Exosomal Lipid Biomarkers of Oligodendrocyte Pathology to Predict Scoliosis in Children with Cerebral Palsy.

Obstetrics and gynecology research Pub Date : 2023-01-01 Epub Date: 2023-05-22 DOI:10.26502/ogr0127
Nune Darbinian, Emily C Sparks, Armine Darbinyan, Nana Merabova, Tamara Tatevosian-Geller, Katie Calaku, Sarah Bachman, Huaqing Zhao, Shohreh Amini, Laura Goetzl, Solomon P Samuel, Amer Samdani, Michael E Selzer
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Abstract

Introduction: Cerebral Palsy (CP), the most common cause of disability in children, is phenotypically heterogeneous. Approximately 20% of cases develop severe scoliosis. A pathological hallmark of CP is periventricular leukomalacia (PVL), which is due to dysmyelination, suggesting the possibility of a lipidomic abnormality. Risk factors for CP include perinatal hypoxia, prematurity, multiple gestation, ischemia, infection, and maternal alcohol consumption. There is evidence for low serum levels of omega-3 (ω-3) fatty acids in CP patients, and separately in idiopathic scoliosis. Many effects of free fatty acids (FFAs) are mediated via specific G protein-coupled free fatty acid receptors (FFARs), which play essential roles as nutritional and signaling molecules. FFAs, including ω-3, and their receptors are involved in the development and metabolism of oligodendrocytes (OLs), and are critical to myelination. Thus, the cases of CP that will develop severe scoliosis might be those in which there is a deficiency of ω-3, FFARs, or other lipidomic abnormality that is detectable early in the plasma. If so, we might be able to predict scoliosis and prevent it with dietary supplementation.

Methods: Blood samples were collected from four groups of patients at the Philadelphia Shriners Children's Hospital (SCH-P): 1) patients with CP; 2) severe scoliosis (>40o); 3) CP plus scoliosis; and 4) non-impaired controls stratified by age (2-18 yrs), gender, and race/ethnicity, under an IRB-approved protocol. Serum proteins and RNA were purified, and OL-derived exosomes (OL-Es) isolated, using myelin basic protein (MBP) as a late OL marker. Protein was used for the detection of MBP and FFAR by enzyme-linked immunosorbent assays (ELISAs), and by flow cytometry. RNA was assayed by digital droplet polymerase chain reaction (ddPCR) for OL markers and FFAR expression.

Results: FFAR and MBP proteins were downregulated in each of the three patient groups compared to controls, and this difference was greatest in both patients with CP plus scoliosis.

Conclusion: Altogether, MBP and FFAR levels were reduced in OL-Es from both children with CP plus scoliosis. The lipid abnormalities specific to CP with scoliosis were concentrated in OLs. Our data might i) suggest therapeutic targets to reduce dysmyelination and scoliosis in CP, ii) predict which children are at risk for developing scoliosis, iii) lead to therapeutic trials of fatty acids for CP and other dysmyelinating neurological disorders.

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预测脑瘫儿童脊柱侧弯的少突胶质细胞病理学外泌体脂质生物标志物
导言:脑性瘫痪(CP)是导致儿童残疾的最常见原因,其表型具有异质性。约 20% 的病例会出现严重的脊柱侧弯。脑瘫的病理特征之一是脑室周围白斑病(PVL),这是由于髓鞘化障碍所致,提示可能存在脂质体异常。CP的风险因素包括围产期缺氧、早产、多胎妊娠、缺血、感染和母亲饮酒。有证据表明,CP 患者血清中的ω-3(ω-3)脂肪酸水平较低,特发性脊柱侧弯症患者的情况也是如此。游离脂肪酸(FFAs)的许多作用是通过特定的G蛋白偶联游离脂肪酸受体(FFARs)介导的,这些受体作为营养和信号分子发挥着重要作用。包括ω-3在内的游离脂肪酸及其受体参与了少突胶质细胞(OLs)的发育和新陈代谢,对髓鞘化至关重要。因此,会出现严重脊柱侧弯的脊髓灰质炎病例可能是那些缺乏ω-3、FFARs或其他可在血浆中早期检测到的脂质体异常的病例。如果是这样,我们也许就能预测脊柱侧弯,并通过饮食补充预防脊柱侧弯:方法:在费城神职人员儿童医院(SCH-P)采集了四组患者的血样:1)CP 患者;2)严重脊柱侧弯(>40o);3)CP 加脊柱侧弯;4)非受损对照组,按年龄(2-18 岁)、性别和种族/民族进行分类。以髓鞘碱性蛋白(MBP)作为晚期OL标记物,纯化血清蛋白和RNA,并分离OL衍生外泌体(OL-Es)。蛋白质用于通过酶联免疫吸附试验(ELISA)和流式细胞术检测 MBP 和 FFAR。通过数字液滴聚合酶链反应(ddPCR)检测 RNA,以确定 OL 标记和 FFAR 的表达:结果:与对照组相比,FFAR和MBP蛋白在三个患者组中均出现下调,这种差异在CP加脊柱侧凸患者中最大:结论:总而言之,CP 加脊柱侧弯症患儿的 OL-Es 中 MBP 和 FFAR 水平均有所降低。CP合并脊柱侧弯症特有的脂质异常集中在OLs中。我们的数据可能会:(i) 为减少脊髓髓鞘化障碍和脊柱侧弯的治疗目标提供建议;(ii) 预测哪些儿童有患脊柱侧弯的风险;(iii) 引导针对脊髓髓鞘化障碍和其他神经系统疾病的脂肪酸治疗试验。
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