clinical heterogeneity observed across logopenic cases.

Published
2015
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162. Sodium selenate mitigates tau pathology, neurodegeneration, and functional deficits in Alzheimer's disease models.

Author

van EerseI, Janet, Ke, Yazi D., Xin Liu, Delerue, Fabien, Kril, Jillian J., Götz, Jurgen, and Ittner, Lars M.

Subjects
ALZHEIMER'S disease, PATHOLOGY, DEMENTIA, LEAD compounds, PHOSPHORYLATION, TRANSGENIC mice, PHOSPHATASES, NEURODEGENERATION
Abstract

Alzheimer's disease (AD) brains are characterized by amyloidβ-containing plaques and hyperphosphorylated tau-containing neurofibrillary tangles (NFT5); however, in frontotemporal dementia, the tau pathology manifests in the absence of overt amyloid-fi plaques. Therapeutic strategies so far have primarily been targeting amyloid-β, although those targeting tau are only slowly beginning to emerge. Here, we identify sodium selenate as a compound that reduces tau phosphorylation both in vitro and in vivo. Importantly, chronic oral treatment of two independent tau transgenic mouse strains with NFT pathology. P301L mutant pR5 and K3691 mutant 1(3 mice, reduces tau hyperphosphorylation and completely abrogates NFT formation. Furthermore, treatment improves contextual memory and motor performance, and prevents neurodegeneration. As hyperphosphorylation of tau precedes NFT formation, the effect of selenate on tau phosphorylation was assessed in more detail, a process regulated by both kinases and phosphatases. A major phosphatase implicated in tau dephosphorylation is the serine/threonine-specific protein phosphatase 2A (PP2A) that is educed in both levels and activity in the AD brain. We found that selenate stabilizes PP2A-tau complexes. Moreover, there was an absence of therapeutic effects in sodium selenate-treated tau transgenic mice that coexpress a dominant-negative mutant form of PP2A, suggesting a mediating role for PP2A. Taken together, sodium selenate mitigates tau pathology in several AD models, making it a promising lead compound for tau-targeted treatments of AD and related dementias. [ABSTRACT FROM AUTHOR]

Published
2010
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163. Phosphorylation of soluble tau differs in Pick’s disease and Alzheimer’s disease brains.

Author

van Eersel, Janet, Mian Bi, Ke, Yazi D., Hodges, John R., Xuereb, John H., Gregory, Gillian C., Halliday, Glenda M., Götz, Jürgen, Kril, Jillian J., and Ittner, Lars M.

Subjects
PRESENILE dementia, ALZHEIMER'S disease, BRAIN diseases, MENTAL illness, PATHOLOGICAL psychology, PHOSPHORYLATION, CHEMICAL reactions
Abstract

Frontotemporal lobar degeneration (FTLD) is a common cause of presenile dementia characterised by behavioural and language disturbances. Pick’s disease (PiD) is a subtype of FTLD, which presents with intraneuronal inclusions consisting of hyperphosphorylated tau protein aggregates. Although Alzheimer’s disease (AD) is also characterised by tau lesions, these are both histologically and biochemically distinct from the tau aggregates found in PiD. What determines the distinct characteristics of these tau lesions is unknown. As phosphorylated, soluble tau has been suggested to be the precursor of tau aggregates, we compared both the level and phosphorylation profile of tau in tissue extracts of AD and PiD brains to determine whether the differences in the tau lesions are reflected by differences in soluble tau. Levels of soluble tau were decreased in AD but not PiD. In addition, soluble tau was phosphorylated to a greater extent in AD than in PiD and displayed a different phosphorylation profile in the two disorders. Consistently, tau kinases were activated to different degrees in AD compared with PiD. Such differences in solubility and phosphorylation may contribute, at least in part, to the formation of distinct tau deposits, but may also have implications for the clinical differences between AD and PiD. [ABSTRACT FROM AUTHOR]

Published
2009
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168. In vivo identification of human cortical areas using high-resolution MRI: An approach to cerebral structure-function correlation.

Author

Walters, Nathan B., Egan, Gary F., Kril, Jillian J., Kean, Michael, Waley, Patricia, Jenkinson, Mark, and Watson, John D.G.

Subjects
NEUROSCIENCES, BRAIN
Abstract

Understanding the relationship between the structural and functional organization of the human brain is one of the most important goals of neuroscience. Individual variability in brain structure means that it is essential to obtain this information from the same subject. To date, this has been almost impossible. Even though noninvasive functional imaging techniques such as functional MRI (fMRI) are now commonplace, there is no complementary noninvasive structural technique. We present an in vivo method of examining the detailed neuroanatomy of any individual, which can then be correlated with that individual's own functional results. This method utilizes high-resolution structural MRI to identify distinct cortical regions based on cortical lamination structure. We demonstrate that the observed MR lamination patterns relate to myeloarchitecture through a correlation of histology with MRI. In vivo high-resolution MRI studies identify striate cortex, as well as visual area V5, in four individuals, as defined by using fMRI. The anatomical identification of a cortical area (V5/MT) outside of striate cortex is a significant advance, proving it possible to identify extra-striate cortical areas and demonstrating that in vivo structural mapping of the human cerebral cortex is possible. [ABSTRACT FROM AUTHOR]

Published
2003
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171. Overview and recent advances in neuropathology. Part 2: Neurodegeneration

Author

Masters, Colin L., Kril, Jillian J., Halliday, Glenda M., Pamphlett, Roger, Collins, Steven, Hill, Andrew F., and McLean, Catriona

Abstract

The sections in the following review cover six main neurodegenerative diseases. The first article on Alzheimer’s disease (AD) outlines the major evidence available to date that links Aßamyloid peptide as a proximal cause of AD. The article also highlights how an initial finding of the protein content of the amyloid plaque seen in the brains of patients with AD has led to many very significant findings in the neuroscience field. The next section outlines the many and recent advances that have occurred in the field of frontotemporal lobar degeneration (FTLD), including the most recent finding related to the fused sarcoma gene (FUS) and the newest nomenclature whereby the FTLD is subtyped according to the presence of specific proteins seen at a microscopic level. The section on Lewy bodies outlines the latest advances in the relationship between the anatomical distribution of Lewy bodies and disease phenotype. The following section includes an overview of current known genetic links with familial causes of motor neuron disease (MND) and an update on the areas being researched into the causes of sporadic MND. The presence of TDP-43 within inclusions and its new diagnostic role in MND are discussed. The final article on prion diseases gives an overview of human prion diseases, including the phenotypic spectrum, epidemiology and diagnostic investigations relevant to disease.

Published
2011
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172. Corpus Callosal Thickness in Alcoholics.

Author

Harper, Clive G. and Kril, Jillian J.

Subjects
*CORPUS callosum, *PEOPLE with alcoholism
Abstract

The coronal thickness of the corpus callosum in alcoholics and age- and sex-matched controls was measured in a postmortem study. The alcoholics were found to have a significantly (p<0.001) reduced corpus callosal thickness (3.19 mm) when compared w the controls (4.02 mm). This adds weight to the previous pathological finding of reduced white matter volume in alcoholics, which presumably correlates with brain shrinkage seen on CT scans. A significant linear relationship exists between age and the corpus callosal thickness in controls and the white matter volume and corpus callosal thickness in alcoholics. [ABSTRACT FROM AUTHOR]

Published
1988
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174. Pick bodies in a family with presenilin‐1 Alzheimer's disease

Author

Halliday, Glenda M., Song, Yun Ju C., Lepar, Gila, Brooks, William S., Kwok, John B., Kersaitis, Cindy, Gregory, Gillian, Shepherd, Claire E., Rahimi, Farid, Schofield, Peter R., and Kril, Jillian J.

Abstract

Presenilin‐1 (PS‐1) mutations can cause Pick's disease without evidence of Alzheimer's disease (AD). We describe a family with a PS‐1 M146L mutation and both Pick bodies and AD. Sarkosyl‐insoluble hyperphosphorylated tau showed three bands consistent with AD, although dephosphorylation showed primarily three‐repeat isoforms. M146L mutant PS‐1 may predispose to both Pick's disease and AD by affecting multiple intracellular pathways involving tau phosphorylation and amyloid metabolism. Ann Neurol 2005;57:139–143

Published
2005
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175. Two novel presenilin1 mutations Ser169Leu and Pro436Gln associated with very early onset Alzheimer's disease

Author

Taddei, Kevin, Kwok, John B. J., Kril, Jillian J., Halliday, Glenda M., Creasey, Helen, Hallupp, Marianne, Fisher, Christopher, Brooks, William S., Chung, Christopher, Andrews, Colin, Masters, Colin L., Schofield, Peter R., and Martins, Ralph N.

Abstract

MUTATIONS in the presenilin-1 (PS-1) gene account for the majority of early onset autosomal-dominant familial Alzheimer's disease (FAD) cases. We identified three missense mutations in the coding sequence of the PS-1 gene in three early onset (EO), FAD pedigrees. Alzheimer's disease was confirmed in one pedigree by autopsy. Mutation analysis of PCR products amplified from genomic DNA templates of affected individuals showed two novel mutations resulting in Ser169Leu and Pro436Gln and one known mutation resulting in Glu318Gly. The two new mutations are located within predicted transmembrane domains three (TM-3) and seven (TM-7), and are associated with a very early age of onset which is consistent with a marked loss of function of the protein. The age of onset in the pedigree with Glu318Gly mutation was similar to that reported previously in a separate pedigree with this mutation.

Published
1998

180. Alzheimer disease: Alzheimer disease neuropathology in the oldest old.

Author

Kril, Jillian J.

Subjects
*DEMENTIA, *NEUROLOGICAL disorders, *AGE factors in disease, *DISEASES in older people, *ALZHEIMER'S disease, *NERVE fibers
Abstract

The article focuses on the need to understand the relationship between dementia neuropathology and age. It notes that a body of medical literature implies that the link between Alzheimer's disease (AD)-type pathology and dementia does not apply in people above 95 years of age. It examines the results of a study on the impact of age on the association between AD-type pathology and dementia which suggests that the capability to predict dementia based on neurofibrillary tangle (NFT) and neuritic plaque (NP) densities decreases among people beyond 70 years.

Published
2009
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181. Treatment with the copper compound CuATSM has no significant effect on motor neuronal pathology in patients with ALS.

Author

Yang, Yue, Rowe, Dominic, McCann, Heather, Shepherd, Claire E., Kril, Jillian J., Kiernan, Matthew C., Halliday, Glenda M., and Tan, Rachel H.

Subjects
*COPPER compounds, *AMYOTROPHIC lateral sclerosis, *MOTOR cortex, *SPINAL cord, *PATHOLOGY
Abstract

Aims: Although the orally available brain‐penetrant copper compound CuATSM has demonstrated promising effects in SOD1‐linked mouse models, the impact of CuATSM on disease pathology in patients with amyotrophic lateral sclerosis (ALS) remains unknown. Methods: The present study set out to address this deficit by performing the first pilot comparative analysis of ALS pathology in patients that had been administered CuATSM and riluzole [N = 6 cases composed of ALS‐TDP (n = 5) and ALS‐SOD1 (n = 1)] versus riluzole only [N = 6 cases composed of ALS‐TDP (n = 4) and ALS‐SOD1 (n = 2)]. Results: Our results revealed no significant difference in neuron density or TDP‐43 burden in the motor cortex and spinal cord of patients that had received CuATSM compared with patients that had not. In patients that had received CuATSM, p62‐immunoreactive astrocytes were observed in the motor cortex and reduced Iba1 density was found in the spinal cord. However, no significant difference in measures of astrocytic activity and SOD1 immunoreactivity was found with CuATSM treatment. Discussion: These findings, in this first postmortem investigation of patients with ALS in CuATSM trials, demonstrate that in contrast to that seen in preclinical models of disease, CuATSM does not significantly alleviate neuronal pathology or astrogliosis in patients with ALS. [ABSTRACT FROM AUTHOR]

Published
2023
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182. Distribution Patterns of Astrocyte Populations in the Human Cortex.

Author

Forrest, Shelley L., Kim, Jordan Hanxi, Crockford, Daniel R., Huynh, Katharine, Cheong, Rosie, Knott, Samantha, Kane, Madison A., Ittner, Lars M., Halliday, Glenda M., and Kril, Jillian J.

Subjects
*GLIAL fibrillary acidic protein, *PROGRAMMED cell death 1 receptors, *GLUTAMATE transporters, *WHITE matter (Nerve tissue), *CENTRAL nervous system, *FRONTAL lobe
Abstract

Astrocytes are a major class of glial cell in the central nervous system that have a diverse range of types and functions thought to be based on their anatomical location, morphology and cellular properties. Recent studies highlight that astrocyte dysfunction contributes to the pathogenesis of neurological conditions. However, few studies have described the pattern, distribution and density of astrocytes in the adult human cortex. This study mapped the distribution and density of astrocytes immunolabelled with a range of cytoskeletal and membrane markers in the human frontal cortex. Distinct and overlapping astrocyte populations were determined. The frontal cortex from ten normal control cases (75 ± 9 years) was immunostained with glial fibrillary acidic protein (GFAP), aldehyde dehydrogenase-1 L1 (ALDH1L1), connexin-43 (Cx43), aquaporin-4 (AQP4), and glutamate transporter 1 (GLT-1). All markers labelled populations of astrocytes in the grey and white matter, separate cortical layers, subpial and perivascular regions. All markers were informative for labelling different cellular properties and cellular compartments of astrocytes. ALDH1L1 labelled the largest population of astrocytes, and Cx43-immunopositive astrocytes were found in all cortical layers. AQP4 and GLT-1 labelled distal astrocytic process and end-feet in the same population of astrocytes (98% of GLT-1-immunopositive astrocytes contained AQP4). In contrast, GFAP, the most widely used marker, predominantly labelled astrocytes in superficial cortical layers. This study highlights the diversity of astrocytes in the human cortex, providing a reference map of the distribution of distinct and overlapping astrocyte populations which can be used for comparative purposes in various disease, inflammatory and injury states involving astrocytes. [ABSTRACT FROM AUTHOR]

Published
2023
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183. The frontotemporal dementia-motor neuron disease continuum.

Author

Burrell, James R., Halliday, Glenda M., Kril, Jillian J., Ittner, Lars M., Götz, Jürgen, Kiernan, Matthew C., and Hodges, John R.

Subjects
*DEMENTIA, *MOTOR neuron diseases, *CARRIER proteins, *COGNITION disorders, *NEUROBEHAVIORAL disorders, *PROTEIN metabolism, *NEUROPROTECTIVE agents, *RILUZOLE, *BRAIN, *COGNITION, *DNA, *HEALTH care teams, *DIGITAL image processing, *NEUROPSYCHOLOGICAL tests, *GENETIC mutation, *NEURORADIOLOGY, *PROGNOSIS, *PROTEINS, *DNA-binding proteins, *ACTIVITIES of daily living, *EXECUTIVE function, *DNA methylation, *FRONTOTEMPORAL dementia, *PSYCHOLOGY, *THERAPEUTICS, BRAIN metabolism
Abstract

Early reports of cognitive and behavioural deficits in motor neuron disease might have been overlooked initially, but the concept of a frontotemporal dementia-motor neuron disease continuum has emerged during the past decade. Frontotemporal dementia-motor neuron disease is now recognised as an important dementia syndrome, which presents substantial challenges for diagnosis and management. Frontotemporal dementia, motor neuron disease, and frontotemporal dementia-motor neuron disease are characterised by overlapping patterns of TAR DNA binding protein (TDP-43) pathology, while the chromosome 9 open reading frame 72 (C9orf72) repeat expansion is common across the disease spectrum. Indeed, the C9orf72 repeat expansion provides important clues to disease pathogenesis and suggests potential therapeutic targets. Variable diagnostic criteria identify motor, cognitive, and behavioural deficits, but further refinement is needed to define the clinical syndromes encountered in frontotemporal dementia-motor neuron disease. [ABSTRACT FROM AUTHOR]

Published
2016
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184. TDP-43 in the hypoglossal nucleus identifies amyotrophic lateral sclerosis in behavioral variant frontotemporal dementia.

Author

Halliday, Glenda M., Kiernan, Matthew C., Kril, Jillian J., Mito, Remika, Masuda-Suzukake, Masami, Hasegawa, Masato, McCann, Heather, Bartley, Lauren, Dobson-Stone, Carol, Kwok, John B.J., Hornberger, Michael, Hodges, John R., and Tan, Rachel H.

Subjects
*HYPOGLOSSAL nerve, *FRONTOTEMPORAL dementia, *DNA-binding proteins, *BRAIN diseases
Abstract

The hypoglossal nucleus was recently identified as a key brain region in which the presence of TDP-43 pathology could accurately discriminate TDP-43 proteinopathy cases with clinical amyotrophic lateral sclerosis (ALS). The objective of the present study was to assess the hypoglossal nucleus in behavioral variant frontotemporal dementia (bvFTD), and determine whether TDP-43 in this region is associated with clinical ALS. Twenty-nine cases with neuropathological FTLD-TDP and clinical bvFTD that had not been previously assessed for hypoglossal TDP-43 pathology were included in this study. Of these 29 cases, 41% ( n = 12) had a dual diagnosis of bvFTD-ALS at presentation, all 100% ( n = 12) of which demonstrated hypoglossal TDP-43 pathology. Of the 59% ( n = 17) cohort that presented with pure bvFTD, 35% ( n = 6) were identified with hypoglossal TDP-43 pathology. Review of the case files of all pure bvFTD cases revealed evidence of possible or probable ALS in 5 of the 6 hypoglossal-positive cases (83%) towards the end of disease, and this was absent from all cases without such pathology. In conclusion, the present study validates grading the presence of TDP-43 in the hypoglossal nucleus for the pathological identification of bvFTD cases with clinical ALS, and extends this to include the identification of cases with possible ALS at end-stage. [ABSTRACT FROM AUTHOR]

Published
2016
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185. Beyond the temporal pole: limbic memory circuit in the semantic variant of primary progressive aphasia.

Author

Tan, Rachel H., Wong, Stephanie, Kril, Jillian J., Piguet, Olivier, Hornberger, Michael, Hodges, John R., and Halliday, Glenda M.

Subjects
*TEMPORAL lobe, *NEURAL circuitry, *SEMANTICS, *APHASIA, *DISEASE progression, *BRAIN imaging
Abstract

Episodic memory is relatively preserved in semantic dementia, despite hippocampal atrophy. Tan et al. investigate structural degeneration in key components of the Papez memory circuit, and suggest that preservation of crucial relays (hippocampus→mammillary bodies and posterior cingulate→hippocampus) underlies the conservation of episodic memory observed in most patients with semantic dementia.Despite accruing evidence for relative preservation of episodic memory in the semantic variant of primary progressive aphasia (previously semantic dementia), the neural basis for this remains unclear, particularly in light of their well-established hippocampal involvement. We recently investigated the Papez network of memory structures across pathological subtypes of behavioural variant frontotemporal dementia and demonstrated severe degeneration of all relay nodes, with the anterior thalamus in particular emerging as crucial for intact episodic memory. The present study investigated the status of key components of Papez circuit (hippocampus, mammillary bodies, anterior thalamus, cingulate cortex) and anterior temporal cortex using volumetric and quantitative cell counting methods in pathologically-confirmed cases with semantic variant of primary progressive aphasia (n = 8; 61–83 years; three males), behavioural variant frontotemporal dementia with TDP pathology (n = 9; 53–82 years; six males) and healthy controls (n = 8, 50–86 years; four males). Behavioural variant frontotemporal dementia cases with TDP pathology were selected because of the association between the semantic variant of primary progressive aphasia and TDP pathology. Our findings revealed that the semantic variant of primary progressive aphasia and behavioural variant frontotemporal dementia show similar degrees of anterior thalamic atrophy. The mammillary bodies and hippocampal body and tail were preserved in the semantic variant of primary progressive aphasia but were significantly atrophic in behavioural variant frontotemporal dementia. Importantly, atrophy in the anterior thalamus and mild progressive atrophy in the body of the hippocampus emerged as the main memory circuit regions correlated with increasing dementia severity in the semantic variant of primary progressive aphasia. Quantitation of neuronal populations in the cingulate cortices confirmed the selective loss of anterior cingulate von Economo neurons in behavioural variant frontotemporal dementia. We also show that by end-stage these neurons selectively degenerate in the semantic variant of primary progressive aphasia with preservation of neurons in the posterior cingulate cortex. Overall, our findings demonstrate for the first time, severe atrophy, although not necessarily neuronal loss, across all relay nodes of Papez circuit with the exception of the mammillary bodies and hippocampal body and tail in the semantic variant of primary progressive aphasia. Despite the longer disease course in the semantic variant of primary progressive aphasia compared with behavioural variant frontotemporal dementia, we suggest here that the neural preservation of crucial memory relays (hippocampal→mammillary bodies and posterior cingulate→hippocampus) likely reflects the conservation of specific episodic memory components observed in most patients with semantic variant of primary progressive aphasia. [ABSTRACT FROM AUTHOR]

Published
2014
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186. Biomarker discovery and development for frontotemporal dementia and amyotrophic lateral sclerosis.

Author

Katzeff, Jared S., Bright, Fiona, Phan, Katherine, Kril, Jillian J., Ittner, Lars M., Kassiou, Michael, Hodges, John R., Piguet, Olivier, Kiernan, Matthew C., Halliday, Glenda M., and Kim, Woojin Scott

Abstract

Frontotemporal dementia refers to a group of neurodegenerative disorders characterized by behaviour and language alterations and focal brain atrophy. Amyotrophic lateral sclerosis is a rapidly progressing neurodegenerative disease characterized by loss of motor neurons resulting in muscle wasting and paralysis. Frontotemporal dementia and amyotrophic lateral sclerosis are considered to exist on a disease spectrum given substantial overlap of genetic and molecular signatures. The predominant genetic abnormality in both frontotemporal dementia and amyotrophic lateral sclerosis is an expanded hexanucleotide repeat sequence in the C9orf72 gene. In terms of brain pathology, abnormal aggregates of TAR-DNA-binding protein-43 are predominantly present in frontotemporal dementia and amyotrophic lateral sclerosis patients. Currently, sensitive and specific diagnostic and disease surveillance biomarkers are lacking for both diseases. This has impeded the capacity to monitor disease progression during life and the development of targeted drug therapies for the two diseases. The purpose of this review is to examine the status of current biofluid biomarker discovery and development in frontotemporal dementia and amyotrophic lateral sclerosis. The major pathogenic proteins implicated in different frontotemporal dementia and amyotrophic lateral sclerosis molecular subtypes and proteins associated with neurodegeneration and the immune system will be discussed. Furthermore, the use of mass spectrometry-based proteomics as an emerging tool to identify new biomarkers in frontotemporal dementia and amyotrophic lateral sclerosis will be summarized. [ABSTRACT FROM AUTHOR]

Published
2022
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187. Globular glial tauopathy with a mutation in MAPT and unusual TDP-43 proteinopathy in a patient with behavioural-variant frontotemporal dementia.

Author

Forrest, Shelley L., Shepherd, Claire E., McCann, Heather, Kwok, John B., Halliday, Glenda M., and Kril, Jillian J.

Subjects
*FRONTOTEMPORAL dementia, *PYRAMIDAL neurons
Abstract

Neuronal loss and gliosis were observed in most regions examined, and were most prominent in the superior frontal, inferior temporal and anterior cingulate cortices, caudate nucleus, amygdala, substantia nigra and locus coeruleus. The formalin-fixed brain (1175 g) revealed frontotemporal atrophy, white matter loss, lateral ventricle dilatation and flattening of the caudate nucleus. The fourth, a patient with sporadic GGT Type I with widespread TDP-43 neuronal and oligodendroglial pathology, which had similar regional distribution as tau pathology [[6]]. Two additional GGT patients (Type III) with mutations in I MAPT i are held by Sydney Brain Bank [[3]] and coexisting TDP-43 pathology consistent with LATE stage 2 was found in one with a P301L mutation. [Extracted from the article]

Published
2021
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188. Defining early changes in Alzheimer's disease from RNA sequencing of brain regions differentially affected by pathology.

Author

Guennewig, Boris, Lim, Julia, Marshall, Lee, McCorkindale, Andrew N., Paasila, Patrick J., Patrick, Ellis, Kril, Jillian J., Halliday, Glenda M., Cooper, Antony A., and Sutherland, Greg T.

Subjects
*ALZHEIMER'S disease, *NUCLEOTIDE sequence, *DISEASE progression, *GENE expression, *VISUAL cortex
Abstract

Tau pathology in Alzheimer's disease (AD) spreads in a predictable pattern that corresponds with disease symptoms and severity. At post-mortem there are cortical regions that range from mildly to severely affected by tau pathology and neuronal loss. A comparison of the molecular signatures of these differentially affected areas within cases and between cases and controls may allow the temporal modelling of disease progression. Here we used RNA sequencing to explore differential gene expression in the mildly affected primary visual cortex and moderately affected precuneus of ten age-, gender- and RNA quality-matched post-mortem brains from AD patients and healthy controls. The two regions in AD cases had similar transcriptomic signatures but there were broader abnormalities in the precuneus consistent with the greater tau load. Both regions were characterised by upregulation of immune-related genes such as those encoding triggering receptor expressed on myeloid cells 2 and membrane spanning 4-domains A6A and milder changes in insulin/IGF1 signalling. The precuneus in AD was also characterised by changes in vesicle secretion and downregulation of the interneuronal subtype marker, somatostatin. The 'early' AD transcriptome is characterised by perturbations in synaptic vesicle secretion on a background of neuroimmune dysfunction. In particular, the synaptic deficits that characterise AD may begin with the somatostatin division of inhibitory neurotransmission. [ABSTRACT FROM AUTHOR]

Published
2021
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189. Altered serum protein levels in frontotemporal dementia and amyotrophic lateral sclerosis indicate calcium and immunity dysregulation.

Author

Katzeff, Jared S., Bright, Fiona, Lo, Kitty, Kril, Jillian J., Connolly, Angela, Crossett, Ben, Ittner, Lars M., Kassiou, Michael, Loy, Clement T., Hodges, John R., Piguet, Olivier, Kiernan, Matthew C., Halliday, Glenda M., and Kim, Woojin Scott

Subjects
*BLOOD proteins, *FRONTOTEMPORAL dementia, *AMYOTROPHIC lateral sclerosis, *PROTEOMICS, *PROTEINS
Abstract

Frontotemporal dementia (FTD) and amyotrophic lateral sclerosis (ALS) are neurodegenerative diseases that are considered to be on the same disease spectrum because of overlapping genetic, pathological and clinical traits. Changes in serum proteins in FTD and ALS are poorly understood, and currently no definitive biomarkers exist for diagnosing or monitoring disease progression for either disease. Here we applied quantitative discovery proteomics to analyze protein changes in FTD (N = 72) and ALS (N = 28) patient serum compared to controls (N = 22). Twenty three proteins were significantly altered in FTD compared to controls (increased—APOL1, C3, CTSH, EIF5A, MYH2, S100A8, SUSD5, WDR1; decreased—C1S, C7, CILP2, COMP, CRTAC1, EFEMP1, FBLN1, GSN, HSPG2, IGHV1, ITIH2, PROS1, SHBG, UMOD, VASN) and 14 proteins were significantly altered in ALS compared to controls (increased—APOL1, CKM, CTSH, IGHG1, IGKC, MYH2; decreased—C7, COMP, CRTAC1, EFEMP1, FBLN1, GSN, HSPG2, SHBG). There was substantial overlap in the proteins that were altered in FTD and ALS. These results were validated using western blotting. Gene ontology tools were used to assess functional pathways potentially dysregulated in the two diseases, and calcium ion binding and innate immunity pathways were altered in both diseases. When put together, these results suggest significant overlap in pathophysiological peripheral changes in FTD and ALS. This study represents the first proteomics side-by-side comparison of serum changes in FTD and ALS, providing new insights into under-recognized perturbed pathways and an avenue for biomarker development for FTD and ALS. [ABSTRACT FROM AUTHOR]

Published
2020
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190. Targeting 14-3-3θ-mediated TDP-43 pathology in amyotrophic lateral sclerosis and frontotemporal dementia mice.

Author

Ke, Yazi D., van Hummel, Annika, Au, Carol, Chan, Gabriella, Lee, Wei Siang, van der Hoven, Julia, Przybyla, Magdalena, Deng, Yuanyuan, Sabale, Miheer, Morey, Nicolle, Bertz, Josefine, Feiten, Astrid, Ippati, Stefania, Stevens, Claire H., Yang, Shu, Gladbach, Amadeus, Haass, Nikolas K., Kril, Jillian J., Blair, Ian P., and Delerue, Fabien

Subjects
*FRONTOTEMPORAL dementia, *AMYOTROPHIC lateral sclerosis, *PATHOLOGY, *PATHOLOGICAL physiology, *MICE, *GENE therapy, *NUCLEAR proteins
Abstract

Amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) are characterized by cytoplasmic deposition of the nuclear TAR-binding protein 43 (TDP-43). Although cytoplasmic re-localization of TDP-43 is a key event in the pathogenesis of ALS/FTD, the underlying mechanisms remain unknown. Here, we identified a non-canonical interaction between 14-3-3θ and TDP-43, which regulates nuclear-cytoplasmic shuttling. Neuronal 14-3-3θ levels were increased in sporadic ALS and FTD with TDP-43 pathology. Pathogenic TDP-43 showed increased interaction with 14-3-3θ, resulting in cytoplasmic accumulation, insolubility, phosphorylation, and fragmentation of TDP-43, resembling pathological changes in disease. Harnessing this increased affinity of 14-3-3θ for pathogenic TDP-43, we devised a gene therapy vector targeting TDP-43 pathology, which mitigated functional deficits and neurodegeneration in different ALS/FTD mouse models expressing mutant or non-mutant TDP-43, including when already symptomatic at the time of treatment. Our study identified 14-3-3θ as a mediator of cytoplasmic TDP-43 localization with implications for ALS/FTD pathogenesis and therapy. [Display omitted] • 14-3-3θ interacts preferentially with pathogenic TDP-43 • Increased neuronal levels of the cytoplasmic 14-3-3θ promote TDP-43 pathology • Degron-mediated reduction of pathogenic TDP-43 improved ALS/FTD models TDP-43 forms neuronal deposits in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) due to unknown causes. Ke et al. identified the TDP-43 interactor 14-3-3θ, which promotes TDP-43 deposition. They devised a treatment harnessing 14-3-3θ's affinity for TDP-43, mitigating deficits and neurodegeneration in ALS/FTD models with implications for future therapy. [ABSTRACT FROM AUTHOR]

Published
2024
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191. CNS cell type-specific gene profiling of P301S tau transgenic mice identifies genes dysregulated by progressive tau accumulation.

Author

Ke, Yazi D., Chan, Gabriella, Stefanoska, Kristie, Au, Carol, Mian Bi, Müller, Julius, Przybyla, Magdalena, Feiten, Astrid, Prikas, Emmanuel, Halliday, Glenda M., Piguet, Olivier, Kiernan, Matthew C., Kassiou, Michael, Hodges, John R., Loy, Clement T., Mattick, John S., Ittner, Arne, Kril, Jillian J., Sutherland, Greg T., and Ittner, Lars M.

Subjects
*NEUROFIBRILLARY tangles, *TRANSGENIC mice, *PROGRESSIVE supranuclear palsy, *CENTRAL nervous system, *FUNCTIONAL genomics, *MICROTUBULE-associated proteins
Abstract

The microtubule-associated protein tau undergoes aberrant modification resulting in insoluble brain deposits in various neurodegenerative diseases, including frontotemporal dementia (FTD), progressive supranuclear palsy, and corticobasal degeneration. Tau aggregates can form in different cell types of the central nervous system (CNS) but are most prevalent in neurons. We have previously recapitulated aspects of human FTD in mouse models by overexpressing mutant human tau in CNS neurons, including a P301S tau variant in TAU58/2 mice, characterized by early-onset and progressive behavioral deficits and FTD-like neuropathology. The molecular mechanisms underlying the functional deficits of TAU58/2 mice remain mostly elusive. Here, we employed functional genomics (i.e. RNAseq) to determine differentially expressed genes in young and aged TAU58/2 mice to identify alterations in cellular processes that may contribute to neuropathy. We identified genes in cortical brain samples differentially regulated between young and old TAU58/2 mice relative to nontransgenic littermates and by comparative analysis with a dataset of CNS cell type-specific genes expressed in nontransgenic mice. Most differentially-regulated genes had known or putative roles in neurons and included presynaptic and excitatory genes. Specifically, we observed changes in presynaptic factors, glutamatergic signaling, and protein scaffolding. Moreover, in the aged mice, expression levels of several genes whose expression was annotated to occur in other brain cell types were altered. Immunoblotting and immunostaining of brain samples from the TAU58/2 mice confirmed altered expression and localization of identified and network-linked proteins. Our results have revealed genes dysregulated by progressive tau accumulation in an FTD mouse model. [ABSTRACT FROM AUTHOR]

Published
2019
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192. Neuroinflammation in frontotemporal dementia.

Author

Bright, Fiona, Werry, Eryn L., Dobson-Stone, Carol, Piguet, Olivier, Ittner, Lars M., Halliday, Glenda M., Hodges, John R., Kiernan, Matthew C., Loy, Clement T., Kassiou, Michael, and Kril, Jillian J.

Subjects
*FRONTOTEMPORAL dementia, *FRONTOTEMPORAL lobar degeneration, *DISEASE progression, *FRACTALKINE, *AUTOIMMUNE diseases, *PROTEIN expression, *NEURODEGENERATION, *BRAIN, *CELLS, *ENCEPHALITIS, *DISEASE complications
Abstract

Frontotemporal dementia (FTD) refers to a group of progressive neurodegenerative disorders with different pathological signatures, genetic variability and complex disease mechanisms, for which no effective treatments exist. Despite advances in understanding the underlying pathology of FTD, sensitive and specific fluid biomarkers for this disease are lacking. As in other types of dementia, mounting evidence suggests that neuroinflammation is involved in the progression of FTD, including cortical inflammation, microglial activation, astrogliosis and differential expression of inflammation-related proteins in the periphery. Furthermore, an overlap between FTD and autoimmune disease has been identified. The most substantial evidence, however, comes from genetic studies, and several FTD-related genes are also implicated in neuroinflammation. This Review discusses specific evidence of neuroinflammatory mechanisms in FTD and describes how advances in our understanding of these mechanisms, in FTD as well as in other neurodegenerative diseases, might facilitate the development and implementation of diagnostic tools and disease-modifying treatments for FTD. [ABSTRACT FROM AUTHOR]

Published
2019
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193. Mouse models of frontotemporal dementia: A comparison of phenotypes with clinical symptomatology.

Author

Ahmed, Rebekah M., Irish, Muireann, van Eersel, Janet, Ittner, Arne, Ke, Yazi D., Volkerling, Alexander, van der Hoven, Julia, Tanaka, Kimi, Karl, Tim, Kassiou, Michael, Kril, Jillian J., Piguet, Olivier, Götz, Jürgen, Kiernan, Matthew C., Halliday, Glenda M., Hodges, John R., and Ittner, Lars M.

Subjects
*FRONTOTEMPORAL dementia, *PHENOTYPES, *SYMPTOMS, *GENETIC mutation, *NEUROLOGICAL disorders
Abstract

Frontotemporal dementia (FTD) is the second most common cause of young onset dementia. It is increasingly recognized that there is a clinical continuum between FTD and amyotrophic lateral sclerosis (ALS). At a clinical, pathological and genetic level there is much heterogeneity in FTD, meaning that our understanding of this condition, pathophysiology and development of treatments has been limited. A number of mouse models focusing predominantly on recapitulating neuropathological and molecular changes of disease have been developed, with most transgenic lines expressing a single specific protein or genetic mutation. Together with the species-typical presentation of functional deficits, this makes the direct translation of results from these models to humans difficult. However, understanding the phenotypical presentations in mice and how they relate to clinical symptomology in humans is essential for advancing translation. Here we review current mouse models in FTD and compare their phenotype to the clinical presentation in patients. [ABSTRACT FROM AUTHOR]

Published
2017
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194. Author Correction: Defining early changes in Alzheimer's disease from RNA sequencing of brain regions differentially affected by pathology.

Author

Guennewig, Boris, Lim, Julia, Marshall, Lee, McCorkindale, Andrew N., Paasila, Patrick J., Patrick, Ellis, Kril, Jillian J., Halliday, Glenda M., Cooper, Antony A., and Sutherland, Greg T.

Subjects
*ALZHEIMER'S disease, *RNA sequencing
Abstract

Correction to: I Scientific Reports i https://doi.org/10.1038/s41598-021-83872-z, published online 01 March 2021 The original version of this Article contained an error in the Data availability section, where the link to the raw data in the Sequence Read Archive (NCBI-SRA) was incorrect. All summary data generated in this study are included in this published article (and supplementary information files). [Extracted from the article]

Published
2023
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195. Distinctive pathological mechanisms involved in primary progressive aphasias.

Author

Leyton, Cristian E., Britton, Anna K., Hodges, John R., Halliday, Glenda M., and Kril, Jillian J.

Subjects
*APHASIA, *NEURODEGENERATION, *NEUROLOGICAL disorders, *DISEASE progression, *COHORT analysis, *CEREBRAL atrophy
Abstract

Primary progressive aphasia (PPA) comprises a heterogeneous group of neurodegenerative conditions that can be classified in three cliniconeuroanatomic syndromes. Limited information exists, however, about patterns of neuropathologic spreading and microscopic changes underpinning each syndrome. We performed an analysis of a longitudinal in vivo cohort and a postmortem PPA cohort to investigate neurodegeneration over time and to quantify microscopic changes in key language brain areas. The longitudinal analyses demonstrated distinctive patterns of topological extension of brain atrophy. Although semantic variant (sv-PPA) showed an eccentric pattern, nonfluent and/or agrammatic (nfv-PPA) and logopenic (lv-PPA) variants showed additional multifocal extension. The quantitative pathology showed that sv-PPA had neuronal loss and thinning in BA 38, whereas nfv-PPA showed thinning in BA 44/45 and evidence of microscopic involvement in BA 40/22. Although lv-PPA showed neuronal loss focused on BA 40/22, imaging results demonstrated widespread left-sided brain atrophy. These analyses provide an account of the pathologic process whereby each variant has stereotypical patterns of brain atrophy extension, which is largely determined by the specific pathologic type. [ABSTRACT FROM AUTHOR]

Published
2016
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196. New criteria for frontotemporal dementia syndromes: clinical and pathological diagnostic implications.

Author

Chare, Leone, Hodges, John R., Leyton, Cristian E., McGinley, Ciara, Tan, Rachel H., Kril, Jillian J., and Halliday, Glenda M.

Subjects
*FRONTOTEMPORAL dementia, *NEUROLOGICAL disorders, *MEDICAL protocols, *DISCRIMINANT analysis, *NEUROPSYCHIATRY, *DIAGNOSIS
Abstract

Objective: To assess the impact of new clinical diagnostic criteria for frontotemporal dementia (FTD) syndromes, including primary progressive aphasias (PPA), on prior clinical diagnosis and to explore clinicopathological correlations. Methods: 178 consecutive neuropathologically ascertained cases initially diagnosed with a FTD syndrome were collected through specialist programmes: the Cambridge Brain Bank, UK, and Sydney Brain Bank, Australia. 135 cases were reclassified using the revised diagnostic criteria into behavioural variant (bvFTD), semantic variant PPA (sv-PPA), non-fluent/agrammatic variant PPA (nfv-PPA) and logopenic variant PPA (lv-PPA). Pathological diagnoses included FTLD-tau, FTLDTDP, FTLD-FUS, FTLD-UPS, FLTD-ni and Alzheimer's disease (AD). Statistical analyses included X² tests, analyses of variance and discriminant statistics. Results: Comparison of the original and revised diagnosis revealed no change in 90% of bvFTD and sv- PPA cases. By contrast, 51% of nfv-PPA cases were reclassified as lv-PPA, with apraxia of speech and sentence repetition assisting in differentiation. Previous patterns of pathology were confirmed, although more AD cases occurred in FTD syndromes (10% bvFTD, ~ 1 5 % sv-PPA and ~ 3 0 % nfv-PPA) than expected. AD was the dominant pathology (77%) of lv-PPA. Discriminant analyses revealed that object agnosia, phonological errors and neuropsychiatric features differentiated AD from FTLD. Conclusions: This study provides pathological validation that the new criteria assist with separating PPA cases with AD pathology into the new lv-PPA syndrome and found that a number of diagnostic clinical features (disinhibition, food preferences and naming) did not assist in discriminating the different FTD syndromes. [ABSTRACT FROM AUTHOR]

Published
2014
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197. Multiple Biological Pathways Link Cognitive Lifestyle to Protection from Dementia

Author

Valenzuela, Michael J., Matthews, Fiona E., Brayne, Carol, Ince, Paul, Halliday, Glenda, Kril, Jillian J., Dalton, Marshall A., Richardson, Kathryn, Forster, Gill, and Sachdev, Perminder S.

Subjects
*COGNITIVE ability, *DEMENTIA risk factors, *ALZHEIMER'S disease, *NEUROLOGICAL disorders, *CEREBROVASCULAR disease, *HISTOLOGY
Abstract

Background: An active cognitive lifestyle is linked to diminished dementia risk, but the underlying mechanisms are poorly understood. Potential mechanisms include disease modification, neuroprotection, and compensation. Prospective, population-based brain series provide the rare opportunity to test the plausibility of these mechanisms in humans. Methods: Participants came from the United Kingdom Medical Research Council Cognitive Function and Ageing Study, comprising 13,004 individuals aged over 65 years and followed for 14 years. In study 1, a Cognitive Lifestyle Score (CLS) was computed on all Cognitive Function and Ageing Study subjects to define low, middle, and high groups. By August 2004, 329 individuals with CLS data had come to autopsy and underwent Consortium to Establish a Registry of Alzheimer''s Disease assessment. Study 2 involved more detailed quantitative histology in the hippocampus and Brodmann area 9 in 72 clinically matched individuals with high and low CLS. Results: CLS groups did not differ on several Alzheimer disease neuropathologic measures; however, high CLS men had less cerebrovascular disease after accounting for vascular risk factors, and women had greater brain weight. No group differences were evident in hippocampal neuronal density. In Brodmann area 9, cognitively active individuals had significantly greater neuronal density, as well as correlated increases in cortical thickness. Conclusions: An active cognitive lifestyle was associated with protection from cerebrovascular disease in men, but there was no evidence for Alzheimer disease modification or hippocampal neuroprotection. Men and women both exhibited neurotrophic changes in the prefrontal lobe linked to cognitive lifestyle, consistent with a compensatory process. Lifespan complex cognitive activity may therefore protect against dementia through multiple biological pathways. [Copyright &y& Elsevier]

Published
2012
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198. The neural basis of semantic memory: Evidence from semantic dementia

Author

Davies, R. Rhys, Halliday, Glenda M., Xuereb, John H., Kril, Jillian J., and Hodges, John R.

Subjects
*MOTOR neuron diseases, *FRONTOTEMPORAL dementia, *MEMORY disorders, *COMPARATIVE studies, *MOTOR cortex, *TEMPORAL lobe
Abstract

Abstract: Semantic dementia (SD) is a syndrome of progressive impairment in semantic memory. Fifty-eight brain regions were measured in seven post mortem SD cases, ten normal controls and two disease controls (diagnosis frontotemporal dementia and motor neuron disease, FTD–MND). Manual segmentation of the whole brain has not previously been undertaken in a series of SD cases, either post mortem or during life. Widespread volume loss relative to controls was found in SD, with anterior temporal lobe regions bearing the brunt (>60% atrophy of temporopolar and perirhinal cortices bilaterally). Comparison of regional volumes in SD and FTD–MND found greater atrophy in SD only in temporopolar and perirhinal volumes. The sole region showing atrophy relative to controls in FTD–MND but not SD was motor cortex. Posterior temporal and frontal regions were not consistently affected and no significant asymmetry of atrophy was found. In summary, whole-brain regional evaluation in SD, in comparison with normal controls and FTD–MND, found anterior temporal atrophy encompassing the perirhinal cortex with relative sparing of adjacent posterior temporal regions. [Copyright &y& Elsevier]

Published
2009
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199. Creating the Pick's disease International Consortium: Association study of MAPT H2 haplotype with risk of Pick's disease.

Author

Valentino RR, Scotton WJ, Roemer SF, Lashley T, Heckman MG, Shoai M, Martinez-Carrasco A, Tamvaka N, Walton RL, Baker MC, Macpherson HL, Real R, Soto-Beasley AI, Mok K, Revesz T, Warner TT, Jaunmuktane Z, Boeve BF, Christopher EA, DeTure M, Duara R, Graff-Radford NR, Josephs KA, Knopman DS, Koga S, Murray ME, Lyons KE, Pahwa R, Parisi JE, Petersen RC, Whitwell J, Grinberg LT, Miller B, Schlereth A, Seeley WW, Spina S, Grossman M, Irwin DJ, Lee EB, Suh E, Trojanowski JQ, Van Deerlin VM, Wolk DA, Connors TR, Dooley PM, Frosch MP, Oakley DH, Aldecoa I, Balasa M, Gelpi E, Borrego-Écija S, de Eugenio Huélamo RM, Gascon-Bayarri J, Sánchez-Valle R, Sanz-Cartagena P, Piñol-Ripoll G, Molina-Porcel L, Bigio EH, Flanagan ME, Gefen T, Rogalski EJ, Weintraub S, Redding-Ochoa J, Chang K, Troncoso JC, Prokop S, Newell KL, Ghetti B, Jones M, Richardson A, Robinson AC, Roncaroli F, Snowden J, Allinson K, Green O, Rowe JB, Singh P, Beach TG, Serrano GE, Flowers XE, Goldman JE, Heaps AC, Leskinen SP, Teich AF, Black SE, Keith JL, Masellis M, Bodi I, King A, Sarraj SA, Troakes C, Halliday GM, Hodges JR, Kril JJ, Kwok JB, Piguet O, Gearing M, Arzberger T, Roeber S, Attems J, Morris CM, Thomas AJ, Evers BM, White CL, Mechawar N, Sieben AA, Cras PP, De Vil BB, De Deyn PPPP, Duyckaerts C, Le Ber I, Seihean D, Turbant-Leclere S, MacKenzie IR, McLean C, Cykowski MD, Ervin JF, Wang SJ, Graff C, Nennesmo I, Nagra RM, Riehl J, Kovacs GG, Giaccone G, Nacmias B, Neumann M, Ang LC, Finger EC, Blauwendraat C, Nalls MA, Singleton AB, Vitale D, Cunha C, Carvalho A, Wszolek ZK, Morris HR, Rademakers R, Hardy JA, Dickson DW, Rohrer JD, and Ross OA

Abstract

Background: Pick's disease (PiD) is a rare and predominantly sporadic form of frontotemporal dementia that is classified as a primary tauopathy. PiD is pathologically defined by argyrophilic inclusion Pick bodies and ballooned neurons in the frontal and temporal brain lobes. PiD is characterised by the presence of Pick bodies which are formed from aggregated, hyperphosphorylated, 3-repeat tau proteins, encoded by the MAPT gene. The MAPT H2 haplotype has consistently been associated with a decreased disease risk of the 4-repeat tauopathies of progressive supranuclear palsy and corticobasal degeneration, however its role in susceptibility to PiD is unclear. The primary aim of this study was to evaluate the association between MAPT H2 and risk of PiD., Methods: We established the Pick's disease International Consortium (PIC) and collected 338 (60.7% male) pathologically confirmed PiD brains from 39 sites worldwide. 1,312 neurologically healthy clinical controls were recruited from Mayo Clinic Jacksonville, FL (N=881) or Rochester, MN (N=431). For the primary analysis, subjects were directly genotyped for MAPT H1-H2 haplotype-defining variant rs8070723. In secondary analysis, we genotyped and constructed the six-variant MAPT H1 subhaplotypes (rs1467967, rs242557, rs3785883, rs2471738, rs8070723, and rs7521)., Findings: Our primary analysis found that the MAPT H2 haplotype was associated with increased risk of PiD (OR: 1.35, 95% CI: 1.12-1.64 P=0.002). In secondary analysis involving H1 subhaplotypes, a protective association with PiD was observed for the H1f haplotype (0.0% vs. 1.2%, P=0.049), with a similar trend noted for H1b (OR: 0.76, 95% CI: 0.58-1.00, P=0.051). The 4-repeat tauopathy risk haplotype MAPT H1c was not associated with PiD susceptibility (OR: 0.93, 95% CI: 0.70-1.25, P=0.65)., Interpretation: The PIC represents the first opportunity to perform relatively large-scale studies to enhance our understanding of the pathobiology of PiD. This study demonstrates that in contrast to its protective role in 4R tauopathies, the MAPT H2 haplotype is associated with an increased risk of PiD. This finding is critical in directing isoform-related therapeutics for tauopathies., Competing Interests: M.A.N. and D.V.’s participation in this project was part of a competitive contract awarded to Data Tecnica International LLC by the National Institutes of Health to support open science research. M.A.N. also currently serves on the scientific advisory board for Character Bio Inc. and Neuron23 Inc.

Published
2023
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200. Glycoprotein Pathways Altered in Frontotemporal Dementia With Autoimmune Disease.

Author

Bright F, Katzeff JS, Hodges JR, Piguet O, Kril JJ, Halliday GM, and Kim WS

Subjects
Aged, Aged, 80 and over, Autoimmune Diseases diagnosis, Autoimmune Diseases epidemiology, Autoimmune Diseases immunology, Biomarkers blood, Female, Frontotemporal Dementia diagnosis, Frontotemporal Dementia epidemiology, Frontotemporal Dementia immunology, Humans, Male, Middle Aged, Prevalence, Adaptive Immunity, Autoimmune Diseases blood, Autoimmunity, Frontotemporal Dementia blood, Glycomics, Glycoproteins blood, Proteome, Proteomics
Abstract

Behavioral variant frontotemporal dementia (bvFTD) is a younger onset form of neurodegeneration initiated in the frontal and/or temporal lobes with a slow clinical onset but rapid progression. bvFTD is highly complex biologically with different pathological signatures and genetic variants that can exhibit a spectrum of overlapping clinical manifestations. Although the role of innate immunity has been extensively investigated in bvFTD, the involvement of adaptive immunity in bvFTD pathogenesis is poorly understood. We analyzed blood serum proteomics to identify proteins that are associated with autoimmune disease in bvFTD. Eleven proteins (increased: ATP5B, CALML5, COLEC11, FCGBP, PLEK, PLXND1; decreased: APOB, ATP8B1, FAM20C, LOXL3, TIMD4) were significantly altered in bvFTD with autoimmune disease compared to those without autoimmune disease. The majority of these proteins were enriched for glycoprotein-associated proteins and pathways, suggesting that the glycome is targeted in bvFTD with autoimmune disease., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Bright, Katzeff, Hodges, Piguet, Kril, Halliday and Kim.)

Published
2021
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