血管性痴呆的生物标志物:最新进展

Abhijeet Jagtap, Sonal Gawande, Sushil Sharma
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引用次数: 25

摘要

血管性痴呆(VaD)影响广泛的具有各种认知能力下降表现的患者,这可能归因于脑血管或心血管疾病。VaD的诊断取决于环境和遗传风险因素的识别,包括;大脑常染色体显性动脉病伴皮层下梗死和脑白质病。线粒体氧化应激、缺氧缺血、炎症、晚期糖基化产物的积累和促炎细胞因子都与VaD的发病机制有关。因此,通过识别特定的生物标志物来确定危险因素和分子病理学是非常重要的,这些生物标志物大致可分为:生化、分子、遗传、内分泌、解剖、成像和神经病理学;VaD的早期鉴别诊断、预后及有效治疗。血清和脑脊液样本中VaD的生物标志物包括;磷酸化的tau蛋白,淀粉样蛋白-β,基质金属蛋白酶,硫酸脂,白蛋白和促炎c反应蛋白。此外,Charnoly小体(CB)的形成和microrna可以作为线粒体生物能量受损的凋亡前生物标志物,进一步证实VaD。由于脑血管功能不全,在最脆弱的海马神经元中,由于营养应激和/或神经毒性损伤,可通过饮食干预、生理性锌补充和金属硫蛋白(MTs)来减弱CB的形成。MTs通过作为自由基清除剂、维持线粒体氧化还原平衡、抑制CB形成和抑制进行性神经退行性α-突触核蛋白病提供泛素介导的神经保护。MTs还调节锌介导的参与细胞生长、增殖和分化的基因的转录激活,因此可能被用作VaD的新型生物标志物。除了MTs、Notch3、载脂蛋白E4、一氧化氮合酶和大脑常染色体显性动脉病变伴皮质下梗死和脑白质病的遗传分析外;组学和microRNA分析可能为VaD提供新的生物标志物。本文综述了血清和脑脊液样本的体外生物标志物和体内神经成像生物标志物在VaD鉴别诊断和有效临床管理方面的最新进展。
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Biomarkers in vascular dementia: A recent update

Vascular dementia (VaD) affects a broad spectrum of patients with various manifestations of cognitive decline, which could be attributed to cerebrovascular or cardiovascular disease. Diagnosis of VaD depends on the identification of environmental and genetic risk factors including; cerebral autosomal-dominant arteriopathy with subcortical infarcts and leukoencephalopathy. Mitochondrial oxidative stress, hypoxic ischemia, inflammation, accumulation of advanced glycation products, and proinflammatory cytokines have been implicated in the pathogenesis of VaD. Hence it is exceedingly important to determine the risk factors and molecular pathology by identifying specific biomarkers that can be broadly classified as: biochemical, molecular, genetic, endocrinological, anatomical, imaging, and neuropathological; for the early differential diagnosis, prognosis, and effective treatment of VaD. The biomarkers of VaD in the serum and cerebrospinal fluid samples include; phosphorylated tau, amyloid-β, matrix metalloproteases, sulfatids, albumin, and proinflammatory C-reactive proteins. In addition, Charnoly body (CB) formation and microRNAs can be detected as preapoptotic biomarkers of compromised mitochondrial bioenergetics to further confirm VaD. CB formation occurs in response to nutritional stress and/or neurotoxic insult in the most vulnerable hippocampal neurons due to cerebrovascular insufficiency, and can be attenuated by dietary interventions, physiological zinc supplementation, and metallothioneins (MTs). MTs provide ubiquinone-mediated neuroprotection by serving as free radical scavengers, by maintaining the mitochondrial redox balance, by inhibiting CB formation, and by inhibiting progressive neurodegenerative α-synucleinopathies. MTs also regulate zinc-mediated transcriptional activation of genes involved in cell growth, proliferation, and differentiation, and hence may be used as novel biomarkers of VaD. In addition to genetic analysis of MTs, Notch3, apolipoprotein E4, nitric oxide synthase, and cerebral autosomal-dominant arteriopathy with subcortical infarcts and leukoencephalopathy; omics and microRNA analyses may provide novel biomarkers of VaD. This review provides recent update on in-vitro biomarkers from the serum and cerebrospinal fluid samples and in-vivo neuroimaging biomarkers for the differential diagnosis and effective clinical management of VaD.

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