Porte Baptiste, Hardouin Julie, Zerdoumi Yasmine, Derambure Céline, Hauchecorne Michèle, Dupre Nicolas, Obry Antoine, Lequerre Thierry, Bekri Soumeya, Gonzalez Bruno, Flaman Jean M, Marret Stéphane, Cosette Pascal, Leroux Philippe
1 INSERM-ERI28, NeoVasc Laboratory, Microvascular Endothelium and Neonate Brain Lesions, Normandie Université, Institute for Research and Innovation in Biomedicine (IRIB), Rouen, France.
2 UMR-6270, CNRS, Polymers, Biopolymers, Surfaces, Biofilm Resistance, Cell Surfaces Interactions Group (PBS), CNRS, IRIB, Normandie Université, Mont-Saint-Aignan, France.
J Cereb Blood Flow Metab. 2017 Feb;37(2):495-513. doi: 10.1177/0271678X16630557. Epub 2016 Jul 21.
Preterm infants born before 29 gestation weeks incur major risk of subependymal/intracerebral/intraventricular hemorrhage. In mice, neonate brain endothelial cells are more prone than adult cells to secrete proteases under glutamate challenge, and invalidation of the Serpine 1 gene is accompanied by high brain hemorrhage risk up to five days after birth. We hypothesized that the structural and functional states of microvessels might account for age-dependent vulnerability in mice up to five days after birth and might represent a pertinent paradigm to approach the hemorrhage risk window observed in extreme preterms. Mass spectrometry proteome analyses of forebrain microvessels at days 5, 10 and in adult mice revealed 899 proteins and 36 enriched pathways. Microarray transcriptomic study identified 5873 genes undergoing at least two-fold change between ages and 93 enriched pathways. Both approaches pointed towards extracellular matrix, cell adhesion and junction pathways, indicating delayed microvascular strengthening after P5. Furthermore, glutamate receptors, proteases and their inhibitors exhibited convergent evolutions towards excitatory aminoacid sensitivity and low proteolytic control likely accounting for vascular vulnerability in P5 mice. Thus, age vascular specificities must be considered in future therapeutic interventions in preterms. Data are available on ProteomeXchange (identifier PXD001718) and NCBI Gene-Expression-Omnibus repository (identification GSE67870).
妊娠29周前出生的早产儿发生室管膜下/脑内/脑室内出血的风险很大。在小鼠中,新生脑内皮细胞在谷氨酸刺激下比成年细胞更容易分泌蛋白酶,丝氨酸蛋白酶抑制剂1(Serpine 1)基因失活会导致出生后五天内脑出血风险升高。我们推测,出生后五天内小鼠微血管的结构和功能状态可能是年龄依赖性易感性的原因,并且可能是研究极早产儿出血风险期的一个相关范例。对出生后第5天、第10天和成年小鼠前脑微血管进行的质谱蛋白质组分析揭示了899种蛋白质和36条富集通路。微阵列转录组研究确定了5873个在不同年龄之间至少有两倍变化的基因和93条富集通路。两种方法都指向细胞外基质、细胞黏附和连接通路,表明出生后第5天微血管强化延迟。此外,谷氨酸受体、蛋白酶及其抑制剂在兴奋性氨基酸敏感性和低蛋白水解控制方面呈现趋同进化,这可能是出生后第5天小鼠血管易损性的原因。因此,在未来对早产儿的治疗干预中必须考虑年龄相关的血管特异性。数据可在ProteomeXchange(标识符PXD001718)和NCBI基因表达综合数据库(标识符GSE67870)中获取。