National Key Laboratory of Agricultural Microbiology, College of Veterinary Medicine, Huazhong Agricultural University, Wuhan, China.
Hubei Hongshan Laboratory, Wuhan, China.
mSphere. 2024 Aug 28;9(8):e0029724. doi: 10.1128/msphere.00297-24. Epub 2024 Jul 23.
Interaction between viruses and bacteria during the development of infectious diseases is a complex question that requires continuous study. In this study, we explored the interactions between pseudorabies virus (PRV) and (PM), which are recognized as the primary and secondary agents of porcine respiratory disease complex (PRDC), respectively. tests using mouse models demonstrated that intranasal inoculation with PRV at a sublethal dose induced disruption of murine respiratory barrier and promoted the invasion and damages caused by PM through respiratory infection. Inoculation with PRV also disrupted the barrier function of murine and porcine respiratory epithelial cells, and accelerated the adherence and invasion of PM to the cells. In mechanism, PRV infection resulted in decreased expression of tight junction proteins (ZO-1, occludin) and adherens junction proteins (β-catenin, E-cadherin) between neighboring respiratory epithelial cells. Additionally, PRV inoculation at an early stage downregulated multiple biological processes contributing to epithelial adhesion and barrier functions while upregulating signals beneficial for respiratory barrier disruption (e.g., the HIF-1α signaling). Furthermore, PRV infection also stimulated the upregulation of cellular receptors (CAM5, ICAM2, ACAN, and DSCAM) that promote bacterial adherence. The data presented in this study provide insights into the understanding of virus-bacteria interactions in PRDC and may also contribute to understanding the mechanisms of secondary infections caused by different respiratory viruses (e.g., influenza virus and SARS-CoV-2) in both medical and veterinary medicine.
Co-infections caused by viral and bacterial agents are common in both medical and veterinary medicine, but the related mechanisms are not fully understood. This study investigated the interactions between the zoonotic pathogens PRV and PM during the development of respiratory infections in both cell and mouse models, and reported the possible mechanisms which included: (i) the primary infection of PRV may induce the disruption and/or damage of mammal respiratory barrier, thereby contributing to the invasion of PM; (ii) PRV infection at early stage accelerates the transcription and/or expression of several cellular receptors that are beneficial for bacterial adherence. This study may shed a light on understanding the mechanisms on the secondary infection of PM promoted by different respiratory viruses (e.g., influenza virus and SARS-CoV-2) in both medical and veterinary medicine.
病毒和细菌在传染病发展过程中的相互作用是一个复杂的问题,需要不断研究。本研究探索了伪狂犬病病毒(PRV)和 (PM)之间的相互作用,分别被认为是猪呼吸道疾病复合症(PRDC)的主要和次要病原体。使用小鼠模型进行的实验表明,亚致死剂量的 PRV 鼻内接种会破坏小鼠呼吸道屏障,并通过呼吸道感染促进 PM 的入侵和损伤。接种 PRV 还会破坏小鼠和猪呼吸道上皮细胞的屏障功能,并加速 PM 对细胞的粘附和入侵。在机制上,PRV 感染导致相邻呼吸道上皮细胞之间的紧密连接蛋白(ZO-1、occludin)和黏着连接蛋白(β-catenin、E-cadherin)表达减少。此外,PRV 早期接种会下调多个参与上皮细胞黏附和屏障功能的生物学过程,同时上调有利于呼吸道屏障破坏的信号(例如,HIF-1α 信号)。此外,PRV 感染还刺激细胞受体(CAM5、ICAM2、ACAN 和 DSCAM)的上调,从而促进细菌的粘附。本研究提供了对 PRDC 中病毒-细菌相互作用的理解,并可能有助于理解不同呼吸道病毒(例如流感病毒和 SARS-CoV-2)在医学和兽医医学中引起继发感染的机制。
病毒和细菌病原体的合并感染在医学和兽医医学中都很常见,但相关机制尚不完全清楚。本研究在细胞和小鼠模型中研究了人畜共患病病原体 PRV 和 PM 在呼吸道感染发展过程中的相互作用,并报告了可能的机制,包括:(i)PRV 的初次感染可能导致哺乳动物呼吸道屏障的破坏和/或损伤,从而促进 PM 的入侵;(ii)PRV 早期感染加速了几个有利于细菌粘附的细胞受体的转录和/或表达。本研究可能有助于理解不同呼吸道病毒(例如流感病毒和 SARS-CoV-2)在医学和兽医医学中促进 PM 继发感染的机制。
