IMPACT OF ABCC8 AND TRPM4 GENETIC VARIATION IN CENTRAL NERVOUS SYSTEM DYSFUNCTION ASSOCIATED WITH PEDIATRIC SEPSIS.

IF 2.7 3区 医学 Q2 CRITICAL CARE MEDICINE
SHOCK Pub Date : 2024-11-01 Epub Date: 2024-09-03 DOI:10.1097/SHK.0000000000002457
Kate F Kernan, Ashley Adkins, Ruchira M Jha, Patrick M Kochanek, Joseph A Carcillo, Robert A Berg, David Wessel, Murray M Pollack, Kathleen Meert, Mark Hall, Christopher Newth, John C Lin, Allan Doctor, Tim Cornell, Rick E Harrison, Athena F Zuppa, Daniel A Notterman, Rajesh K Aneja
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引用次数: 0

Abstract

Abstract: Background: Sepsis-associated brain injury is associated with deterioration of mental status, persistent cognitive impairment, and morbidity. The SUR1/TRPM4 channel is a nonselective cation channel that is transcriptionally upregulated in the central nervous system with injury, allowing sodium influx, depolarization, cellular swelling, and secondary injury. We hypothesized that genetic variation in ABCC8 (SUR1 gene) and TRPM4 would associate with central nervous system dysfunction in severe pediatric sepsis. Methods: 326 children with severe sepsis underwent whole exome sequencing in an observational cohort. We compared children with and without central nervous system dysfunction (Glasgow Coma Scale <12) to assess for associations with clinical characteristics and pooled rare variants in ABCC8 and TRPM4. Sites of variation were mapped onto protein structure and assessed for phenotypic impact. Results: Pooled rare variants in either ABCC8 or TRPM4 associated with decreased odds of central nervous system dysfunction in severe pediatric sepsis (OR 0.14, 95% CI 0.003-0.87), P = 0.025). This association persisted following adjustment for race, organ failure, viral infection, and continuous renal replacement therapy (aOR 0.11, 95% CI 0.01-0.59, P = 0.038). Structural mapping showed that rare variants concentrated in the nucleotide-binding domains of ABCC8 and N-terminal melastatin homology region of TRPM4 . Conclusion : This study suggests a role for the ABCC8/TRPM4 channel in central nervous system dysfunction in severe pediatric sepsis. Although exploratory, the lack of therapies to prevent or mitigate central nervous system dysfunction in pediatric sepsis warrants further studies to clarify the mechanism and confirm the potential protective effect of these rare ABCC8/TRPM4 variants.

ABCC8和TRPM4基因变异对小儿败血症相关中枢神经系统功能障碍的影响。
背景:败血症相关性脑损伤与精神状态恶化、持续性认知障碍和发病率有关。SUR1/TRPM4 通道是一种非选择性阳离子通道,在中枢神经系统损伤时会转录上调,导致钠流入、去极化、细胞肿胀和二次损伤。我们假设 ABCC8(SUR1 基因)和 TRPM4 的遗传变异与严重小儿脓毒症的中枢神经系统功能障碍有关。我们比较了有和没有中枢神经系统功能障碍(格拉斯哥昏迷量表结果)的儿童:ABCC8或TRPM4的汇总罕见变异与严重儿科脓毒症中枢神经系统功能障碍的几率降低有关(OR 0.14,95% CI 0.003-0.87),P值=0.025)。在对种族、器官衰竭、病毒感染和持续肾脏替代疗法进行调整后,这种关联仍然存在(aOR 0.11,95% CI 0.01-0.59,p 值 = 0.038)。结构图显示,罕见变异集中在ABCC8的核苷酸结合域和TRPM4的N端美司他丁同源区:这项研究表明,ABCC8/TRPM4通道在严重小儿败血症的中枢神经系统功能障碍中发挥作用。由于缺乏预防或缓解小儿脓毒症中枢神经系统功能障碍的疗法,因此需要进一步研究以阐明其机制并确认这些罕见的 ABCC8/TRPM4 变体的潜在保护作用。
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来源期刊
SHOCK
SHOCK 医学-外科
CiteScore
6.20
自引率
3.20%
发文量
199
审稿时长
1 months
期刊介绍: SHOCK®: Injury, Inflammation, and Sepsis: Laboratory and Clinical Approaches includes studies of novel therapeutic approaches, such as immunomodulation, gene therapy, nutrition, and others. The mission of the Journal is to foster and promote multidisciplinary studies, both experimental and clinical in nature, that critically examine the etiology, mechanisms and novel therapeutics of shock-related pathophysiological conditions. Its purpose is to excel as a vehicle for timely publication in the areas of basic and clinical studies of shock, trauma, sepsis, inflammation, ischemia, and related pathobiological states, with particular emphasis on the biologic mechanisms that determine the response to such injury. Making such information available will ultimately facilitate improved care of the traumatized or septic individual.
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