期刊
PEDIATRIC RESEARCH
卷 92, 期 5, 页码 1325-1331出版社
SPRINGERNATURE
DOI: 10.1038/s41390-022-01974-4
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类别
资金
- NIH/NICHD [P01 HD085928]
This study investigates the impact of neonatal exposure to hypoxic-ischemic encephalopathy (HIE) on membrane protein distribution in the cerebellum. The results showed that HIE significantly affects the percentage of L1 cell adhesion molecule in lipid rafts, with no effect from hypothermia treatment. This article explores potential new treatments and addresses the limitations of current treatments for HIE.
Background Hypoxic-ischemic encephalopathy (HIE) is a devastating disease with lifelong disabilities. Hypothermia is currently the only treatment. At term, the neonatal cerebellum may be particularly vulnerable to the effects of HIE. At this time, many developmental processes depend on lipid raft function. These microdomains of the plasma membrane are critical for cellular signaling and axon extension. We hypothesized that HIE alters the protein content of lipid rafts in the cerebellum. Methods Postnatal day (PN) 10 animals, considered human term equivalent, underwent hypoxic-ischemic (HI) injury by a right carotid artery ligation followed by hypoxia. For some animals, LPS was administered on PN7, and hypothermia (HT) was conducted for 4 h post-hypoxia. Lipid rafts were isolated from the right and left cerebella. The percent of total L1 cell adhesion molecule in lipid rafts was determined 4 and 72 h after hypoxia. Results No sex differences were found. HI alone caused significant increases in the percent of L1 in lipid rafts which persisted until 72 h in the right but not the left cerebellum. A small but significant effect of LPS was detected in the left cerebellum 72 h after HI. Hypothermia had no effect. Conclusions Lipid rafts may be a new target for interventions of HIE. Impact This article investigates the effect of neonatal exposure to hypoxic-ischemic encephalopathy (HIE) on the distribution of membrane proteins in the cerebellum. This article explores the effectiveness of hypothermia as a prevention for the harmful effects of HIE on membrane protein distribution. This article shows an area of potential detriment secondary to HIE that persists with current treatments, and explores ideas for new treatments.
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