女性糖尿病db/db模型中神经血管单元的超微结构重塑-第一部分:星形胶质细胞

M. Hayden, D. Grant, A. Aroor, V. DeMarco
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引用次数: 19

摘要

肥胖、胰岛素抵抗和2型糖尿病与认知障碍有关,被称为糖尿病性认知障碍。在这项研究中,我们检验了大脑皮层灰质区域内神经血管单位(NVU)表现出异常细胞重塑的假设。单基因(Leprdb)女性糖尿病患者db/db (BKS)。CgDock7m + / + Leprdb / J;采用DBC小鼠模型进行超微结构研究。在牺牲后(20周龄),DBC和年龄匹配的非糖尿病野生型对照C57BL/KsJ (CKC)小鼠的左脑半球立即浸泡固定。我们发现内皮血脑屏障紧密/粘附连接和周细胞衰减/丧失,基底膜增厚,线粒体异常,原生质星形胶质细胞病理性重塑。此外,DBC小鼠存在粘附红细胞和NVU微出血(皮质层III),而CKC动物没有观察到这些。虽然这项研究只代表了“时间快照”,但它确实允许DBC和CKC之间的细胞重塑比较。本文是三篇系列文章中的第一篇,我们报道了NVU及其原生质星形胶质细胞与周围神经细胞的超微结构重塑变化。与CKC模型相比,我们已经确定了DBC中的多种异常细胞重塑变化,我们将设计未来的实验来评估DBC小鼠的各种治疗方式。
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Ultrastructural Remodeling of the Neurovascular Unit in the Female Diabetic db/db Model—Part I: Astrocyte
Obesity, insulin resistance, and type 2 diabetes mellitus are associated with cognitive impairment, known as diabetic cognopathy. In this study, we tested the hypothesis that neurovascular unit(s) (NVU) within cerebral cortical gray matter regions display abnormal cellular remodeling. The monogenic (Leprdb) female diabetic db/db (BKS.CgDock7m +/+Leprdb/J; DBC) mouse model was utilized for this ultrastructural study. Upon sacrifice (at 20 weeks of age), left-brain hemispheres of the DBC and age-matched non-diabetic wild-type control C57BL/KsJ (CKC) mice were immediately immersion-fixed. We found attenuation/loss of endothelial blood–brain barrier tight/adherens junctions and pericytes, thickening of the basement membrane, aberrant mitochondria, and pathological remodeling of protoplasmic astrocytes. Additionally, there were adherent red blood cells and NVU microbleeds (cortical layer III) in DBC mice, which were not observed in CKC animals. While this study represents only a “snapshot in time”, it does allow for cellular remodeling comparisons between DBC and CKC. In this paper, the first of a three-part series, we report the observational ultrastructural remodeling changes of the NVU and its protoplasmic astrocytes in relation to the surrounding neuropil. Having identified multiple abnormal cellular remodeling changes in the DBC as compared to CKC models, we will design future experiments to evaluate various treatment modalities in DBC mice.
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