Membrane proteomic analysis identifies the polarity protein PARD3 as a novel antiviral protein against PEDV infection.

Porcine epidemic diarrhea virus (PEDV) is a highly pathogenic enteric coronavirus causing lethal watery diarrhea in suckling piglets. PEDV could remodel host membrane structures for their replication, assembly and escape from host cells. However, little is known about the host membrane proteins of PEDV infection. In this study, we analyzed differentially abundant proteins (DAPs) between PEDV infection group and control group and identified the polarity protein PARD3 as one of the most significantly DAPs. PARD3 is implicated in the formation of tight junctions at epithelial cell-cell contacts. Then, we found that PEDV infection promoted the degradation of PARD3 via the ubiquitin proteasome pathway. Moreover, knockdown of PARD3 promoted the proliferation of PEDV. Further study showed that the downregulation of PARD3 altered the normal morphology of the tight junction proteins and promoted apical and basolateral virus proliferation. Tight junctions enable epithelial cells to form physical barriers, which act as an innate immune mechanism that can impede viral infection and PEDV affected the barrier functions by causing degradation of PARD3. Taken together, this work is the first time to investigate the membrane protein profile of PEDV-infected cells using quantitative proteomics and suggests that PARD3 could be a potential novel antiviral protein against PEDV infection. SIGNIFICANCE: Membrane proteins are involved in various physiological and biochemical functions critical for cellular function. It is also dynamic in nature, where many proteins are changed during in response to environmental stress. However, membrane proteins are difficult to study because of their hydrophobicity. Membrane proteomic methods using mass spectrometry analysis have been developed and applied for the characterization of the plasma membrane and subcellular organelles of various virus infected cells. Porcine epidemic diarrhea virus (PEDV) is an enteric pathogen of importance to the swine industry, causing high mortality in neonatal piglets. Because PEDV infected Vero cells can lead to significant changes in cell membrane morphology and form syncytial lesions. Here, we isolated the membrane proteins of PEDV infected and control cells and applied isobaric tags for relative and absolute quantification (iTRAQ) labeling coupled with liquid chromatography-tandem mass spectrometry (LC-MS/MS) to quantitatively identify the differentially abundant proteins (DAPs) in PEDV-infected Vero cells and confirmed the DAPs by performing RT-qPCR and Western blot analysis. Among these differential proteins, we focused on a down-regulated protein PARD3 which is important for cell tight junction and cell polarity. Loss of PARD3 can destroy the tight junction of cells and promote the proliferation of PEDV in the apical and basolateral sides. These findings will provide valuable information to better understand the mechanisms underlying the host defense responses to PEDV infection.