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体外分析精神分裂症患者和健康对照者血浆中循环无细胞 DNA 的生物学活性-第 2 部分:适应性反应。

In Vitro Analysis of Biological Activity of Circulating Cell-Free DNA Isolated from Blood Plasma of Schizophrenic Patients and Healthy Controls-Part 2: Adaptive Response.

机构信息

Federal State Budgetary Scientific Institution, Research Centre for Medical Genetics, 115522 Moscow, Russia.

N. A. Alekseev Clinical Psychiatric Hospital No 1, Moscow Healthcare Department, 117152 Moscow, Russia.

出版信息

Genes (Basel). 2022 Dec 4;13(12):2283. doi: 10.3390/genes13122283.

DOI:10.3390/genes13122283
PMID:36553550
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9777734/
Abstract

Oxidized in vitro genomic DNA (gDNA) is known to launch an adaptive response in human cell cultures. The cfDNA extracted from the plasma of schizophrenic patients (sz-cfDNA) and healthy controls (hc-cfDNA) contains increased amounts of 8-oxodG, a DNA-oxidation marker. The aim of the research was answering a question: can the human cfDNA isolated from blood plasma stimulate the adaptive response in human cells? In vitro responses of ten human skin fibroblasts (HSFs) and four peripheral blood mononuclear cell (PBMC) lines after 1-24 h of incubation with sz-cfDNA, gDNA and hc-cfDNA containing different amounts of 8-oxodG were examined. Expressions of RNA of eight genes ( and ), six proteins (NOX4, NRF2, SOD1, HIF1A, γH2AX and BRCA1) and DNA-oxidation marker 8-oxodG were analyzed by RT-qPCR and flow cytometry (when analyzing the data, a subpopulation of lymphocytes (PBL) was identified). Adding hc-cfDNA or sz-cfDNA to HSFs or PBMC media in equal amounts (50 ng/mL, 1-3 h) stimulated transient synthesis of free radicals (ROS), which correlated with an increase in the expressions of and genes and with an increase in the levels of the markers of DNA damage γH2AX and 8-oxodG. ROS and DNA damage induced an antioxidant response (expression of and ), DNA damage response ( and gene expression) and anti-apoptotic response (changes in and genes expression). Heterogeneity of cells of the same HSFs or PBL population was found with respect to the type of response to (sz,hc)-cfDNA. Most cells responded to oxidative stress with an increase in the amount of NRF2 and BRCA1 proteins along with a moderate increase in the amount of NOX4 protein and a low amount of 8-oxodG oxidation marker. However, upon the exposure to (sz,hc)-cfDNA, the size of the subpopulation with apoptosis signs (high DNA damage degree, high NOX4 and low NRF2 and BRCA1 levels) also increased. No significant difference between the responses to sz-cfDNA and hc-cfDNA was observed. Sz-cfDNA and hc-cfDNA showed similarly high bioactivity towards fibroblasts and lymphocytes. Conclusion: In cultured human cells, hc-cfDNA and sz-cfDNA equally stimulated an adaptive response aimed at launching the antioxidant, repair, and anti-apoptotic processes. The mediator of the development of the adaptive response are ROS produced by, among others, NOX4 and SOD1 enzymes.

摘要

体外氧化的基因组 DNA(gDNA)已知会在人类细胞培养物中引发适应性反应。从精神分裂症患者(sz-cfDNA)和健康对照者(hc-cfDNA)的血浆中提取的 cfDNA 含有增加量的 8-oxodG,这是一种 DNA 氧化标记物。研究的目的是回答一个问题:可以从人血浆中分离的人 cfDNA 刺激人细胞的适应性反应吗?在孵育 1-24 小时后,检查了含有不同量 8-oxodG 的 sz-cfDNA、gDNA 和 hc-cfDNA 对十种人类皮肤成纤维细胞(HSFs)和四种外周血单核细胞(PBMC)系的体外反应。通过 RT-qPCR 和流式细胞术分析了八种基因(和)、六种蛋白质(NOX4、NRF2、SOD1、HIF1A、γH2AX 和 BRCA1)和 DNA 氧化标记物 8-oxodG 的表达(在分析数据时,鉴定了一个淋巴细胞亚群(PBL))。将 hc-cfDNA 或 sz-cfDNA 以相等的量(50ng/mL,1-3h)添加到 HSF 或 PBMC 培养基中,会刺激自由基(ROS)的瞬时合成,这与和基因表达的增加以及 DNA 损伤标记物 γH2AX 和 8-oxodG 水平的增加相关。ROS 和 DNA 损伤诱导抗氧化反应(和基因表达)、DNA 损伤反应(和基因表达)和抗细胞凋亡反应(和基因表达的变化)。发现同一 HSF 或 PBL 群体的细胞在对(sz,hc)-cfDNA 的反应类型上存在异质性。大多数细胞通过增加 NRF2 和 BRCA1 蛋白的量以及适度增加 NOX4 蛋白的量和低量 8-oxodG 氧化标记物来对氧化应激做出反应。然而,在暴露于(sz,hc)-cfDNA 时,具有凋亡迹象的亚群的大小(高 DNA 损伤程度、低 NRF2 和 BRCA1 水平的高 NOX4 水平)也增加了。sz-cfDNA 和 hc-cfDNA 对成纤维细胞和淋巴细胞的反应没有明显差异。结论:在培养的人类细胞中,hc-cfDNA 和 sz-cfDNA 同样刺激了旨在启动抗氧化、修复和抗细胞凋亡过程的适应性反应。发展适应性反应的介体是由 NOX4 和 SOD1 等酶产生的 ROS。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/58ff232c98f6/genes-13-02283-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/8c11b39f25f9/genes-13-02283-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/b8172b4e900f/genes-13-02283-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/d1bf915a1d28/genes-13-02283-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/129a251189f8/genes-13-02283-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/0bb691b24fda/genes-13-02283-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/58ff232c98f6/genes-13-02283-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/2ef50287e12b/genes-13-02283-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/d067a24e6e16/genes-13-02283-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/08d026cfce77/genes-13-02283-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/8c11b39f25f9/genes-13-02283-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/b8172b4e900f/genes-13-02283-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/d1bf915a1d28/genes-13-02283-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/129a251189f8/genes-13-02283-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/0bb691b24fda/genes-13-02283-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c42/9777734/58ff232c98f6/genes-13-02283-g009.jpg

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