{"title":"NK 细胞表型的改变与登革热疾病的功能和后果有关。","authors":"Napas Taechasan , Iris Scherwitzl , Piyada Supasa , Wanwisa Dejnirattisai , Kanokwan Sriruksa , Wannee Limpitikul , Prida Malasit , Gavin R Screaton , Juthathip Mongkolsapaya , Thaneeya Duangchinda","doi":"10.1016/j.virusres.2024.199382","DOIUrl":null,"url":null,"abstract":"<div><p>Natural killer cells (NK cells) are the front line of immune cells to combat pathogens and able to influence the subsequent adaptive immune responses. One of the factors contributing to pathogenesis in dengue hemorrhagic fever (DHF) disease is aberrant immune activation during early phase of infection. This study explored the profile of NK cells in dengue infected pediatric patients with different degrees of disease severity. DHF patients contained higher frequency of activated NK cells but lower ratio of CD56<sup>dim</sup>:CD56<sup>bright</sup> NK subsets. Activated NK cells exhibited alterations in several NK receptors. Interestingly, the frequencies of NKp30 expressing activated NK cells were more pronounced in dengue fever (DF) than in DHF pediatric patients. <em>In vitro</em> functional analysis indicated that degranulation of NK cells in responding to dengue infected dendritic cells (DCs) required cell-cell contact and type I IFNs. Meanwhile, Interferon gamma (IFN-γ) production initially required cell-cell contact and type I IFNs followed by Interleukin-12 (IL-12), Interleukin-15 (IL-15) and Interleukin-18 (IL-18) resulting in the amplification of IFN-γ producing NK cells over time. This study highlighted the complexity and the factors influencing NK cells responses to dengue virus. Degree of activation, phenotypes of activated cells and the crosstalk between NK cells and other immune cells, could modulate the outcome of NK cells function in the dengue disease.</p></div>","PeriodicalId":23483,"journal":{"name":"Virus research","volume":null,"pages":null},"PeriodicalIF":2.5000,"publicationDate":"2024-05-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0168170224000753/pdfft?md5=33cb84c448240947c962cc966a9032d5&pid=1-s2.0-S0168170224000753-main.pdf","citationCount":"0","resultStr":"{\"title\":\"The alteration of NK cells phenotypes related to the functions and dengue disease outcomes\",\"authors\":\"Napas Taechasan , Iris Scherwitzl , Piyada Supasa , Wanwisa Dejnirattisai , Kanokwan Sriruksa , Wannee Limpitikul , Prida Malasit , Gavin R Screaton , Juthathip Mongkolsapaya , Thaneeya Duangchinda\",\"doi\":\"10.1016/j.virusres.2024.199382\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Natural killer cells (NK cells) are the front line of immune cells to combat pathogens and able to influence the subsequent adaptive immune responses. One of the factors contributing to pathogenesis in dengue hemorrhagic fever (DHF) disease is aberrant immune activation during early phase of infection. This study explored the profile of NK cells in dengue infected pediatric patients with different degrees of disease severity. DHF patients contained higher frequency of activated NK cells but lower ratio of CD56<sup>dim</sup>:CD56<sup>bright</sup> NK subsets. Activated NK cells exhibited alterations in several NK receptors. Interestingly, the frequencies of NKp30 expressing activated NK cells were more pronounced in dengue fever (DF) than in DHF pediatric patients. <em>In vitro</em> functional analysis indicated that degranulation of NK cells in responding to dengue infected dendritic cells (DCs) required cell-cell contact and type I IFNs. Meanwhile, Interferon gamma (IFN-γ) production initially required cell-cell contact and type I IFNs followed by Interleukin-12 (IL-12), Interleukin-15 (IL-15) and Interleukin-18 (IL-18) resulting in the amplification of IFN-γ producing NK cells over time. This study highlighted the complexity and the factors influencing NK cells responses to dengue virus. 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引用次数: 0
摘要
自然杀伤细胞(NK细胞)是对抗病原体的前沿免疫细胞,能够影响随后的适应性免疫反应。登革出血热(DHF)疾病的发病机制之一是感染早期的异常免疫激活。本研究探讨了不同疾病严重程度的登革热感染儿科患者的 NK 细胞概况。登革热患者体内活化的NK细胞频率较高,但CD56dim:CD56bright NK亚群的比例较低。活化的 NK 细胞表现出多种 NK 受体的改变。有趣的是,与登革热儿科患者相比,NKp30表达的活化NK细胞在登革热儿科患者中更为明显。体外功能分析表明,NK细胞对登革热感染的树突状细胞(DCs)的脱颗粒反应需要细胞-细胞接触和I型干扰素。同时,γ干扰素(IFN-γ)的产生最初需要细胞接触和I型IFNs,随后需要白细胞介素-12(IL-12)、白细胞介素-15(IL-15)和白细胞介素-18(IL-18),从而导致产生IFN-γ的NK细胞随着时间的推移不断扩大。这项研究强调了 NK 细胞对登革热病毒反应的复杂性和影响因素。NK细胞的活化程度、活化细胞的表型以及NK细胞与其他免疫细胞之间的相互影响,都会影响NK细胞在登革热疾病中的功能。
The alteration of NK cells phenotypes related to the functions and dengue disease outcomes
Natural killer cells (NK cells) are the front line of immune cells to combat pathogens and able to influence the subsequent adaptive immune responses. One of the factors contributing to pathogenesis in dengue hemorrhagic fever (DHF) disease is aberrant immune activation during early phase of infection. This study explored the profile of NK cells in dengue infected pediatric patients with different degrees of disease severity. DHF patients contained higher frequency of activated NK cells but lower ratio of CD56dim:CD56bright NK subsets. Activated NK cells exhibited alterations in several NK receptors. Interestingly, the frequencies of NKp30 expressing activated NK cells were more pronounced in dengue fever (DF) than in DHF pediatric patients. In vitro functional analysis indicated that degranulation of NK cells in responding to dengue infected dendritic cells (DCs) required cell-cell contact and type I IFNs. Meanwhile, Interferon gamma (IFN-γ) production initially required cell-cell contact and type I IFNs followed by Interleukin-12 (IL-12), Interleukin-15 (IL-15) and Interleukin-18 (IL-18) resulting in the amplification of IFN-γ producing NK cells over time. This study highlighted the complexity and the factors influencing NK cells responses to dengue virus. Degree of activation, phenotypes of activated cells and the crosstalk between NK cells and other immune cells, could modulate the outcome of NK cells function in the dengue disease.
期刊介绍:
Virus Research provides a means of fast publication for original papers on fundamental research in virology. Contributions on new developments concerning virus structure, replication, pathogenesis and evolution are encouraged. These include reports describing virus morphology, the function and antigenic analysis of virus structural components, virus genome structure and expression, analysis on virus replication processes, virus evolution in connection with antiviral interventions, effects of viruses on their host cells, particularly on the immune system, and the pathogenesis of virus infections, including oncogene activation and transduction.