13 research outputs found

    Hepatitis C virus NS5A protein blocks epidermal growth factor receptor degradation via a proline motif- dependent interaction

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    Hepatitis C virus (HCV) establishes a persistent infection that in many cases leads to cirrhosis and hepatocellular carcinoma. The non-structural 5A protein (NS5A) has been implicated in this process as it contains a C-terminal polyproline motif (termed P2) that binds to Src homology 3 (SH3) domains to regulate cellular signalling and trafficking pathways. We have shown previously that NS5A impaired epidermal growth factor (EGF) receptor (EGFR) endocytosis, thereby inhibiting EGF-stimulated EGFR degradation by a mechanism that remained unclear. As EGFR has been implicated in HCV cell entry and trafficking of the receptor involves several SH3-domain containing proteins, we investigated in more detail the mechanisms by which NS5A perturbs EGFR trafficking. We demonstrated that the P2 motif was required for the NS5A-mediated disruption to EGFR trafficking. We further demonstrated that the P2 motif was required for an interaction between NS5A and CMS, a homologue of CIN85 that has previously been implicated in EGFR endocytosis. We provided evidence that CMS was involved in the NS5A-mediated perturbation of EGFR trafficking. We also showed that NS5A effected a loss of EGFR ubiquitination in a P2-motif-dependent fashion. These data provide clues to the mechanism by which NS5A regulates the trafficking of a key cellular receptor and demonstrate for the first time the ability of NS5A to regulate host cell ubiquitination pathways

    From more testing to smart testing:data-guided SARS-CoV-2 testing choices, the Netherlands, May to September 2020

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    BACKGROUND: SARS-CoV-2 RT-PCR assays are more sensitive than rapid antigen detection assays (RDT) and can detect viral RNA even after an individual is no longer infectious. RDT can reduce the time to test and the results might better correlate with infectiousness. AIM: We assessed the ability of five RDT to identify infectious COVID-19 cases and systematically recorded the turnaround time of RT-PCR testing. METHODS: Sensitivity of RDT was determined using a serially diluted SARS-CoV-2 stock with known viral RNA concentration. The probability of detecting infectious virus at a given viral load was calculated using logistic regression of viral RNA concentration and matched culture results of 78 specimens from randomly selected non-hospitalised cases. The probability of each RDT to detect infectious cases was calculated as the sum of the projected probabilities for viral isolation success for every viral RNA load found at the time of diagnosis in 1,739 confirmed non-hospitalised COVID-19 cases. RESULTS: The distribution of quantification cycle values and estimated RNA loads for patients reporting to drive-through testing was skewed to high RNA loads. With the most sensitive RDT (Abbott and SD Biosensor), 97.30% (range: 88.65–99.77) of infectious individuals would be detected. This decreased to 92.73% (range: 60.30–99.77) for Coris BioConcept and GenBody, and 75.53% (range: 17.55–99.77) for RapiGEN. Only 32.9% of RT-PCR results were available on the same day as specimen collection. CONCLUSION: The most sensitive RDT detected infectious COVID-19 cases with high sensitivity and may considerably improve containment through more rapid isolation and contact tracing

    An evaluation of COVID-19 serological assays informs future diagnostics and exposure assessment

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    The world is entering a new era of the COVID-19 pandemic in which there is an increasing call for reliable antibody testing. To support decision making on the deployment of serology for either population screening or diagnostics, we present a detailed comparison of serological COVID-19 assays. We show that among the selected assays there is a wide diversity in assay performance in different scenarios and when correlated to virus neutralizing antibodies. The Wantai ELISA detecting total immunoglobulins against the receptor binding domain of SARS CoV-2, has the best overall characteristics to detect functional antibodies in different stages and severity of disease, including the potential to set a cut-off indicating the presence of protective antibodies. The large variety of available serological assays requires proper assay validation before deciding on deployment of assays for specific applications

    Identifying novel interaction partners for the hepatitis C virus NS5A protein by screening a human SH3 domain phage display library

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    The hepatitis C virus is a worldwide cause of liver disease by infecting approximately 2 % of the population. One of its non-structural protein, NS5A, Is known to interact with many cellular proteins involved in cell signaling pathways. Doing so modifies the outcome of the signalling for the benefit of virus replication and survival. We have previously demonstrated that NSSA contains two Class II poly-proline motifs in the second low complexity sequence, with the consensus sequence Pro-X-X-Pro-X-Lys/ Arg, which mediate the interaction with SH3 domain containing proteins. Substitution of the prolines with alanines did not have an effect on RNA replication but disrupted interactions with SH3 domain containing proteins. In order to identify novel NSSA binding partners, genotype 2a (JFH1) NSSA was expressed with a biotin tag individually or in the context of the replicon as an experimental requirement to screen an all human SH3 domain displaying library. In total, sixteen SH3 domain containing binding partners were identified, from which Mlk3, RelA, Vinexin, PACSIN1 RBP2 and STAC1 were novel targets. The interaction of NS5A with Amph1, CMS, Nck1 and Ponsin were investigated in more details. Interactions of NS5A with Amph1 and CMS were confirmed using immunoprecipitation, immunofluorescence and biochemical assays. Interestingly these proteins have been implicated in clathrin-mediated endocytosis and epidermal growth factor receptor trafficking. Upon overexpression of wt but not the proline mutant NSSA the cellular localization of Amph1 was altered and interaction with dynamin2, a well characterized partner of Amph1, was disrupted. Furthermore, as it was reported before, NS5A diverts the epidermal growth factor receptor away from the late endosomes thereby modifying its degradation rate and signalling capability towards amongst other targets the Ras-Erk mitogen-activated protein kinase pathway, a signalling cascade known to be inhibited by NS5A in a PxxPxR dependent manner. NS5A-CMS and EGFR was found to co-localise to vesicles upon EGF stimulation and overexpression of CMS was found to reverse the effect of NS5A on EGFR.EThOS - Electronic Theses Online ServiceGBUnited Kingdo

    Clinical evaluation of the SD Biosensor SARS-CoV-2 saliva antigen rapid test with symptomatic and asymptomatic, non-hospitalized patients

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    Background Performance of the SD Biosensor saliva antigen rapid test was evaluated at a large designated testing site in non-hospitalized patients, with or without symptoms. Method All eligible people over 18 years of age presenting for a booked appointment at the designated SARS-CoV-2 testing site were approached for inclusion and enrolled following verbal informed consent. One nasopharyngeal swab was taken to carry out the default antigen rapid test from which the results were reported back to the patient and one saliva sample was self-taken according to verbal instruction on site. This was used for the saliva antigen rapid test, the RT-PCR and for virus culture. Sensitivity of the saliva antigen rapid test was analyzed in two ways: I, compared to saliva RT-PCR; and ii, compared to virus culture of the saliva samples. Study participants were also asked to fill in a short questionnaire stating age, sex, date of symptom onset. Recommended time of ≥30mins since last meal, drink or cigarette if applicable was also recorded. The study was carried out in February-March 2021 for 4 weeks. Results We could include 789 people with complete records and results. Compared to saliva RTPCR, overall sensitivity and specificity of the saliva antigen rapid test was 66.1% and 99.6% which increased to 88.6% with Ct ≤30 cutoff. Analysis by days post onset did not result in higher sensitivities because the large majority of people were in the very early phase of disease ie <3 days post onset. When breaking down the data for symptomatic and asymptomatic individuals, sensitivity ranged from 69.2% to 50% respectively, however the total number of RT-PCR positive asymptomatic participants was very low (n = 5). Importantly, almost all culture positive samples were detected by the rapid test. Conclusion Overall, the potential benefits of saliva antigen rapid test, could outweigh the lower sensitivity compared to nasopharyngeal antigen rapid test in a comprehensive testing strategy, especially for home/self-testing and in vulnerable populations like elderly, disabled or children where in intrusive testing is either not possible or causes unnecessary stress
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