Peter Rigaux scite author profile

Graphical AbstractHighlights d Cryo-EM structure of RSV L bound by tetrameric RSV P solved to 3.2 Å d P tetramer adopts an asymmetric tentacular arrangement when bound to L d L priming loop adopts elongation-compatible state without PRNTase-RdRp separation d Structure rationalizes escape from small-molecule antivirals SUMMARY Numerous interventions are in clinical development for respiratory syncytial virus (RSV) infection, including small molecules that target viral transcription and replication. These processes are catalyzed by a complex comprising the RNA-dependent RNA polymerase (L) and the tetrameric phosphoprotein (P). RSV P recruits multiple proteins to the polymerase complex and, with the exception of its oligomerization domain, is thought to be intrinsically disordered. Despite their critical roles in RSV transcription and replication, structures of L and P have remained elusive. Here, we describe the 3.2-Å cryo-EM structure of RSV L bound to tetrameric P. The structure reveals a striking tentacular arrangement of P, with each of the four monomers adopting a distinct conformation. The structure also rationalizes inhibitor escape mutants and mutations observed in live-attenuated vaccine candidates. These results provide a framework for determining the molecular underpinnings of RSV replication and transcription and should facilitate the design of effective RSV inhibitors.

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Therapeutic efficacy of a respiratory syncytial virus fusion inhibitor

Roymans

et al. 2017

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Respiratory syncytial virus is a major cause of acute lower respiratory tract infection in young children, immunocompromised adults, and the elderly. Intervention with small-molecule antivirals specific for respiratory syncytial virus presents an important therapeutic opportunity, but no such compounds are approved today. Here we report the structure of JNJ-53718678 bound to respiratory syncytial virus fusion (F) protein in its prefusion conformation, and we show that the potent nanomolar activity of JNJ-53718678, as well as the preliminary structure–activity relationship and the pharmaceutical optimization strategy of the series, are consistent with the binding mode of JNJ-53718678 and other respiratory syncytial virus fusion inhibitors. Oral treatment of neonatal lambs with JNJ-53718678, or with an equally active close analog, efficiently inhibits established acute lower respiratory tract infection in the animals, even when treatment is delayed until external signs of respiratory syncytial virus illness have become visible. Together, these data suggest that JNJ-53718678 is a promising candidate for further development as a potential therapeutic in patients at risk to develop respiratory syncytial virus acute lower respiratory tract infection.

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Lactobacillus priming of the respiratory tract: Heterologous immunity and protection against lethal pneumovirus infection

Garcia-Crespo¹,

Chan²,

Gabryszewski³

et al. 2013

Antiviral Research

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We showed previously that wild-type mice primed via intranasal inoculation with live or heat-inactivated Lactobacillus species were fully (100%) protected against the lethal sequelae of infection with the virulent pathogen, pneumonia virus of mice (PVM), a response that is associated with diminished expression of proinflammatory cytokines and diminished virus recovery. We show here that 40% of the mice primed with live Lactobacillus survived when PVM challenge was delayed for 5 months. This robust and sustained resistance to PVM infection resulting from prior interaction with an otherwise unrelated microbe is a profound example of heterologous immunity. We undertook the present study in order to understand the nature and unique features of this response. We found that intranasal inoculation with L. reuteri elicited rapid, transient neutrophil recruitment in association with proinflammatory mediators (CXCL1, CCL3, CCL2, CXCL10, TNF-alpha and IL-17A) but not Th1 cytokines. IFNγ does not contribute to survival promoted by Lactobacillus-priming. Live L. reuteri detected in lung tissue underwent rapid clearance, and was undetectable at 24 hrs after inoculation. In contrast, L. reuteri peptidoglycan (PGN) and L. reuteri genomic DNA (gDNA) were detected at 24 and 48 hours after inoculation, respectively. In contrast to live bacteria, intranasal inoculation with isolated L. reuteri gDNA elicited no neutrophil recruitment, had minimal impact on virus recovery and virus-associated production of CCL3, and provided no protection against the negative sequelae of virus infection. Isolated PGN elicited neutrophil recruitment and proinflammatory cytokines but did not promote sustained survival in response to subsequent PVM infection. Overall, further evaluation of the responses leading to Lactobacillus-mediated heterologous immunity may provide insight into novel antiviral preventive modalities.

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Immunomodulatory properties of Lactobacillus plantarum and its use as a recombinant vaccine against mite allergy

Rigaux¹,

Daniel²,

Hisbergues³

et al. 2009

Allergy

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In vivo and in vitro immunomodulation of Der p 1 allergen‐specific response by Lactobacillus plantarum bacteria

Hisbergues

Magi²,

Rigaux³

et al. 2007

Clin Experimental Allergy

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Peter Rigaux

Structure of the Respiratory Syncytial Virus Polymerase Complex

Therapeutic efficacy of a respiratory syncytial virus fusion inhibitor

Lactobacillus priming of the respiratory tract: Heterologous immunity and protection against lethal pneumovirus infection

Immunomodulatory properties of Lactobacillus plantarum and its use as a recombinant vaccine against mite allergy

In vivo and in vitro immunomodulation of Der p 1 allergen‐specific response by Lactobacillus plantarum bacteria

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