Rui Cui scite author profile

There is currently no approved antiviral therapy for treatment of Ebola virus disease. To discover readily available approved drugs that can be rapidly repurposed for treatment of Ebola virus infections, we screened 1280 FDA-approved drugs and identified glycopeptide antibiotic teicoplanin inhibiting Ebola pseudovirus infection by blocking virus entry in the low micromolar range. Teicoplanin could be evaluated further and incorporated into ongoing clinical studies.

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Contact-independent killing mediated by a T6SS effector with intrinsic cell-entry properties

Pan

Yang

et al. 2021

Nat Commun

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Bacterial type VI secretion systems (T6SSs) inject toxic effectors into adjacent eukaryotic and prokaryotic cells. It is generally thought that this process requires physical contact between the two cells. Here, we provide evidence of contact-independent killing by a T6SS-secreted effector. We show that the pathogen Yersinia pseudotuberculosis uses a T6SS (T6SS-3) to secrete a nuclease effector that kills other bacteria in vitro and facilitates gut colonization in mice. The effector (Tce1) is a small protein that acts as a Ca2+- and Mg2+-dependent DNase, and its toxicity is inhibited by a cognate immunity protein, Tci1. As expected, T6SS-3 mediates canonical, contact-dependent killing by directly injecting Tce1 into adjacent cells. In addition, T6SS-3 also mediates killing of neighboring cells in the absence of cell-to-cell contact, by secreting Tce1 into the extracellular milieu. Efficient contact-independent entry of Tce1 into target cells requires proteins OmpF and BtuB in the outer membrane of target cells. The discovery of a contact-independent, long-range T6SS toxin delivery provides a new perspective for understanding the physiological roles of T6SS in competition. However, the mechanisms mediating contact-independent uptake of Tce1 by target cells remain unclear.

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Identification of Positively Charged Residues in Enterovirus 71 Capsid Protein VP1 Essential for Production of Infectious Particles

Yuan

Wang

et al. 2016

J Virol

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Enterovirus 71 (EV71), a positive-stranded RNA virus, is the major cause of hand, foot, and mouth disease (HFMD) in children, which can cause severe central nervous system disease and death. The capsids of EV71 consist of 60 copies of each of four viral structural proteins (VP1 to VP4), with VP1, VP2, and VP3 exposed on the surface and VP4 arranged internally. VP1 plays a central role in particle assembly and cell entry. To gain insight into the role of positively charged residues in VP1 function in these processes, a charged-to-alanine scanning analysis was performed using an infectious cDNA clone of EV71. Twenty-seven mutants containing single charged-to-alanine changes were tested. Sixteen of them were not viable, seven mutants were replication defective, and the remaining four mutants were replication competent. By selecting revertants, second-site mutations which could at least partially restore viral infectivity were identified within VP1 for four defective mutations and two lethal mutations. The resulting residue pairs represent a network of intra-and intermolecular interactions of the VP1 protein which could serve as a potential novel drug target. Interestingly, mutation K215A in the VP1 GH loop led to a significant increase in thermal stability, demonstrating that conditional thermostable mutants can be generated by altering the charge characteristics of VP1. Moreover, all mutants were sensitive to the EV71 entry inhibitor suramin, which binds to the virus particle via the negatively charged naphthalenetrisulfonic acid group, suggesting that single charged-to-alanine mutation is not sufficient for suramin resistance. Taken together, these data highlight the importance of positively charged residues in VP1 for production of infectious particles. IMPORTANCEInfection with EV71 is more often associated with neurological complications in children and is responsible for the majority of fatalities. No licensed vaccines or antiviral therapies are currently available for the prevention or treatment of EV71 infection. Understanding the determinants of virion assembly and entry will facilitate vaccine development and drug discovery. Here, we identified 23 out of 27 positively charged residues in VP1 which impaired or blocked the production of infectious particles. The defect could be rescued by second-site mutations within the VP1 protein. Our findings highlight the importance of positively charged residues in VP1 during infectious particle production and reveal a potential strategy for blocking EV71 infections by inhibiting intra-or intermolecular interactions of the VP1 protein. Enterovirus 71 (EV71) is a nonenveloped icosahedral RNA virus belonging to genus Enterovirus within the family Picornaviridae. Since its first isolation from the stool of an infant with encephalitis in California in 1969 (1), EV71 has been recognized as a major cause of hand, foot, and mouth disease (HFMD), which is associated with severe neurological symptoms in a small proportion of cases (2). There has been a significant incre...

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Rui Cui

Teicoplanin inhibits Ebola pseudovirus infection in cell culture

Contact-independent killing mediated by a T6SS effector with intrinsic cell-entry properties

Identification of Positively Charged Residues in Enterovirus 71 Capsid Protein VP1 Essential for Production of Infectious Particles

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