Endothelin-1 is upregulated after traumatic brain injury: a cross-species, cross-model analysis

Author： Armstead William M Kreipke Christian W

ISSN： 1743-1328

Source： Neurological Research, Vol.33, Iss.2, 2011-03, pp. : 133-136

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Abstract

Objectives: This work was designed to compare levels of endothelin-1 following brain injury in both rat and porcine models of head injury. In a broader sense, this work also determines the feasibility of testing traumatic brain injury-related phenomenology across species and models.Methods: Male Sprague-Dawley rats (400-450 g) were subjected to traumatic brain injury using a weight acceleration impact injury device (n = 5 per group). Following impact, cerebrospinal fluid was collected for enzyme-linked immunosorbent assay analysis of endothelin-1 concentration using a standard endothelin-1 detection kit at 4 hours, 24 hours, 48 hours, and 7 days post-traumatic brain injury. Sham operated animals (n = 5) were used as controls. In another set of experiments, traumatic brain injury was induced in newborn and juvenile pigs (n = 6 per group) using a lateral fluid percussion model of brain injury. Cerebrospinal fluid was collected at 4 hours, 8 hours, 72 hours, and 7 days post-injury and endothelin-1 levels were measured using a radiolabeled kit.Results: Endothelin-1 levels rapidly increased from ∼35 in sham operated animals to over 200 pg/g tissue 4 hours post-impact in both rat cortex and hippocampus. This elevation was sustained through 48 hours post-impact. By 7 days post-injury, endothelin-1 levels returned to normal, control concentrations. This trend was consistent with the porcine model, being more pronounced in newborn versus juvenile pigs.Conclusion: These results show that endothelin-1 peptide concentration elevation is a consistent finding between rat and pig and between weight acceleration and fluid percussion models of traumatic brain injury. This suggests that endothelin-1 elevation is not only a conserved phenomenon in different models of traumatic brain injury, but that it is a likely target for understanding the observed enhanced vascular response to traumatic brain injury and ultimately developing strategies to improve outcome following traumatic brain injury.