Disarranged neuroplastin environment upon aging and chronic stress recovery in female Sprague Dawley rats

Balog M.; Bla?eti? S.; Ivi? V.Labak I.Krajnik B.Marin R.Canerina-Amaro A.

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Disarranged neuroplastin environment upon aging and chronic stress recovery in female Sprague Dawley rats

机译：Disarranged neuroplastin environment upon aging and chronic stress recovery in female Sprague Dawley rats

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Chronic stress produces long-term metabolic changes throughout the superfamily of nuclear receptors, potentially causing various pathologies. Sex hormones modulate the stress response and generate a sex-specific age-dependent metabolic imprint, especially distinct in the reproductive senescence of females. We monitored chronic stress recovery in two age groups of female Sprague Dawley rats to determine whether stress and/or aging structurally changed the glycolipid microenvironment, a milieu playing an important role in cognitive functions. Old females experienced memory impairment even at basal conditions, which was additionally amplified by stress. On the other hand, the memory of young females was not disrupted. Stress recovery was followed by a microglial decrease and an increase in astrocyte count in the hippocampal immune system. Since dysfunction of the brain immune system could contribute to disturbed synaptogenesis, we analyzed neuroplastin expression and the lipid environment. Neuroplastin microenvironments were explored by analyzing immunofluorescent stainings using a newly developed Python script method. Stress reorganized glycolipid microenvironment in the Cornu Ammonis 1 (CA1) and dentate gyrus (DG) hippocampal regions of old females but in a very different fashion, thus affecting neuroplasticity. The postulation of four possible neuroplastin environments pointed to the GD1a ganglioside enrichment during reproductive senescence of stressed females, as well as its high dispersion in both regions and to GD1a and GM1 loss in the CA1 region. A specific lipid environment might influence neuroplastin functionality and underlie synaptic dysfunction triggered by a combination of aging and chronic stress.

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《The European journal of neuroscience.》 |2022年第10期|2474-2490|共17页
作者
Balog M.; Bla?eti? S.; Ivi? V.Labak I.Krajnik B.Marin R.Canerina-Amaro A.;
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Department of Medical Biology and Genetics, Faculty of Medicine, J. J. Strossmayer University of;

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正文语种英语
中图分类神经病学与精神病学;
关键词
GD1a; GM1; hippocampus; neurodegeneration; neuroinflammation; reproductive senescence;

Disarranged neuroplastin environment upon aging and chronic stress recovery in female Sprague Dawley rats

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