Hazeldine Jon, Dinsdale Robert J, Naumann David N, Acharjee Animesh, Bishop Jonathan R B, Lord Janet M, Harrison Paul
Institute of Inflammation and Ageing, University of Birmingham, Edgbaston, Birmingham, West Midlands, B15 2TT, United Kingdom.
National Institute for Health Research Surgical Reconstruction and Microbiology Research Centre, Heritage Building, Queen Elizabeth Hospital Birmingham, Mindelsohn Way, Edgbaston, Birmingham, West Midlands, B15 2TH, United Kingdom.
Burns Trauma. 2021 Apr 1;9:tkab001. doi: 10.1093/burnst/tkab001. eCollection 2021 Jan.
Traumatic injury is associated with increased concentrations of cell-free DNA (cfDNA) in the circulation, which contribute to post-injury complications. The endonuclease deoxyribonuclease 1 (DNase-1) is responsible for removing 90% of circulating cfDNA. Recently, DNase activity was reported to be significantly reduced following major non-traumatic brain injury (TBI), but the processes responsible were not investigated. Moreover, it is not known how quickly following injury DNase activity is reduced and whether this also occurs after TBI.
At 3 post-injury time points (≤1, 4-12 and 48-72 hours), blood samples were obtained from 155 adult trauma patients that had sustained an isolated TBI (n = 21), TBI with accompanying extracranial injury (TBI) (n = 53) or an extracranial injury only (ECI) (n = 81). In addition to measuring cfDNA levels and the activity and expression of DNase, circulating concentrations of monomeric globular action (G-actin), an inhibitor of DNase-1, and the actin scavenging proteins gelsolin (GSN) and vitamin D binding protein (VDBP) were determined and values compared to a cohort of healthy controls.
Significantly elevated concentrations of plasma cfDNA were seen in TBI, TBI and ECI patients at all study time points when compared to healthy controls. cfDNA levels were significantly higher at ≤1 hour post-injury in ECI patients who subsequently developed multiple organ dysfunction syndrome when compared to those who did not. Plasma DNase-1 protein was significantly elevated in all patient groups at all sampling time points. In contrast, DNase enzyme activity was significantly reduced, with this impaired function evident in TBI patients within minutes of injury. Circulating concentrations of G-actin were elevated in all patient cohorts in the immediate aftermath of injury and this was accompanied by a significant reduction in the levels of GSN and VDBP.
The post-traumatic increase in circulating cfDNA that occurs following extracranial trauma and TBI is accompanied by reduced DNase activity. We propose that, secondary to reduced GSN and VDBP levels, elevated circulating concentrations of G-actin underlie the post-injury reduction in DNase activity. Reducing circulating cfDNA levels via therapeutic restoration of DNase-1 activity may improve clinical outcomes post-injury.
创伤性损伤与循环中游离DNA(cfDNA)浓度升高有关,这会导致损伤后并发症。核酸内切酶脱氧核糖核酸酶1(DNase-1)负责清除90%的循环cfDNA。最近有报道称,严重非创伤性脑损伤(TBI)后DNase活性显著降低,但未对其相关机制进行研究。此外,尚不清楚损伤后DNase活性降低的速度有多快,以及TBI后是否也会出现这种情况。
在损伤后的3个时间点(≤1小时、4 - 12小时和48 - 72小时),从155名成年创伤患者中采集血样,这些患者分别为单纯性TBI(n = 21)、伴有颅外损伤的TBI(n = 53)或仅伴有颅外损伤(ECI)(n = 81)。除了测量cfDNA水平以及DNase的活性和表达外,还测定了DNase-1抑制剂单体球状肌动蛋白(G-肌动蛋白)以及肌动蛋白清除蛋白凝溶胶蛋白(GSN)和维生素D结合蛋白(VDBP)的循环浓度,并将这些值与一组健康对照进行比较。
与健康对照相比,在所有研究时间点,TBI、TBI合并ECI患者的血浆cfDNA浓度均显著升高。与未发生多器官功能障碍综合征的ECI患者相比,随后发生多器官功能障碍综合征的ECI患者在损伤后≤1小时时cfDNA水平显著更高。在所有采样时间点,所有患者组的血浆DNase-1蛋白均显著升高。相比之下,DNase酶活性显著降低,这种功能受损在TBI患者损伤后数分钟内就很明显。在损伤后即刻,所有患者队列中循环G-肌动蛋白浓度均升高,同时GSN和VDBP水平显著降低。
颅外创伤和TBI后循环cfDNA的创伤后增加伴随着DNase活性降低。我们认为,由于GSN和VDBP水平降低,循环G-肌动蛋白浓度升高是损伤后DNase活性降低的原因。通过治疗性恢复DNase-1活性来降低循环cfDNA水平可能会改善损伤后的临床结局。
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