Publikation: Major Histocompatibility Complex class I proteins are critical for maintaining neuronal structural complexity in the aging brain
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2016
Autor:innen
Lazarczyk, Maciej J.
Kemmler, Julia E.
Eyford, Brett A.
Short, Jennifer A.
Varghese, Merina
Sowa, Allison
Dickstein, Daniel R.
Yuk, Frank J.
Dickstein, Dara L.
et al.
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Scientific Reports. 2016, 6, 26199. eISSN 2045-2322. Available under: doi: 10.1038/srep26199
Zusammenfassung
Major histocompatibility complex class I (MHCI) proteins have been implicated in neuronal function through the modulation of neuritogenesis, synaptogenesis, synaptic plasticity, and memory consolidation during development. However, the involvement of MHCI in the aged brain is unclear. Here we demonstrate that MHCI deficiency results in significant dendritic atrophy along with an increase in thin dendritic spines and a reduction in stubby spines in the hippocampus of aged (12 month old) mice. Ultrastructural analyses revealed a decrease in spine head diameter and post synaptic density (PSD) area, as well as an increase in overall synapse density, and non-perforated, small spines. Interestingly, we found that the changes in synapse density and morphology appear relatively late (after the age of 6 months). Finally, we found a significant age dependent increase in the levels of the glutamate receptor, GluN2B in aged MHCI knockout mice, with no change in GluA2/3, VGluT1, PSD95 or synaptophysin. These results indicate that MHCI may be also be involved in maintaining brain integrity at post-developmental stages notably in the modulation of neuronal and spine morphology and synaptic function during non-pathological aging which could have significant implications for cognitive function.
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570 Biowissenschaften, Biologie
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LAZARCZYK, Maciej J., Julia E. KEMMLER, Brett A. EYFORD, Jennifer A. SHORT, Merina VARGHESE, Allison SOWA, Daniel R. DICKSTEIN, Frank J. YUK, Marcel LEIST, Dara L. DICKSTEIN, 2016. Major Histocompatibility Complex class I proteins are critical for maintaining neuronal structural complexity in the aging brain. In: Scientific Reports. 2016, 6, 26199. eISSN 2045-2322. Available under: doi: 10.1038/srep26199BibTex
@article{Lazarczyk2016Major-34903,
year={2016},
doi={10.1038/srep26199},
title={Major Histocompatibility Complex class I proteins are critical for maintaining neuronal structural complexity in the aging brain},
volume={6},
journal={Scientific Reports},
author={Lazarczyk, Maciej J. and Kemmler, Julia E. and Eyford, Brett A. and Short, Jennifer A. and Varghese, Merina and Sowa, Allison and Dickstein, Daniel R. and Yuk, Frank J. and Leist, Marcel and Dickstein, Dara L.},
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<dcterms:abstract xml:lang="eng">Major histocompatibility complex class I (MHCI) proteins have been implicated in neuronal function through the modulation of neuritogenesis, synaptogenesis, synaptic plasticity, and memory consolidation during development. However, the involvement of MHCI in the aged brain is unclear. Here we demonstrate that MHCI deficiency results in significant dendritic atrophy along with an increase in thin dendritic spines and a reduction in stubby spines in the hippocampus of aged (12 month old) mice. Ultrastructural analyses revealed a decrease in spine head diameter and post synaptic density (PSD) area, as well as an increase in overall synapse density, and non-perforated, small spines. Interestingly, we found that the changes in synapse density and morphology appear relatively late (after the age of 6 months). Finally, we found a significant age dependent increase in the levels of the glutamate receptor, GluN2B in aged MHCI knockout mice, with no change in GluA2/3, VGluT1, PSD95 or synaptophysin. These results indicate that MHCI may be also be involved in maintaining brain integrity at post-developmental stages notably in the modulation of neuronal and spine morphology and synaptic function during non-pathological aging which could have significant implications for cognitive function.</dcterms:abstract>
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