Human–rat integrated microRNAs profiling identified a new neonatal cerebral hypoxic–ischemic pathway melatonin-sensitive

IF 8.3 1区 医学 Q1 ENDOCRINOLOGY & METABOLISM Journal of Pineal Research Pub Date : 2022-07-16 DOI:10.1111/jpi.12818
Michael D. Weiss, Silvia Carloni, Tania Vanzolini, Sofia Coppari, Walter Balduini, Giuseppe Buonocore, Mariangela Longini, Serafina Perrone, Livia Sura, Atefeh Mohammadi, Marco Bruno Luigi Rocchi, Massimo Negrini, Davide Melandri, Maria Cristina Albertini
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引用次数: 3

Abstract

Neonatal encephalopathy (NE) is a pathological condition affecting long-term neurodevelopmental outcomes. Hypothermia is the only therapeutic option, but does not always improve outcomes; hence, researchers continue to hunt for pharmaceutical compounds. Melatonin treatment has benefitted neonates with hypoxic–ischemic (HI) brain injury. However, unlike animal models that enable the study of the brain and the pathophysiologic cascade, only blood is available from human subjects. Therefore, due to the unavailability of neonatal brain tissue, assumptions about the pathophysiology in pathways and cascades are made in human subjects with NE. We analyzed animal and human specimens to improve our understanding of the pathophysiology in human neonates. A neonate with NE who underwent hypothermia and enrolled in a melatonin pharmacokinetic study was compared to HI rats treated/untreated with melatonin. MicroRNA (miRNA) analyses provided profiles of the neonate's plasma, rat plasma, and rat brain cortexes. We compared these profiles through a bioinformatics tool, identifying Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways common to HI brain injury and melatonin treatment. After evaluating the resulting pathways and the literature, to validate the method, the key proteins expressed in HI brain injury were investigated using cerebral cortexes. The upregulated miRNAs in human neonate and rat plasma helped identify two KEGG pathways, glioma and long-term potentiation, common to HI injury and melatonin treatment. A unified neonatal cerebral melatonin-sensitive HI pathway was designed and validated by assessing the expression of protein kinase Cα (PKCα), phospho (p)-Akt, and p-ERK proteins in rat brain cortexes. PKCα increased in HI-injured rats and further increased with melatonin. p-Akt and p-ERK returned phosphorylated to their basal level with melatonin treatment after HI injury. The bioinformatics analyses validated by key protein expression identified pathways common to HI brain injury and melatonin treatment. This approach helped complete pathways in neonates with NE by integrating information from animal models of HI brain injury.

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人大鼠集成microRNAs分析鉴定了一个新的新生儿脑缺氧缺血途径褪黑素敏感
新生儿脑病(NE)是一种影响长期神经发育结果的病理状况。低温治疗是唯一的治疗选择,但并不总是能改善结果;因此,研究人员继续寻找药物化合物。褪黑素治疗对缺氧缺血性(HI)脑损伤的新生儿有益。然而,与能够研究大脑和病理生理级联的动物模型不同,只有人类受试者的血液可用。因此,由于新生儿脑组织的不可获得性,对NE患者的通路和级联的病理生理进行了假设。我们分析了动物和人类标本,以提高我们对人类新生儿病理生理的理解。研究人员将一名接受低温治疗的新生儿与接受褪黑激素治疗/未接受褪黑激素治疗的HI大鼠进行了比较。MicroRNA (miRNA)分析提供了新生儿血浆、大鼠血浆和大鼠大脑皮层的资料。我们通过生物信息学工具比较了这些资料,确定了HI脑损伤和褪黑激素治疗中常见的京都基因和基因组百科全书(KEGG)途径。在评估结果通路和文献之后,为了验证该方法,我们利用大脑皮层研究了HI脑损伤中表达的关键蛋白。人类新生儿和大鼠血浆中上调的mirna有助于确定两种KEGG通路,胶质瘤和长期增强,这在HI损伤和褪黑激素治疗中很常见。设计了统一的新生儿大脑褪黑素敏感HI通路,并通过评估大鼠大脑皮层中蛋白激酶Cα (PKCα)、磷酸(p)-Akt和p- erk蛋白的表达来验证。PKCα在hi损伤大鼠中升高,并在褪黑激素的作用下进一步升高。在HI损伤后,褪黑激素治疗后,p-Akt和p-ERK的磷酸化水平恢复到基础水平。通过关键蛋白表达验证的生物信息学分析确定了HI脑损伤和褪黑激素治疗的共同途径。该方法通过整合HI脑损伤动物模型的信息,帮助完成新生儿NE的通路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Pineal Research
Journal of Pineal Research 医学-内分泌学与代谢
CiteScore
17.70
自引率
4.90%
发文量
66
审稿时长
1 months
期刊介绍: The Journal of Pineal Research welcomes original scientific research on the pineal gland and melatonin in vertebrates, as well as the biological functions of melatonin in non-vertebrates, plants, and microorganisms. Criteria for publication include scientific importance, novelty, timeliness, and clarity of presentation. The journal considers experimental data that challenge current thinking and welcomes case reports contributing to understanding the pineal gland and melatonin research. Its aim is to serve researchers in all disciplines related to the pineal gland and melatonin.
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