Litcius/Paper detail

Temporal brain transcriptome analysis reveals key pathological events after germinal matrix hemorrhage in neonatal rats

Juan Song, Gisela Nilsson, Yiran Xu, Aura Zelco, Eridan Rocha‐Ferreira, Yafeng Wang, Xiaoli Zhang, Shan Zhang, C. Joakim Ek, Henrik Hagberg, Changlian Zhu, Xiaoyang Wang

2022Journal of Cerebral Blood Flow & Metabolism21 citationsDOIOpen Access PDF

Abstract

Germinal matrix hemorrhage (GMH) is a common complication in preterm infants and is associated with high risk of adverse neurodevelopmental outcomes. We used a rat GMH model and performed RNA sequencing to investigate the signaling pathways and biological processes following hemorrhage. GMH induced brain injury characterized by early hematoma and subsequent tissue loss. At 6 hours after GMH, gene expression indicated an increase in mitochondrial activity such as ATP metabolism and oxidative phosphorylation along with upregulation of cytoprotective pathways and heme metabolism. At 24 hours after GMH, the expression pattern suggested an increase in cell cycle progression and downregulation of neurodevelopmental-related pathways. At 72 hours after GMH, there was an increase in genes related to inflammation and an upregulation of ferroptosis. Hemoglobin components and genes related to heme metabolism and ferroptosis such as Hmox1, Alox15, and Alas2 were among the most upregulated genes. We observed dysregulation of processes involved in development, mitochondrial function, cholesterol biosynthesis, and inflammation, all of which contribute to neurodevelopmental deterioration following GMH. This study is the first temporal transcriptome profile providing a comprehensive overview of the molecular mechanisms underlying brain injury following GMH, and it provides useful guidance in the search for therapeutic interventions.

Topics & Concepts

Downregulation and upregulationTranscriptomeHMOX1BiologyInflammationCell biologyBioinformaticsGeneGene expressionHemeHeme oxygenaseImmunologyGeneticsBiochemistryEnzymeEpigenetics and DNA MethylationRNA modifications and cancerPregnancy and preeclampsia studies