| 1. |
- Chatterjee, P., et al.
(författare)
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Plasma metabolites associated with biomarker evidence of neurodegeneration in cognitively normal older adults
- 2021
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Ingår i: Journal of Neurochemistry. - : Wiley. - 0022-3042 .- 1471-4159. ; 159:2, s. 389-402
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Tidskriftsartikel (refereegranskat)abstract
- Alzheimer's disease (AD) is a progressive neurodegenerative disorder that currently has no cure. Identifying biochemical changes associated with neurodegeneration prior to symptom onset, will provide insight into the biological mechanisms associated with neurodegenerative processes, that may also aid in identifying potential drug targets. The current study therefore investigated associations between plasma neurofilament light chain (NF-L), a marker of neurodegeneration, with plasma metabolites that are products of various cellular processes. Plasma NF-L, measured by ultrasensitive Single molecule array (Simoa) technology (Quanterix) and plasma metabolites, measured by mass-spectrometry (AbsoluteIDQ (R) p400HR kit, BIOCRATES), were assessed in the Kerr Anglican Retirement Village Initiative in Ageing Health (KARVIAH) cohort comprising 100 cognitively normal older adults. Metabolites belonging to biogenic amine (creatinine, symmetric dimethylarginine, asymmetric dimethylarginine; ADMA, kynurenine, trans-4-hydroxyproline), amino acid (citrulline, proline, arginine, asparagine, phenylalanine, threonine) and acylcarnitine classes were observed to have positive correlations with plasma NF-L, suggesting a link between neurodegeneration and biological pathways associated with neurotransmitter regulation, nitric oxide homoeostasis, inflammation and mitochondrial function. Additionally, after stratifying participants based on low/high brain amyloid-beta load (A beta +/-) assessed by positron emission tomography, while creatinine, SDMA and citrulline correlated with NF-L in both A beta- and A beta+ groups, ADMA, proline, arginine, asparagine, phenylalanine and acylcarnitine species correlated with NF-L only in the A beta+ group after adjusting for confounding variables, suggesting that the association of these metabolites with neurodegeneration may be relevant to AD-related neuropathology. Metabolites identified to be associated with plasma NF-L may have the potential to serve as prognostic markers for neurodegenerative diseases, however, further studies are required to validate the current findings in an independent cohort, both cross-sectionally and longitudinally.
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| 2. |
- Chatterjee, P., et al.
(författare)
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Serum Hepcidin Levels in Cognitively Normal Older Adults with High Neocortical Amyloid-beta Load
- 2020
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Ingår i: Journal of Alzheimers Disease. - : IOS Press. - 1387-2877 .- 1875-8908. ; 76:1, s. 291-301
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Tidskriftsartikel (refereegranskat)abstract
- Background/Objective: Hepcidin, an iron-regulating hormone, suppresses the release of iron by binding to the iron exporter protein, ferroportin, resulting in intracellular iron accumulation. Given that iron dyshomeostasis has been observed in Alzheimer's disease (AD) together with elevated serum hepcidin levels, the current study examined whether elevated serum hepcidin levels are an early event in AD pathogenesis by measuring the hormone in cognitively normal older adults at risk of AD, based on high neocortical amyloid-beta load (NAL). Methods: Serum hepcidin levels in cognitively normal participants (n = 100) aged between 65-90 years were measured using ELISA. To evaluate NAL, all participants underwent 18F-florbetaben positron emission tomography. A standard uptake value ratio (SUVR)<1.35 was classified as low NAL (n = 65) and >= 1.35 (n = 35) was classified as high NAL. Results: Serum hepcidin was significantly higher in participants with high NAL compared to those with low NAL before and after adjusting for covariates: age, gender, and APOE epsilon 4 carriage (p < 0.05). A receiver operating characteristic curve based on a logistic regression of the same covariates, the base model, distinguished high from low NAL (area under the curve, AUC = 0.766), but was outperformed when serum hepcidin was added to the base model (AUC = 0.794) and further improved with plasma A beta(42/40) ratio (AUC = 0.829). Conclusion: The present findings indicate that serum hepcidin is increased in individuals at risk for AD and contribute to the body of evidence supporting iron dyshomeostasis as an early event of AD. Further, hepcidin may add value to a panel of markers that contribute toward identifying individuals at risk of AD; however, further validation studies are required.
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| 3. |
- Chatterjee, P., et al.
(författare)
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Ultrasensitive Detection of Plasma Amyloid-beta as a Biomarker for Cognitively Normal Elderly Individuals at Risk of Alzheimer's Disease
- 2019
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Ingår i: Journal of Alzheimers Disease. - 1387-2877. ; 71:3, s. 775-783
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Tidskriftsartikel (refereegranskat)abstract
- Background: Aberrant amyloid-beta (A beta) deposition in the brain occurs two decades prior to the manifestation of Alzheimer's disease (AD) clinical symptoms and therefore brain A beta load measured using PET serves as a gold standard biomarker for the early diagnosis of AD. However, the uneconomical nature of PET makes blood markers, that reflect brain A beta deposition, attractive candidates for investigation as surrogate markers. Objective: Investigation of plasma A beta as a surrogate marker for brain A beta deposition in cognitively normal elderly individuals. Methods: Plasma A beta(40) and A beta(42) concentrations were measured using the ultrasensitive Single Molecule Array (Simoa) assay in 95 cognitively normal elderly individuals, who have all undergone PET to assess brain A beta deposition. Based on the standard uptake value ratios (SUVR) obtained from PET imaging, using the tracer F-18-Florbetaben, plasma A beta was compared between 32 participants assessed to have low brain A beta load (A beta-, SUVR <1.35) and 63 assessed to have high brain A beta load (A beta+, SUVR >= 1.35). Results: Plasma A beta(42)/A beta(40) ratios were lower in the A beta+ group compared to the A beta- group. Plasma A beta(40) and A beta(42) levels were not significantly different between A beta- and A beta+ groups, although a trend of higher plasma A beta(40) was observed in the A beta+ group. Additionally, plasma A beta(42)/A beta(40) ratios along with the known AD risk factors, age and APOE epsilon 4 status, resulted in A beta+ participants being distinguished from A beta- participants based on an area under the receiver operating characteristic curve shown to be 78%. Conclusion: Plasma A beta ratios in this study are a potential biomarker for brain A beta deposition and therefore, for preclinical AD. However, this method to measure plasma A beta needs further development to increase the accuracy of this promising AD blood biomarker.
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