Why does severe acute respiratory syndrome coronavirus 2 attack the aged more severely?

IF 9 2区 医学 Q1 MEDICINE, GENERAL & INTERNAL
Yiwen Xie, Hongcui Cao
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However, there is a discrepancy in children's low mortality despite their immature immune systems being as weak as those of older adults [<span>2</span>].</p><p>Recently, Woodall et al. conducted an in vitro study using nasal epithelial cells (NECs)—the primary target of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)—to study the age-related immune response to SARS-CoV-2 infections, ruling out the confounding factors in the immune system. They found age-specific nasal epithelial responses across different age groups [<span>3</span>]. The authors first identified characteristics of pediatric (&lt;12 years), adult (30–50 years), and older adult (&gt;70 years) cohorts. The adult cohort exhibited a higher abundance of basal/progenitor subtypes compared to pediatric cultures. Notably, NECs from pediatric subjects had the most goblet 2 cells, whereas basaloid-like cells were predominant in NECs from older adults, indicating a shift from goblet 2 cells to basaloid-like cells. Additionally, the receptors for SARS-CoV-2 entry into cells—transmembrane serine protease 2 (TMPRSS2) and angiotensin-converting enzyme 2 (ACE2) [<span>4</span>]—were differently expressed in pediatric (higher SARS-CoV-2 receptors expression in goblet 2 cells) and older adult cohorts (higher SARS-CoV-2 receptors expression in secretory and basal 2 cell types), suggesting that the virus targets are age-specific.</p><p>The authors then examined the speed of virus spread in varied age groups. Interestingly, they found a promotion of virus production in NECs from older adults compared to pediatric groups, including more virus-targeted cell types, more viral protein translation, and stronger total viral spread. As the cellular landscape of NECs is age-stratified, the authors reasoned that the pathological effect of SARS-CoV-2 infections is age-related and confirmed this hypothesis. They infected NECs from all three groups with SARS-CoV-2 and found negative effects on the morphology of NECs, including decreased culture thickness and epithelial integrity. Notably, damaged NECs in older adult cultures exhibited a compensatory effect, such as increased basal cell mobilization and epithelial escape. The escaped epithelial cells carried newly packaged viral particles, which may account for SARS-CoV-2 spread from the lung to other organs in older adults. Additionally, the results confirmed the upregulation of goblet 2 inflammatory cells, which are strongly associated with type I interferon (IFN) signaling, and downregulation of basal, secretory, and goblet cell populations in infected pediatric cultures. The IFN-activated state of pediatric airways was also observed in airway immune cells, exhibiting an overall anti-SARS-CoV-2 state [<span>5</span>]. In contrast, infected older adult cultures showed an increase in basal cell populations and an expansion of basaloid-like 2 cells, which are associated with tissue injury and fibrosis.</p><p>Next, to validate the in vitro NEC-based results with in vivo data, the authors analyzed eight scRNA-seq datasets obtained from the airways of COVID-19 patients across all age groups. The patient responses confirmed that goblet 2 inflammatory cells were induced and were the predominant type in the pediatric group after SARS-CoV-2 infection. An enrichment of the basaloid-like 2 cell cluster was identified in all age groups, with the most significant increase in the older adult group. Not surprisingly, with the integration analysis of existing in vivo COVID-19 datasets and the in vitro study, the authors confirmed an age-dependent action mode of both basaloid-like 2 and goblet 2 inflammatory cells in response to infection.</p><p>Lastly, the authors profiled the age-specific immune responses of NECs. Goblet 2 cells expressed high levels of entry receptors, especially the precursors of goblet inflammatory cells, named goblet 2 PLAU<sup>+</sup> cells. Once infected with SARS-CoV-2, goblet 2 PLAU<sup>+</sup> cells would shift to goblet 2 inflammatory cells, accompanied by upregulated expression of ACE2 and TMPRSS2. High viral reads and activated types I and II IFN signaling in goblet inflammatory cells confirmed this theory, making this cell type the central point of virus-induced immune cascade in COVID-19 patients. Surprisingly, the transmission ability of pediatric goblet inflammatory cells is relatively low, even though their original viral reads are high. This may be attributed to the anti-viral effect of goblet inflammatory cells. The authors further sequenced infected NECs and found that subgenomic SARS-CoV-2 RNAs of spike and ORF7a were more abundant in pediatric and adult samples than in older adult samples, both of which were representative of defective viral genomes and increased IFN production. Contrary to the pediatric cultures, SARS-CoV-2 infections in older adult NECs led to epithelial damage and activated the epithelial–mesenchymal transition repair pathway, and most importantly, the enriching basaloid-like 2 cells. The most severely infected and damaged basaloid-like 2 cells are probably fragmented and then release integrin beta 6 protein, which is associated with fibrotic lung disease and epithelial cancers. This is consistent with a single-cell transcriptomic research arguing that the entry of the virus into lung tissue can accelerate pulmonary fibrosis [<span>6</span>]. As the repair process is specific to older adults, the authors further applied a wound-healing assay to see whether this process would contribute to the stronger virus spread in older adult NECs. In this assay, SARS-CoV-2-infected older adult cultures exhibited a faster wound-healing rate than infected pediatric cultures. However, as a coin has two sides, the faster wound repair correlated with an increase in virus spread, as evidenced by more SARS-CoV-2-positive cells in wounded cultures.</p><p>All in all, the study published in <i>Nature Microbiology</i> concluded that the reason why pediatric patients show better resistance to SARS-CoV-2 infections than older adults is the higher abundance of goblet 2 inflammatory epithelial cells, which exert a strong IFN response and decrease with age [<span>3</span>]. 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Further studies should take these confounding factors into consideration and picture an overall immune landscape of SARS-CoV-2 infection.</p><p>The author declares no conflicts of interest.</p>","PeriodicalId":196,"journal":{"name":"Journal of Internal Medicine","volume":"296 4","pages":"308-310"},"PeriodicalIF":9.0000,"publicationDate":"2024-07-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1111/joim.13825","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Internal Medicine","FirstCategoryId":"3","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1111/joim.13825","RegionNum":2,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"MEDICINE, GENERAL & INTERNAL","Score":null,"Total":0}
引用次数: 0

Abstract

In the July 2020 issue of the Journal of Internal Medicine, Wu et al. conducted a retrospective study including 280 confirmed cases of COVID-19 at the early stage of the pandemic. They found that comorbidity, early antiviral treatment, and age were three major risk factors resulting in the poor prognosis of COVID-19 patients [1]. Although the benefits of addressing comorbidity and early antiviral treatment are clear, the impact of age is more complex. The clinical trial indicated that people older than 65 years have a higher risk of progressing to severe disease. However, there is a discrepancy in children's low mortality despite their immature immune systems being as weak as those of older adults [2].

Recently, Woodall et al. conducted an in vitro study using nasal epithelial cells (NECs)—the primary target of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)—to study the age-related immune response to SARS-CoV-2 infections, ruling out the confounding factors in the immune system. They found age-specific nasal epithelial responses across different age groups [3]. The authors first identified characteristics of pediatric (<12 years), adult (30–50 years), and older adult (>70 years) cohorts. The adult cohort exhibited a higher abundance of basal/progenitor subtypes compared to pediatric cultures. Notably, NECs from pediatric subjects had the most goblet 2 cells, whereas basaloid-like cells were predominant in NECs from older adults, indicating a shift from goblet 2 cells to basaloid-like cells. Additionally, the receptors for SARS-CoV-2 entry into cells—transmembrane serine protease 2 (TMPRSS2) and angiotensin-converting enzyme 2 (ACE2) [4]—were differently expressed in pediatric (higher SARS-CoV-2 receptors expression in goblet 2 cells) and older adult cohorts (higher SARS-CoV-2 receptors expression in secretory and basal 2 cell types), suggesting that the virus targets are age-specific.

The authors then examined the speed of virus spread in varied age groups. Interestingly, they found a promotion of virus production in NECs from older adults compared to pediatric groups, including more virus-targeted cell types, more viral protein translation, and stronger total viral spread. As the cellular landscape of NECs is age-stratified, the authors reasoned that the pathological effect of SARS-CoV-2 infections is age-related and confirmed this hypothesis. They infected NECs from all three groups with SARS-CoV-2 and found negative effects on the morphology of NECs, including decreased culture thickness and epithelial integrity. Notably, damaged NECs in older adult cultures exhibited a compensatory effect, such as increased basal cell mobilization and epithelial escape. The escaped epithelial cells carried newly packaged viral particles, which may account for SARS-CoV-2 spread from the lung to other organs in older adults. Additionally, the results confirmed the upregulation of goblet 2 inflammatory cells, which are strongly associated with type I interferon (IFN) signaling, and downregulation of basal, secretory, and goblet cell populations in infected pediatric cultures. The IFN-activated state of pediatric airways was also observed in airway immune cells, exhibiting an overall anti-SARS-CoV-2 state [5]. In contrast, infected older adult cultures showed an increase in basal cell populations and an expansion of basaloid-like 2 cells, which are associated with tissue injury and fibrosis.

Next, to validate the in vitro NEC-based results with in vivo data, the authors analyzed eight scRNA-seq datasets obtained from the airways of COVID-19 patients across all age groups. The patient responses confirmed that goblet 2 inflammatory cells were induced and were the predominant type in the pediatric group after SARS-CoV-2 infection. An enrichment of the basaloid-like 2 cell cluster was identified in all age groups, with the most significant increase in the older adult group. Not surprisingly, with the integration analysis of existing in vivo COVID-19 datasets and the in vitro study, the authors confirmed an age-dependent action mode of both basaloid-like 2 and goblet 2 inflammatory cells in response to infection.

Lastly, the authors profiled the age-specific immune responses of NECs. Goblet 2 cells expressed high levels of entry receptors, especially the precursors of goblet inflammatory cells, named goblet 2 PLAU+ cells. Once infected with SARS-CoV-2, goblet 2 PLAU+ cells would shift to goblet 2 inflammatory cells, accompanied by upregulated expression of ACE2 and TMPRSS2. High viral reads and activated types I and II IFN signaling in goblet inflammatory cells confirmed this theory, making this cell type the central point of virus-induced immune cascade in COVID-19 patients. Surprisingly, the transmission ability of pediatric goblet inflammatory cells is relatively low, even though their original viral reads are high. This may be attributed to the anti-viral effect of goblet inflammatory cells. The authors further sequenced infected NECs and found that subgenomic SARS-CoV-2 RNAs of spike and ORF7a were more abundant in pediatric and adult samples than in older adult samples, both of which were representative of defective viral genomes and increased IFN production. Contrary to the pediatric cultures, SARS-CoV-2 infections in older adult NECs led to epithelial damage and activated the epithelial–mesenchymal transition repair pathway, and most importantly, the enriching basaloid-like 2 cells. The most severely infected and damaged basaloid-like 2 cells are probably fragmented and then release integrin beta 6 protein, which is associated with fibrotic lung disease and epithelial cancers. This is consistent with a single-cell transcriptomic research arguing that the entry of the virus into lung tissue can accelerate pulmonary fibrosis [6]. As the repair process is specific to older adults, the authors further applied a wound-healing assay to see whether this process would contribute to the stronger virus spread in older adult NECs. In this assay, SARS-CoV-2-infected older adult cultures exhibited a faster wound-healing rate than infected pediatric cultures. However, as a coin has two sides, the faster wound repair correlated with an increase in virus spread, as evidenced by more SARS-CoV-2-positive cells in wounded cultures.

All in all, the study published in Nature Microbiology concluded that the reason why pediatric patients show better resistance to SARS-CoV-2 infections than older adults is the higher abundance of goblet 2 inflammatory epithelial cells, which exert a strong IFN response and decrease with age [3]. This discrepancy in the landscape of NECs partially explains why children have a lower mortality rate, as the blunted IFN responses in the NECs have been reported to be associated with severe COVID-19 cases [7]. Of note, the authors solely discussed differences in NECs between children and the aged, but immunosenescence and chronic inflammation are inevitable as one ages and are critical in progression of SARS-CoV-2 infections [8]. Further studies should take these confounding factors into consideration and picture an overall immune landscape of SARS-CoV-2 infection.

The author declares no conflicts of interest.

为什么严重急性呼吸系统综合征冠状病毒 2 对老年人的攻击更严重?
在 2020 年 7 月出版的《内科学杂志》(Journal of Internal Medicine)上,Wu 等人进行了一项回顾性研究,其中包括 COVID-19 大流行早期的 280 例确诊病例。他们发现,合并症、早期抗病毒治疗和年龄是导致 COVID-19 患者预后不良的三大风险因素[1]。尽管解决合并症和早期抗病毒治疗的益处显而易见,但年龄的影响却更为复杂。临床试验表明,65 岁以上人群病情恶化的风险更高。最近,Woodall 等人利用鼻上皮细胞(NECs)--严重急性呼吸系统综合征冠状病毒 2(SARS-CoV-2)的主要靶点--进行了一项体外研究,研究了与年龄相关的对 SARS-CoV-2 感染的免疫反应,排除了免疫系统中的干扰因素。他们发现不同年龄组的鼻上皮细胞反应具有年龄特异性[3]。作者首先确定了小儿(12 岁)、成人(30-50 岁)和老年人(70 岁)群体的特征。与儿科培养物相比,成人组显示出更丰富的基底/祖细胞亚型。值得注意的是,来自儿科受试者的坏死组织有最多的第2小管细胞,而在来自老年人的坏死组织中,基底样细胞占主导地位,这表明了从第2小管细胞向基底样细胞的转变。此外,SARS-CoV-2进入细胞的受体--跨膜丝氨酸蛋白酶2(TMPRSS2)和血管紧张素转换酶2(ACE2)[4]--在小儿组(小口2细胞中的SARS-CoV-2受体表达较高)和老年人组(分泌型和基底2细胞中的SARS-CoV-2受体表达较高)中的表达不同,这表明病毒的目标具有年龄特异性。作者随后研究了病毒在不同年龄组中的传播速度。有趣的是,他们发现,与儿科组相比,老年人的非典型肺炎灶中病毒的产生得到了促进,包括更多的病毒靶细胞类型、更多的病毒蛋白翻译和更强的病毒传播总量。由于非典型肺炎坏死组织的细胞结构呈年龄分层,作者推断非典型肺炎-CoV-2 感染的病理效应与年龄有关,并证实了这一假设。他们用SARS-CoV-2感染了所有三个组别的NECs,发现这对NECs的形态有负面影响,包括培养厚度和上皮完整性下降。值得注意的是,老年人培养的受损网状坏死细胞表现出一种代偿效应,如基底细胞动员和上皮逃逸增加。逃逸的上皮细胞携带新包装的病毒颗粒,这可能是 SARS-CoV-2 从老年人肺部扩散到其他器官的原因。此外,研究结果证实,在受感染的儿科培养物中,与 I 型干扰素(IFN)信号传导密切相关的鹅口疮 2 炎症细胞上调,而基础细胞、分泌细胞和鹅口疮细胞群下调。在气道免疫细胞中也观察到小儿气道的 IFN 激活状态,表现出整体的抗 SARS-CoV-2 状态[5]。与此相反,受感染的老年人培养物显示基底细胞群增加,类基底2细胞扩增,而类基底细胞与组织损伤和纤维化有关。接下来,为了用体内数据验证基于体外NEC的结果,作者分析了从COVID-19患者气道中获得的8个scRNA-seq数据集,这些数据集涉及所有年龄组。患者的反应证实,SARS-CoV-2 感染后,在儿科组中,鹅口疮 2 型炎症细胞被诱导并成为主要类型。在所有年龄组中都发现了基底样 2 细胞群的富集,其中老年人组的增加最为显著。毫不奇怪,通过对现有体内 COVID-19 数据集和体外研究的整合分析,作者证实了类基底细胞 2 和鹅口疮 2 炎症细胞在应对感染时的作用模式与年龄有关。鹅口疮 2 细胞表达了高水平的进入受体,尤其是鹅口疮炎症细胞的前体--鹅口疮 2 PLAU+ 细胞。一旦感染了SARS-CoV-2,鹅口疮2 PLAU+细胞就会转变为鹅口疮2炎症细胞,同时ACE2和TMPRSS2的表达也会上调。上腔炎症细胞中的高病毒读数和激活的 I 型和 II 型 IFN 信号证实了这一理论,使这一细胞类型成为 COVID-19 患者中病毒诱导免疫级联的中心点。令人惊讶的是,尽管小儿上腔炎症细胞的原始病毒读数很高,但其传播能力却相对较低。这可能是由于鹅口疮炎症细胞的抗病毒作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Internal Medicine
Journal of Internal Medicine 医学-医学:内科
CiteScore
22.00
自引率
0.90%
发文量
176
审稿时长
4-8 weeks
期刊介绍: JIM – The Journal of Internal Medicine, in continuous publication since 1863, is an international, peer-reviewed scientific journal. It publishes original work in clinical science, spanning from bench to bedside, encompassing a wide range of internal medicine and its subspecialties. JIM showcases original articles, reviews, brief reports, and research letters in the field of internal medicine.
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