Department of Surgery, University of Florida College of Medicine, Gainesville, FL, United States.
Department of Molecular Genetics and Microbiology, University of Florida College of Medicine, Gainesville, FL, United States.
Front Immunol. 2020 Jun 24;11:1289. doi: 10.3389/fimmu.2020.01289. eCollection 2020.
Older adults have significantly worse morbidity and mortality after severe trauma than younger cohorts. The competency of the innate immune response decreases with advancing age, especially after an inflammatory insult. Subsequent poor outcomes after trauma are caused in part by dysfunctional leukocytes derived from the host's hematopoietic stem and progenitor cells (HSPCs). Our objective was to analyze the bone marrow (BM) HSPC transcriptomic [mRNA and microRNA (miR)] responses to trauma in older and younger adults. BM was collected intraoperatively <9 days after initial injury from trauma patients with non-mild injury [ISS ≥ 9] with shock (lactate ≥ 2, base deficit ≥ 5, MAP ≤ 65) who underwent operative fixation of a pelvic or long bone fracture. Samples were also analyzed based on age (<55 years and ≥55 years), ISS score and transfusion in the first 24 h, and compared to age/sex-matched controls from non-cancer elective hip replacement or purchased healthy younger adult human BM aspirates. mRNA and miR expression patterns were calculated from lineage-negative enriched HSPCs. 924 genes were differentially expressed in older trauma subjects vs. age/sex-matched controls, while 654 genes were differentially expressed in younger subjects vs. age/sex-matched control. Only 68 transcriptomic changes were shared between the two groups. Subsequent analysis revealed upregulation of transcriptomic pathways related to quantity, function, differentiation, and proliferation of HSPCs in only the younger cohort. miR expression differences were also identified, many of which were associated with cell cycle regulation. In summary, differences in the BM HSPC mRNA and miR expression were identified between older and younger adult trauma subjects. These differences in gene and miR expression were related to pathways involved in HSPC production and differentiation. These differences could potentially explain why older adult patients have a suboptimal hematopoietic response to trauma. Although immunomodulation of HSPCs may be a necessary consideration to promote host protective immunity after host injury, the age related differences further highlight that patients may require an age-defined medical approach with interventions that are specific to their transcriptomic and biologic response. Also, targeting the older adult miRs may be possible for interventions in this patient population.
老年人在遭受严重创伤后,其发病率和死亡率明显高于年轻人群。随着年龄的增长,先天免疫反应的能力会下降,尤其是在受到炎症侵袭后。创伤后不良预后的部分原因是源自宿主造血干细胞和祖细胞(HSPCs)的功能失调白细胞。我们的目的是分析老年人和年轻人创伤后骨髓(BM)HSPC 的转录组[信使 RNA(mRNA)和 microRNA(miR)]反应。在初始损伤后 <9 天内,对非轻度损伤(ISS≥9)、伴有休克(乳酸≥2,基础不足≥5,MAP≤65)的创伤患者进行手术固定骨盆或长骨骨折时,术中采集 BM。还根据年龄(<55 岁和≥55 岁)、ISS 评分和伤后 24 小时内的输血情况对样本进行分析,并与非癌症择期髋关节置换或购买的健康年轻成人 BM 抽吸物的年龄/性别匹配对照进行比较。从谱系阴性富集的 HSPC 中计算 mRNA 和 miR 表达模式。与年龄/性别匹配的对照相比,924 个基因在老年创伤患者中差异表达,而 654 个基因在年轻患者中差异表达。两组之间仅共享 68 个转录组变化。随后的分析显示,仅在年轻组中,HSPC 数量、功能、分化和增殖相关的转录组途径上调。还鉴定了 miR 表达差异,其中许多与细胞周期调控有关。总之,在老年和年轻成人创伤患者之间鉴定到 BM HSPC mRNA 和 miR 表达的差异。这些基因和 miR 表达的差异与涉及 HSPC 产生和分化的途径有关。这些差异可能解释了为什么老年患者对创伤的造血反应不佳。尽管免疫调节 HSPC 可能是促进宿主损伤后宿主保护性免疫所必需的考虑因素,但年龄相关差异进一步强调,患者可能需要一种针对其转录组和生物学反应的特定年龄定义的医疗方法。此外,针对老年患者的 miR 可能是该患者群体干预的一种可能方法。
