Peking University HuiLongGuan Clinical Medical School, Beijing Huilongguan Hospital, Beijing, China.
Institute of Biomedicine and Translational Medicine, Department of Physiology, Faculty of Medicine, University of Tartu, Tartu, Estonia.
Front Immunol. 2022 Jul 11;13:900284. doi: 10.3389/fimmu.2022.900284. eCollection 2022.
Monocytes are a highly heterogeneous population subcategorized into classical, intermediate and nonclassical subsets. How monocytes and their subsets may shape brain structures and functions in schizophrenia remains unclear. The primary goal of this cross-sectional study was to investigate monocytic subsets and their specific signature genes in regulation of cerebral cortical thickness and cognitive functions in first-episode schizophrenia (FES) patients. Whole-blood RNA sequencing of 128 FES patients and 111 healthy controls (HCs) were conducted and monocyte-specific differentially expressed genes were further analyzed. The MATRICS Consensus Cognitive Battery (MCCB) test, cortical neuroimaging and flow cytometric staining of peripheral blood monocytic subsets were performed among the participants. Significant changes in expressions of 54 monocytic signature genes were found in patients, especially for intermediate and nonclassical monocytic subsets with the most outstanding alterations being downregulated S100 Calcium Binding Protein A () and upregulated Interferon Induced Transmembrane Protein () family members, respectively. Meanwhile, percentage of blood nonclassical monocytes was decreased in patients. Cortical thicknesses and MCCB performance were expectantly reduced and weaker intra-relationships among monocytic signature genes and cortices, respectively, were noted in patients compared to HCs. Monocytic genes were negatively associated with both cortical thicknesses and cognition in HCs, which was interestingly weakened or even reversed in patients, with nonclassical monocytic genes showing the greatest statistical significance. This study reveals that while monocytes may have negative effects on brain structure and cognition, the ameliorated phenomenon observed in schizophrenia may reflect an (mal)adaptive change of monocytes at early stage of the disorder.
单核细胞是一个高度异质性的群体,可分为经典型、中间型和非经典型亚群。单核细胞及其亚群如何塑造精神分裂症患者的大脑结构和功能仍不清楚。本横断面研究的主要目的是探讨初发精神分裂症(FES)患者单核细胞亚群及其特定的特征基因在调节大脑皮质厚度和认知功能中的作用。对 128 例 FES 患者和 111 例健康对照(HC)进行全血 RNA 测序,并进一步分析单核细胞特异性差异表达基因。对参与者进行了 MATRICS 共识认知电池(MCCB)测试、皮质神经影像学和外周血单核细胞亚群的流式细胞术染色。发现患者的 54 个单核细胞特征基因表达发生了显著变化,尤其是中间型和非经典单核细胞亚群,其最显著的改变分别是下调 S100 钙结合蛋白 A()和上调干扰素诱导跨膜蛋白()家族成员。同时,患者血液中非经典单核细胞的比例降低。与 HC 相比,患者的皮质厚度和 MCCB 表现均预期降低,单核细胞特征基因与皮质之间的内在关系也较弱。在 HC 中,单核细胞基因与皮质厚度和认知呈负相关,而在患者中这种相关性减弱甚至逆转,非经典单核细胞基因的统计学意义最大。本研究表明,虽然单核细胞可能对大脑结构和认知有负面影响,但在精神分裂症中观察到的改善现象可能反映了疾病早期单核细胞的(适应性)变化。
