GSE128623 The spinal transcriptome after cortical stroke – In search of molecular factors regulating spontaneous recovery in the spinal cord

In this study, we provide insights into the molecular changes in the spinal cord tissue after large ischemic cortical injury in adult female mice, with a focus on factors that might influence the re-innervation process by contralesional corticospinal neurons. We mapped the area of cervical grey matter re-innervation by sprouting contralesional corticospinal axons after unilateral photothrombotic stroke of the motor cortex in mice using anterograde tracing. The mRNA profile of this re-innervation area was analyzed using whole-genome sequencing to identify differentially expressed genes at selected time points during the recovery process. Bioinformatic analysis revealed two phases of processes: Early after stroke (4-7 days post injury), the spinal transcriptome is characterized by inflammatory processes, including phagocytic processes as well as complement cascade activation. Microglia are specifically activated in the denervated corticospinal projection fields in this early phase. In a later phase (28-42 days post injury), biological processes include tissue repair pathways with up-regulated genes related to neurite outgrowth. Thus, the stroke-denervated spinal grey matter, in particular its intermediate laminae, represents a growth-promoting environment for sprouting corticospinal fibers originating from the contralesional motor cortex. This data set provides a solid starting point for future studies addressing key elements of the post-stroke recovery process, with the goal t...
Source: GEO: Gene Expression Omnibus - Category: Genetics & Stem Cells Tags: Expression profiling by high throughput sequencing Mus musculus Source Type: research