Cellular ESCRT components are recruited to regulate the endocytic trafficking and RNA replication compartment assembly during classical swine fever virus infection

Liu, Chunchun; Liu, Yayun; Zhou, Jiangfei; Chen, Xi; Chen, Huan; Hu, Jia-Huan; Chen, Jing; Zhang, Jin; Sun, Ruicong; Wei, Jianchao; Go, Yun Young; Morita, Eiji; Zhou, Bin

doi:10.1371/journal.ppat.1010294

Cited by 18 publications

(17 citation statements)

References 62 publications

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“…Using an siRNA screen, the authors identified several ESCRT components that contribute to CSFV infection at different stages of infectious cycle, including entry. Comparable to what has been observed for JEV, the ESCRT-III components CHMP2 and CHMP4 localized to CSFV VRCs [ 53 , 60 ]. Although ESCRT components such as HRS, TSG101, VPS28 (ESCRT-I), EAP20 (ESCRT-II), ALIX, CHMP7, and VPS4 also contribute to VRC formation through their interactions with the nonstructural proteins NS3, NS4B, NS5A, and NS5B [ 60 ], the molecular mechanism by which these nonstructural proteins interact with host ESCRT components remains to be elucidated.…”

Section: Overview Of the Host Endosomal Sorting Complex Required For ...mentioning

confidence: 84%

“…A more comprehensive depiction of the mechanism for ESCRT-dependent VRC formation was provided in a recent study of classical swine fever virus (CSFV) infection [ 60 ]. Using an siRNA screen, the authors identified several ESCRT components that contribute to CSFV infection at different stages of infectious cycle, including entry.…”

Section: Overview Of the Host Endosomal Sorting Complex Required For ...mentioning

confidence: 99%

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The multifaceted interactions between pathogens and host ESCRT machinery

Rivera-Cuevas

Carruthers

2023

PLoS Pathog

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The Endosomal Sorting Complex Required for Transport (ESCRT) machinery consists of multiple protein complexes that coordinate vesicle budding away from the host cytosol. ESCRTs function in many fundamental cellular processes including the biogenesis of multivesicular bodies and exosomes, membrane repair and restoration, and cell abscission during cytokinesis. Work over the past 2 decades has shown that a diverse cohort of viruses critically rely upon host ESCRT machinery for virus replication and envelopment. More recent studies reported that intracellular bacteria and the intracellular parasite Toxoplasma gondii benefit from, antagonize, or exploit host ESCRT machinery to preserve their intracellular niche, gain resources, or egress from infected cells. Here, we review how intracellular pathogens interact with the ESCRT machinery of their hosts, highlighting the variety of strategies they use to bind ESCRT complexes using short linear amino acid motifs like those used by ESCRTs to sequentially assemble on target membranes. Future work exposing new mechanisms of this molecular mimicry will yield novel insight of how pathogens exploit host ESCRT machinery and how ESCRTs facilitate key cellular processes.

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Section: Overview Of the Host Endosomal Sorting Complex Required For ...mentioning

confidence: 84%

Section: Overview Of the Host Endosomal Sorting Complex Required For ...mentioning

confidence: 99%

The multifaceted interactions between pathogens and host ESCRT machinery

Rivera-Cuevas

Carruthers

2023

PLoS Pathog

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“…Many studies have also reported on the formation of viral replication complexes (VRC) by ESCRT, such as classical swine fever virus (CSFV) [ 22 ] and brome mosaic virus (BMV) [ 23 ]. As alphacoronavirus rearrange the ER of host cells to form DMVs, a platforms for viral replication [ 12 ], we thus speculated that ALIX and TSG101 may be recruited to DMV to promote virus replication.…”

Section: Resultsmentioning

confidence: 99%

“…In fact, the Crimean-Congo hemorrhagic fever virus relies on ESCRT components to enter cells via MVB [ 28 ]. Meanwhile, TSG101, VPS25, CHMP4B, and CHMP7 play important roles in clathrin-mediated endocytosis of classical swine fever virus [ 22 , 29 ]. Hence, it follows that ESCRT is also involved in viral entry.…”

Section: Discussionmentioning

confidence: 99%

ALIX and TSG101 are essential for cellular entry and replication of two porcine alphacoronaviruses

Chen,

Liang,

Weng

et al. 2024

PLoS Pathog

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Alphacoronaviruses are the primary coronaviruses responsible for causing severe economic losses in the pig industry with the potential to cause human outbreaks. Currently, extensive studies have reported the essential role of endosomal sorting and transport complexes (ESCRT) in the life cycle of enveloped viruses. However, very little information is available about which ESCRT components are crucial for alphacoronaviruses infection. By using RNA interference in combination with Co-immunoprecipitation, as well as fluorescence and electron microscopy approaches, we have dissected the role of ALIX and TSG101 for two porcine alphacoronavirus cellular entry and replication. Results show that infection by two porcine alphacoronaviruses, including porcine epidemic diarrhea virus (PEDV) and porcine enteric alphacoronavirus (PEAV), is dramatically decreased in ALIX- or TSG101-depleted cells. Furthermore, PEDV entry significantly increases the interaction of ALIX with caveolin-1 (CAV1) and RAB7, which are crucial for viral endocytosis and lysosomal transport, however, does not require TSG101. Interestingly, PEAV not only relies on ALIX to regulate viral endocytosis and lysosomal transport, but also requires TSG101 to regulate macropinocytosis. Besides, ALIX and TSG101 are recruited to the replication sites of PEDV and PEAV where they become localized within the endoplasmic reticulum and virus-induced double-membrane vesicles. PEDV and PEAV replication were significantly inhibited by depletion of ALIX and TSG101 in Vero cells or primary jejunal epithelial cells, indicating that ALIX and TSG101 are crucial for PEDV and PEAV replication. Collectively, these data highlight the dual role of ALIX and TSG101 in the entry and replication of two porcine alphacoronaviruses. Thus, ESCRT proteins could serve as therapeutic targets against two porcine alphacoronaviruses infection.

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“…ESCRT-III contains 12 α-helical charged multivesicular body proteins known as CHMP1A, CHMP1B, CHMP2A, CHMP2B, CHMP3, CHMP4A, CHMP4B, CHMP4C, CHMP5, CHMP6, CHMP7, and IST1, and it plays a key role in mediating cellular membrane constriction ( 17 , 18 ). The ESCRT machinery not only is required in cellular processes like plasma membrane repair but also is hijacked by some viruses in different stages of propagation, especially the budding stage ( 19 – 22 ). In these cases, viruses usually encode some conserved peptides, called the L-domain, as an adaptor to recruit ESCRT-associated proteins and utilize them to catalyze membrane fission events.…”

Section: Introductionmentioning

confidence: 99%