丁丙诺啡对小鼠轻度脑损伤后内质网应激、异常蛋白质积累和细胞损失的性别特异性影响。

IF 1.8 Q3 CLINICAL NEUROLOGY
Neurotrauma reports Pub Date : 2023-08-30 eCollection Date: 2023-01-01 DOI:10.1089/neur.2023.0051
Megan B Faulkner, Mariam Rizk, Zahraa Bazzi, Robert C Dysko, Zhi Zhang
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引用次数: 0

摘要

儿童创伤性脑损伤(TBI)通常会导致发育不良,这归因于继发性损伤(包括内质网应激)引起的进行性细胞损失。丁丙诺啡(BPN)通常用于儿童疼痛管理;然而,在儿科人群中,BPN对ER应激的影响仍然没有定论。本研究在儿童TBI小鼠撞击加速模型中研究了BPN对ER应激、异常蛋白质积累和细胞损失的性别特异性影响。在产后第20-21天(P20-21),将同窝出生的男性和女性随机分为假手术组、TBI+生理盐水组和TBI+BPN组。BPN(0.075 mg/kg)在30 受伤后分钟,然后每6-12 h,持续2天。在损伤后1、3和7天评估BPN的影响。我们发现,与雌性相比,TBI在雄性损伤后1天和3天诱导了更显著的ER应激通路激活,而与雄性相比,雌性损伤后7天的异常蛋白质积累和细胞损失更严重。尽管BPN部分改善了雄性和雌性的异常蛋白质积累和细胞损失,但BPN只降低了雄性的ER应激途径激活,而不是雌性。总之,在儿童TBI后的急性期,BPN以时间依赖的方式对ER应激、异常蛋白质积累和细胞损失表现出性别特异性影响,这为评估BPN对儿童TBI(男性和女性)后长期结果的潜在影响提供了依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sex-Specific Effects of Buprenorphine on Endoplasmic Reticulum Stress, Abnormal Protein Accumulation, and Cell Loss After Pediatric Mild Traumatic Brain Injury in Mice.

Sex-Specific Effects of Buprenorphine on Endoplasmic Reticulum Stress, Abnormal Protein Accumulation, and Cell Loss After Pediatric Mild Traumatic Brain Injury in Mice.

Sex-Specific Effects of Buprenorphine on Endoplasmic Reticulum Stress, Abnormal Protein Accumulation, and Cell Loss After Pediatric Mild Traumatic Brain Injury in Mice.

Sex-Specific Effects of Buprenorphine on Endoplasmic Reticulum Stress, Abnormal Protein Accumulation, and Cell Loss After Pediatric Mild Traumatic Brain Injury in Mice.

Traumatic brain injury (TBI) in children often leads to poor developmental outcomes attributable to progressive cell loss caused by secondary injuries, including endoplasmic reticulum (ER) stress. Buprenorphine (BPN) is commonly used in children for pain management; however, the effects of BPN on ER stress in the pediatric population are still inconclusive. This study investigated the sex-specific effects of BPN on ER stress, abnormal protein accumulation, and cell loss in a mouse impact acceleration model of pediatric TBI. On post-natal day 20-21 (P20-21), male and female littermates were randomized into sham, TBI + saline and TBI + BPN groups. BPN (0.075 mg/kg) was administered to TBI + BPN mice at 30 min after injury and then every 6-12 h for 2 days. The impact of BPN was evaluated at 1, 3, and 7 days post-injury. We found that TBI induced more prominent ER stress pathway activation at 1 and 3 days post-injury in males, compared to females, whereas abnormal protein accumulation and cell loss were more severe in females at 7 days post-injury, compared with males. Although BPN partially ameliorated abnormal protein accumulation and cell loss in both males and females, BPN only decreased ER stress pathway activation in males, not in females. In conclusion, BPN exhibits sex-specific effects on ER stress, abnormal protein accumulation, and cell loss in a time-dependent manner at the acute phase after pediatric TBI, which provides the rationale to assess the potential effects of BPN on long-term outcomes after pediatric TBI in both males and females.

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