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Extracellular Vesicles as a Link Between Placental and Renal Dysfunction in Preeclampsia

细胞外囊泡作为先兆子痫胎盘和肾功能障碍之间的联系

基本信息

批准号：
10675564
负责人：
Priyadarshini Pantham
金额：
$ 24.9万
依托单位：
UNIVERSITY OF CALIFORNIA, SAN DIEGO
依托单位国家：
美国
项目类别：
财政年份：
2021
资助国家：
美国
起止时间：
2021-09-30 至 2024-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10675564
关键词：
Acute Renal Failure with Renal Papillary Necrosis Affect Apoptosis Biological Biological Markers Biology Brain Cells Characteristics Childbirth Chromosomes Circulation Clinical Clinical Research Coupled Data Developed Countries Development Diagnosis Disease Disease Pathway Ductal Epithelial Cell Epithelial Cells Etiology Excretory function Fetal Mortality Statistics Functional disorder Genetic Transcription Gestational Age Goals Health Care Costs High Performance Computing Human Hypertension Hypoxia Immune response Immunohistochemistry In Vitro Incidence Injury Kidney Kidney Diseases Libraries Link Lipids Liver Lung Machine Learning Maternal Mortality Mentors Messenger RNA Methods MicroRNAs Molecular Molecular Disease Morbidity - disease rate Multiple Organ Failure Mus Nephrons Nucleic Acids Organ Pathogenesis Pathologic Pathology Phase Placenta Play Population Population Heterogeneity Pre-Eclampsia Pregnancy Process Proteins Proteinuria RNA Research Role Sampling Small RNA Source Stress Syndrome Techniques Technology Testing Tissues Transcript Tubular formation Urine Woman absorption associated symptom biobank biomarker identification cell injury cell type clinically relevant early onset endothelial dysfunction experimental study extracellular vesicles global health improved innovation kidney dysfunction maternal serum mortality multidisciplinary neonatal morbidity novel personalized medicine pregnancy disorder premature prevent response stillbirth therapeutic target transcriptome transcriptome sequencing transcriptomic profiling transcriptomics uptake urinary

项目摘要

PROJECT SUMMARY Preeclampsia (PE) is a devastating hypertensive disorder of pregnancy that is a leading cause of maternal and fetal mortality and morbidity worldwide. It affects 2-10% of women and accounts for 16% of maternal deaths related to childbirth in developed countries. PE is difficult to study because it is a multifactorial disorder with varying molecular mechanisms associated with the development of the spectrum of clinical symptoms associated with early onset, late onset, and severe PE. A personalized medicine approach applied to dissecting the underlying mechanisms of PE may be beneficial to reduce clinical incidence of this devastating syndrome. The placenta plays a key role in the development of PE, leading to widespread maternal endothelial dysfunction, hypertension, and systemic multi-organ failure in PE. Extracellular vesicles (EVs) containing protein, RNA, and lipid cargo are continuously extruded from the placenta, and are capable of interacting with maternal organs including the kidney. PE is primarily associated with placental and renal dysfunction, and PE is the most common cause of acute kidney injury during pregnancy. However, no studies have investigated the potential of placenta-derived RNA cargo as a link between placental and renal dysfunction in PE. Urinary EVs are derived from multiple tissue types and represent a trove of biomarkers that are increasingly being utilized to diagnose renal disorders. Further, urine samples can be obtained throughout pregnancy non-invasively and could potentially be utilized to identify biomarkers related to placental dysfunction in PE. In the proposed research, during the mentored phase, cutting-edge RNA-Seq technology coupled with computational biological and machine learning approaches will be applied to profile the transcriptome of urinary EVs in women with PE compared to normal pregnancy. Preliminary data indicates that it is possible to isolate and profile the transcriptome of urinary EVs from maternal urine throughout normal gestation, and that placenta-derived and placenta-specific mRNA and miRNA can be detected within the urinary EV population. This presents a novel technique that has potential to identify biomarkers as well as provide information on placental dysfunction in PE in a non-invasive manner. During the independent phase, the candidate will utilize an in vitro approach to investigate the effect of uptake of placenta-derived EVs with miRNA cargo associated with PE on the function of proximal tubule epithelial cells and cortical collecting duct cells. These two renal-specific cell types are involved in tubular reabsorption in the nephron, a process that is compromised leading to increased excretion of protein in the urine in some preeclamptic pregnancies. This proposal is multidisciplinary, utilizing basic biology, clinical research, and high-performance computing applied to investigating placental dysfunction in PE. These experiments are significant because they will generate novel information on the role of placenta- derived EVs in renal dysfunction in PE, as well as point the way towards preventative and therapeutic targets that may be transformative and clinically relevant.

项目总结子痫前期(PE)是一种破坏性的妊娠期高血压疾病，是导致母婴死亡的主要原因。世界各地的胎儿死亡率和发病率。它影响2-10%的妇女，占孕产妇死亡的16% 与发达国家的分娩有关。PE很难研究，因为它是一种多因素的疾病与临床症状谱的发展相关的不同分子机制与早发、晚发和严重的PE有关。个性化医疗方法应用于剖析PE的潜在机制可能有助于减少这种破坏性的临床发生率。综合症。胎盘在PE的发生发展中起关键作用，导致广泛的母体内皮细胞 PE的功能障碍、高血压和全身性多器官衰竭。细胞外小泡(EVS)包含蛋白质、核糖核酸和脂类物质从胎盘持续挤出，并能够与包括肾脏在内的母体器官。PE主要与胎盘和肾功能障碍有关，而PE 是妊娠期间急性肾损伤的最常见原因。然而，还没有研究调查胎盘来源的RNA货物作为PE患者胎盘和肾功能障碍之间的联系的可能性。尿液电动车来自多种组织类型，代表着越来越多地被利用的生物标志物的宝库来诊断肾脏疾病。此外，可以在怀孕期间无创地获取尿样，并可能被用于识别与PE胎盘功能障碍相关的生物标志物。在建议的在指导阶段，研究尖端RNA-Seq技术与计算生物学相结合并将应用机器学习方法来描述患有PE的女性尿液EVS的转录组与正常妊娠相比。初步数据表明，有可能分离和剖析正常妊娠期间母体尿液中EV的转录组，胎盘来源和在尿液EV人群中可以检测到胎盘特异的mRNA和miRNA。这是一部小说一种有可能识别生物标志物并提供有关胎盘功能障碍的信息的技术以非侵入性的方式进行PE。在独立阶段，候选人将利用体外方法探讨携带miRNA载体的胎盘来源的EV与PE相关的功能的影响近端小管上皮细胞和皮质集合管细胞。这两种肾脏特异性细胞类型是参与肾单位的肾小管重吸收，这一过程受到损害，导致排泄增加一些先兆子痫孕妇尿液中蛋白质的含量。这项建议是多学科的，利用基本的生物学、临床研究和高性能计算应用于研究胎盘功能障碍佩。这些实验意义重大，因为它们将产生关于胎盘作用的新信息-- 衍生的EVS在PE中的肾功能障碍，以及为预防和治疗目标指明了方向这可能具有变革性和临床相关性。