Proteomic Markers in the Muscles and Brain of Pigs Recovered from Hemorrhagic Stroke.
Liliya V FedulovaEkaterina VasilevskayaOlga V TikhonovaLaura KazievaGalina TolmachevaAlexandr MakarenkoPublished in: Genes (2022)
(1) Background: Stroke is the leading cause of serious long-term disability. Walking dysfunction and paresis of the upper extremities occurs in more than 80% of people who have had a stroke. (2) Methods: We studied post-genomic markers in biosamples of muscle and brain tissue from animals that underwent intracerebral hematoma and recovered after 42 days. Our purpose was to understand the biological mechanisms associated with recovery from hemorrhagic stroke. We analyzed the peptides formed after trypsinolysis of samples by HPLC-MS, and the results were processed by bioinformatics methods, including the establishment of biochemical relationships (gene to gene) using topological omics databases such as Reactome and KEGG. (3) Results: In the pig brain, unique compounds were identified which are expressed during the recovery period after traumatic injury. These are molecular factors of activated microglia, and they contribute to the functional recovery of neurons and reduce instances of hematoma, edema, and oxidative stress. Complexes of the main binding factors of the neurotrophins involved in the differentiation and survival of nerve cells were found in muscles. (4) Conclusions: A network of gene interactions has been constructed for proteins involved in the regulation of synaptic transmission, in particular presynaptic vesicular and endocytic processes. The presence of transmitters and transporters associated with stimulation of NMDA receptors at neuromuscular junctions shows the relationship between upper motor neurons and neuromuscular junctions.
Keyphrases
- atrial fibrillation
- cerebral ischemia
- oxidative stress
- copy number
- resting state
- white matter
- genome wide
- multiple sclerosis
- ms ms
- induced apoptosis
- single molecule
- mass spectrometry
- spinal cord
- functional connectivity
- spinal cord injury
- dna damage
- subarachnoid hemorrhage
- neuropathic pain
- cell cycle arrest
- transcription factor
- signaling pathway
- amino acid
- deep learning