Your search keyword '"Pieter J. Visser"' showing total 6 results

1. CSF proteins of inflammation, proteolysis and lipid transport define preclinical AD and progression to AD dementia in cognitively unimpaired individuals

Author

Marta del Campo, Carlos Quesada, Lisa Vermunt, Carel F. W. Peeters, Yanaika S. Hok-A-Hin, Calvin Trieu, Anouk den Braber, Inge M. W. Verberk, Pieter J. Visser, Betty M. Tijms, Wiesje M. van der Flier, and Charlotte E. Teunissen

Subjects

Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6

Abstract

Abstract This preclinical AD CSF proteome study identified a panel of 12-CSF markers detecting amyloid positivity and clinical progression to AD with high accuracy; some of these CSF proteins related to immune function, neurotrophic processes, energy metabolism and endolysosomal functioning (e.g., ITGB2, CLEC5A, IGFBP-1, CST3) changed before amyloid positivity is established.

Published

2024

2. Longitudinal cerebrospinal fluid measurements show glial hypo- and hyperactivation in predementia Alzheimer’s disease

Author

Kaja Nordengen, Bjørn-Eivind Kirsebom, Grit Richter, Lene Pålhaugen, Berglind Gísladóttir, Nikias Siafarikas, Arne Nakling, Arvid Rongve, Geir Bråthen, Gøril Rolfseng Grøntvedt, Fernando Gonzalez, Knut Waterloo, Kulbhushan Sharma, Thomas Karikari, Eleonora M. Vromen, Betty M. Tijms, Pieter J. Visser, Per Selnes, Milicia G. Kramberger, Bengt Winblad, Kaj Blennow, and Tormod Fladby

Subjects

Inflammation, Biomarkers, Cerebrospinal fluid, Alzheimer’s disease, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Brain innate immune activation is associated with Alzheimer’s disease (AD), but degrees of activation may vary between disease stages. Thus, brain innate immune activation must be assessed in longitudinal clinical studies that include biomarker negative healthy controls and cases with established AD pathology. Here, we employ longitudinally sampled cerebrospinal fluid (CSF) core AD, immune activation and glial biomarkers to investigate early (predementia stage) innate immune activation levels and biomarker profiles. Methods We included non-demented cases from a longitudinal observational cohort study, with CSF samples available at baseline (n = 535) and follow-up (n = 213), between 1 and 6 years from baseline (mean 2.8 years). We measured Aβ42/40 ratio, p-tau181, and total-tau to determine Ab (A+), tau-tangle pathology (T+), and neurodegeneration (N+), respectively. We classified individuals into these groups: A−/T−/N−, A+/T−/N−, A+/T+ or N+, or A−/T+ or N+. Using linear and mixed linear regression, we compared levels of CSF sTREM2, YKL-40, clusterin, fractalkine, MCP-1, IL-6, IL-1, IL-18, and IFN-γ both cross-sectionally and longitudinally between groups. A post hoc analysis was also performed to assess biomarker differences between cognitively healthy and impaired individuals in the A+/T+ or N+ group. Results Cross-sectionally, CSF sTREM2, YKL-40, clusterin and fractalkine were higher only in groups with tau pathology, independent of amyloidosis (p

Published

2023

3. Amygdalar nuclei and hippocampal subfields on MRI: Test-retest reliability of automated volumetry across different MRI sites and vendors

Author

Giulia Quattrini, Michela Pievani, Jorge Jovicich, Marco Aiello, Núria Bargalló, Frederik Barkhof, David Bartres-Faz, Alberto Beltramello, Francesca B. Pizzini, Olivier Blin, Regis Bordet, Massimo Caulo, Manos Constantinides, Mira Didic, Antonios Drevelegas, Antonio Ferretti, Ute Fiedler, Piero Floridi, Hélène Gros-Dagnac, Tilman Hensch, Karl-Titus Hoffmann, Joost P. Kuijer, Renaud Lopes, Camillo Marra, Bernhard W. Müller, Flavio Nobili, Lucilla Parnetti, Pierre Payoux, Agnese Picco, Jean-Philippe Ranjeva, Luca Roccatagliata, Paolo M. Rossini, Marco Salvatore, Peter Schonknecht, Björn H. Schott, Julien Sein, Andrea Soricelli, Roberto Tarducci, Magda Tsolaki, Pieter J. Visser, Jens Wiltfang, Jill C. Richardson, Giovanni B. Frisoni, and Moira Marizzoni

Subjects

Amygdalar nuclei, Hippocampal subfields, Multicenter MRI study, FreeSurfer, Reliability analysis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: The amygdala and the hippocampus are two limbic structures that play a critical role in cognition and behavior, however their manual segmentation and that of their smaller nuclei/subfields in multicenter datasets is time consuming and difficult due to the low contrast of standard MRI. Here, we assessed the reliability of the automated segmentation of amygdalar nuclei and hippocampal subfields across sites and vendors using FreeSurfer in two independent cohorts of older and younger healthy adults. Methods: Sixty-five healthy older (cohort 1) and 68 younger subjects (cohort 2), from the PharmaCog and CoRR consortia, underwent repeated 3D-T1 MRI (interval 1–90 days). Segmentation was performed using FreeSurfer v6.0. Reliability was assessed using volume reproducibility error (ε) and spatial overlapping coefficient (DICE) between test and retest session. Results: Significant MRI site and vendor effects (p ​0.43, p ​ ​0.80). Conclusion: Our results support the use of volumetric measures of larger amygdalar nuclei and hippocampal subfields in multisite MRI studies. These measures could be useful for disease tracking and assessment of efficacy in drug trials.

Published

2020

4. CSF proteome profiling across the Alzheimer’s disease spectrum reflects the multifactorial nature of the disease and identifies specific biomarker panels

Author

Marta del Campo, Carel F. W. Peeters, Erik C. B. Johnson, Lisa Vermunt, Yanaika S. Hok-A-Hin, Mirrelijn van Nee, Alice Chen-Plotkin, David J. Irwin, William T. Hu, James J. Lah, Nicholas T. Seyfried, Eric B. Dammer, Gonzalo Herradon, Lieke H. Meeter, John van Swieten, Daniel Alcolea, Alberto Lleó, Allan I. Levey, Afina W. Lemstra, Yolande A. L. Pijnenburg, Pieter J. Visser, Betty M. Tijms, Wiesje M. van der Flier, Charlotte E. Teunissen, RS: MHeNs - R1 - Cognitive Neuropsychiatry and Clinical Neuroscience, Psychology 6, Laboratory Medicine, Amsterdam Neuroscience - Neurodegeneration, Amsterdam Neuroscience - Cellular & Molecular Mechanisms, Neurology, Amsterdam Neuroscience - Brain Imaging, Amsterdam Neuroscience - Neuroinfection & -inflammation, APH - Methodology, and APH - Personalized Medicine

Subjects

NATIONAL INSTITUTE, Aging, DEMENTIA, Neuroscience (miscellaneous), DIAGNOSIS, Wiskundige en Statistische Methoden - Biometris, LEWY BODIES, RECOMMENDATIONS, RESEARCH CRITERIA, DISCOVERY, MANAGEMENT, Life Science, TAU, Geriatrics and Gerontology, Mathematical and Statistical Methods - Biometris, A-BETA

Abstract

Development of disease-modifying therapies against Alzheimer's disease (AD) requires biomarkers reflecting the diverse pathological pathways specific for AD. We measured 665 proteins in 797 cerebrospinal fluid (CSF) samples from patients with mild cognitive impairment with abnormal amyloid (MCI(A beta+): n = 50), AD-dementia (n = 230), non-AD dementias (n = 322) and cognitively unimpaired controls (n = 195) using proximity ligation-based immunoassays. Here we identified >100 CSF proteins dysregulated in MCI(A beta+) or AD compared to controls or non-AD dementias. Proteins dysregulated in MCI(A beta+) were primarily related to protein catabolism, energy metabolism and oxidative stress, whereas those specifically dysregulated in AD dementia were related to cell remodeling, vascular function and immune system. Classification modeling unveiled biomarker panels discriminating clinical groups with high accuracies (area under the curve (AUC): 0.85-0.99), which were translated into custom multiplex assays and validated in external and independent cohorts (AUC: 0.8-0.99). Overall, this study provides novel pathophysiological leads delineating the multifactorial nature of AD and potential biomarker tools for diagnostic settings or clinical trials.This study identifies CSF proteins specifically dysregulated along the AD continuum that reflect the multifactorial nature of disease progression. Some of these CSF proteins were used to build biomarker panels with high diagnostic accuracies.

Published

2022

5. Predicting progression to Alzheimer's disease with human hippocampal progenitors exposed to serum

Author

Aleksandra Maruszak, Edina Silajdžić, Hyunah Lee, Tytus Murphy, Benjamine Liu, Liu Shi, Chiara de Lucia, Abdel Douiri, Evgenia Salta, Alejo J Nevado, Charlotte E Teunissen, Pieter J Visser, Jack Price, Henrik Zetterberg, Simon Lovestone, Sandrine Thuret, RS: MHeNs - R1 - Cognitive Neuropsychiatry and Clinical Neuroscience, Psychology 6, Netherlands Institute for Neuroscience (NIN), Neurochemistry Laboratory, Amsterdam Neuroscience - Neurodegeneration, Amsterdam Neuroscience - Neuroinfection & -inflammation, and Neurology

Subjects

MILD COGNITIVE IMPAIRMENT, PROGNOSIS, IMPACT, hippocampal progenitors, BIOMARKERS, Alzheimer's disease, DIAGNOSIS, APOPTOSIS, GENOTYPE, NEUROGENESIS, neurogenesis, MARKERS, HYBRIDOMA, Neurology (clinical), prognostic biomarker, Alzheimer’s disease

Abstract

Adult hippocampal neurogenesis is important for learning and memory and is altered early in Alzheimer's disease. As hippocampal neurogenesis is modulated by the circulatory systemic environment, evaluating a proxy of how hippocampal neurogenesis is affected by the systemic milieu could serve as an early biomarker for Alzheimer's disease progression. Here, we used an in vitro assay to model the impact of systemic environment on hippocampal neurogenesis. A human hippocampal progenitor cell line was treated with longitudinal serum samples from individuals with mild cognitive impairment, who either progressed to Alzheimer's disease or remained cognitively stable. Mild cognitive impairment to Alzheimer's disease progression was characterized most prominently with decreased proliferation, increased cell death and increased neurogenesis. A subset of 'baseline' cellular readouts together with education level were able to predict Alzheimer's disease progression. The assay could provide a powerful platform for early prognosis, monitoring disease progression and further mechanistic studies.Adult hippocampal neurogenesis is altered early in the course of Alzheimer's disease. Maruszak et al. show that serum from patients with MCI who do versus do not progress to Alzheimer's disease differentially affects the fate of hippocampal stem cells in vitro, suggesting that this assay could help predict disease progression.

Published

2023

6. Post-GWAS multiomic functional investigation of theTNIP1locus in Alzheimer’s disease implicates mediation throughGPX3

Author

Daniel J. Panyard, Lianne M. Reus, Muhammad Ali, Jihua Liu, Yuetiva K. Deming, Qiongshi Lu, Gwendlyn Kollmorgen, Ivonne Suridjan, Norbert Wild, Pieter J. Visser, Lars Bertram, Henrik Zetterberg, Kaj Blennow, Johan Gobom, Dan Western, Yun Ju Sung, Cynthia M. Carlsson, Sterling C. Johnson, Sanjay Asthana, Carlos Cruchaga, Betty M. Tijms, Corinne D. Engelman, and Michael P. Snyder

Abstract

The recently reportedTNIP1/GPX3locus from AD GWAS studies was investigated. Using proteomics and other functional omics data, we identified evidence for a functional mechanism linking variants in this locus to decreased CSF GPX3 levels as AD progresses, suggesting a new potential target for intervention.

Published

2022