Single-Cell Dissection of the Immune Response After Acute Myocardial Infarction.

IF 6 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Circulation: Genomic and Precision Medicine Pub Date : 2024-06-01 Epub Date: 2024-05-16 DOI:10.1161/CIRCGEN.123.004374

Irene V van Blokland, Roy Oelen, Hilde E Groot, Jan Walter Benjamins, Kami Pekayvaz, Corinna Losert, Viktoria Knottenberg, Matthias Heinig, Leo Nicolai, Konstantin Stark, Pim van der Harst, Lude Franke, Monique G P van der Wijst

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Abstract

Background: The immune system's role in ST-segment-elevated myocardial infarction (STEMI) remains poorly characterized but is an important driver of recurrent cardiovascular events. While anti-inflammatory drugs show promise in reducing recurrence risk, their broad immune system impairment may induce severe side effects. To overcome these challenges, a nuanced understanding of the immune response to STEMI is needed.

Methods: For this, we compared peripheral blood mononuclear single-cell RNA-sequencing (scRNA-seq) and plasma protein expression over time (hospital admission, 24 hours, and 6-8 weeks post-STEMI) in 38 patients and 38 controls (95 995 diseased and 33 878 control peripheral blood mononuclear cells).

Results: Compared with controls, classical monocytes were increased and CD56^dim natural killer cells were decreased in patients with STEMI at admission and persisted until 24 hours post-STEMI. The largest gene expression changes were observed in monocytes, associating with changes in toll-like receptor, interferon, and interleukin signaling activity. Finally, a targeted cardiovascular biomarker panel revealed expression changes in 33/92 plasma proteins post-STEMI. Interestingly, interleukin-6R, MMP9 (matrix metalloproteinase-9), and LDLR (low-density lipoprotein receptor) were affected by coronary artery disease-associated genetic risk variation, disease status, and time post-STEMI, indicating the importance of considering these aspects when defining potential future therapies.

Conclusions: Our analyses revealed the immunologic pathways disturbed by STEMI, specifying affected cell types and disease stages. Additionally, we provide insights into patients expected to benefit most from anti-inflammatory treatments by identifying the genetic variants and disease stage at which these variants affect the outcome of these (drug-targeted) pathways. These findings advance our knowledge of the immune response post-STEMI and provide guidance for future therapeutic studies.

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急性心肌梗死后免疫反应的单细胞剖析

背景：免疫系统在 ST 段抬高型心肌梗死（STEMI）中的作用尚未得到充分说明，但却是导致心血管事件复发的重要因素。虽然抗炎药有望降低复发风险，但其广泛的免疫系统损伤可能会引起严重的副作用。为了克服这些挑战，我们需要深入了解 STEMI 的免疫反应：为此，我们比较了 38 名患者和 38 名对照组（95 995 名患者和 33 878 名对照组外周血单核细胞）的外周血单核细胞 RNA 序列（scRNA-seq）和血浆蛋白表达随时间（入院、24 小时和 STEMI 后 6-8 周）的变化：与对照组相比，STEMI 患者入院时经典单核细胞增多，CD56dim 自然杀伤细胞减少，并持续到 STEMI 术后 24 小时。在单核细胞中观察到的最大基因表达变化与收费样受体、干扰素和白细胞介素信号活性的变化有关。最后，一个有针对性的心血管生物标记物面板显示，33/92 种血浆蛋白在急性脑梗塞后发生了表达变化。有趣的是，白细胞介素-6R、MMP9（基质金属蛋白酶-9）和LDLR（低密度脂蛋白受体）受冠状动脉疾病相关遗传风险变异、疾病状态和STEMI后时间的影响，这表明在确定未来潜在疗法时考虑这些方面的重要性：我们的分析揭示了受 STEMI 干扰的免疫学途径，明确了受影响的细胞类型和疾病阶段。此外，通过确定影响这些（药物靶向）通路结果的基因变异和疾病阶段，我们深入了解了有望从抗炎治疗中获益最多的患者。这些发现增进了我们对 STEMI 后免疫反应的了解，并为未来的治疗研究提供了指导。

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来源期刊

Circulation: Genomic and Precision Medicine Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

9.20

自引率

5.40%

发文量

144

期刊介绍： Circulation: Genomic and Precision Medicine is a distinguished journal dedicated to advancing the frontiers of cardiovascular genomics and precision medicine. It publishes a diverse array of original research articles that delve into the genetic and molecular underpinnings of cardiovascular diseases. The journal's scope is broad, encompassing studies from human subjects to laboratory models, and from in vitro experiments to computational simulations. Circulation: Genomic and Precision Medicine is committed to publishing studies that have direct relevance to human cardiovascular biology and disease, with the ultimate goal of improving patient care and outcomes. The journal serves as a platform for researchers to share their groundbreaking work, fostering collaboration and innovation in the field of cardiovascular genomics and precision medicine.