University of Illinois at Chicago College of Medicine, Chicago, Illinois, United States of America.
PLoS Pathog. 2021 Jun 7;17(6):e1009662. doi: 10.1371/journal.ppat.1009662. eCollection 2021 Jun.
Signal-regulatory protein alpha (SIRPA) is a well-known inhibitor of phagocytosis when it complexes with CD47 expressed on target cells. Here we show that SIRPA decreased in vitro infection by a number of pathogenic viruses, including New World and Old World arenaviruses, Zika virus, vesicular stomatitis virus and pseudoviruses bearing the Machupo virus, Ebola virus and SARS-CoV-2 glycoproteins, but not HSV-1, MLV or mNoV. Moreover, mice with targeted mutation of the Sirpa gene that renders it non-functional were more susceptible to infection with the New World arenaviruses Junín virus vaccine strain Candid 1 and Tacaribe virus, but not MLV or mNoV. All SIRPA-inhibited viruses have in common the requirement for trafficking to a low pH endosomal compartment. This was clearly demonstrated with SARS-CoV-2 pseudovirus, which was only inhibited by SIRPA in cells in which it required trafficking to the endosome. Similar to its role in phagocytosis inhibition, SIRPA decreased virus internalization but not binding to cell surface receptors. We also found that increasing SIRPA levels via treatment with IL-4 led to even greater anti-viral activity. These data suggest that enhancing SIRPA's activity could be a target for anti-viral therapies.
信号调节蛋白 α(SIRPA)与靶细胞上表达的 CD47 结合时,是吞噬作用的已知抑制剂。在这里,我们表明 SIRPA 减少了多种致病性病毒的体外感染,包括新世界和旧世界沙粒病毒、寨卡病毒、水疱性口炎病毒和携带马丘波病毒、埃博拉病毒和 SARS-CoV-2 糖蛋白的假病毒,但不包括单纯疱疹病毒 1、MLV 或 mNoV。此外,靶向突变 Sirpa 基因使其失去功能的小鼠更容易感染新世界沙粒病毒疫苗株 Junín 病毒候选 1 和 Tacaribe 病毒,但不易感染 MLV 或 mNoV。所有 SIRPA 抑制的病毒都有一个共同点,即需要转运到低 pH 的内体隔室。这一点在 SARS-CoV-2 假病毒中得到了明确的证明,只有在需要转运到内体的细胞中,SIRPA 才能抑制 SARS-CoV-2 假病毒。与 SIRPA 在吞噬作用抑制中的作用类似,SIRPA 减少了病毒内化,但不影响病毒与细胞表面受体的结合。我们还发现,通过用 IL-4 处理增加 SIRPA 水平会导致更强的抗病毒活性。这些数据表明,增强 SIRPA 的活性可能是抗病毒治疗的一个目标。
