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1.
Cell Rep Med ; 5(5): 101553, 2024 May 21.
Artículo en Inglés | MEDLINE | ID: mdl-38723626

RESUMEN

BA.2.86, a recently described sublineage of SARS-CoV-2 Omicron, contains many mutations in the spike gene. It appears to have originated from BA.2 and is distinct from the XBB variants responsible for many infections in 2023. The global spread and plethora of mutations in BA.2.86 has caused concern that it may possess greater immune-evasive potential, leading to a new wave of infection. Here, we examine the ability of BA.2.86 to evade the antibody response to infection using a panel of vaccinated or naturally infected sera and find that it shows marginally less immune evasion than XBB.1.5. We locate BA.2.86 in the antigenic landscape of recent variants and look at its ability to escape panels of potent monoclonal antibodies generated against contemporary SARS-CoV-2 infections. We demonstrate, and provide a structural explanation for, increased affinity of BA.2.86 to ACE2, which may increase transmissibility.


Asunto(s)
Enzima Convertidora de Angiotensina 2 , Anticuerpos Antivirales , COVID-19 , Evasión Inmune , SARS-CoV-2 , Glicoproteína de la Espiga del Coronavirus , SARS-CoV-2/inmunología , SARS-CoV-2/metabolismo , SARS-CoV-2/genética , Enzima Convertidora de Angiotensina 2/metabolismo , Enzima Convertidora de Angiotensina 2/química , Humanos , COVID-19/inmunología , COVID-19/virología , Anticuerpos Antivirales/inmunología , Glicoproteína de la Espiga del Coronavirus/inmunología , Glicoproteína de la Espiga del Coronavirus/genética , Glicoproteína de la Espiga del Coronavirus/química , Glicoproteína de la Espiga del Coronavirus/metabolismo , Relación Estructura-Actividad , Anticuerpos Monoclonales/inmunología , Mutación/genética , Anticuerpos Neutralizantes/inmunología , Afinidad de Anticuerpos
2.
Nat Commun ; 15(1): 3284, 2024 Apr 16.
Artículo en Inglés | MEDLINE | ID: mdl-38627386

RESUMEN

The rapid evolution of SARS-CoV-2 is driven in part by a need to evade the antibody response in the face of high levels of immunity. Here, we isolate spike (S) binding monoclonal antibodies (mAbs) from vaccinees who suffered vaccine break-through infections with Omicron sub lineages BA.4 or BA.5. Twenty eight potent antibodies are isolated and characterised functionally, and in some cases structurally. Since the emergence of BA.4/5, SARS-CoV-2 has continued to accrue mutations in the S protein, to understand this we characterize neutralization of a large panel of variants and demonstrate a steady attrition of neutralization by the panel of BA.4/5 mAbs culminating in total loss of function with recent XBB.1.5.70 variants containing the so-called 'FLip' mutations at positions 455 and 456. Interestingly, activity of some mAbs is regained on the recently reported variant BA.2.86.


Asunto(s)
Anticuerpos Monoclonales , Complicaciones Posoperatorias , Humanos , Mutación , SARS-CoV-2/genética , Anticuerpos Neutralizantes , Anticuerpos Antivirales
3.
Nat Commun ; 15(1): 2734, 2024 Mar 28.
Artículo en Inglés | MEDLINE | ID: mdl-38548763

RESUMEN

Under pressure from neutralising antibodies induced by vaccination or infection the SARS-CoV-2 spike gene has become a hotspot for evolutionary change, leading to the failure of all mAbs developed for clinical use. Most potent antibodies bind to the receptor binding domain which has become heavily mutated. Here we study responses to a conserved epitope in sub-domain-1 (SD1) of spike which have become more prominent because of mutational escape from antibodies directed to the receptor binding domain. Some SD1 reactive mAbs show potent and broad neutralization of SARS-CoV-2 variants. We structurally map the dominant SD1 epitope and provide a mechanism of action by blocking interaction with ACE2. Mutations in SD1 have not been sustained to date, but one, E554K, leads to escape from mAbs. This mutation has now emerged in several sublineages including BA.2.86, reflecting selection pressure on the virus exerted by the increasing prominence of the anti-SD1 response.


Asunto(s)
Anticuerpos Neutralizantes , COVID-19 , Sindactilia , Humanos , SARS-CoV-2/genética , Anticuerpos Monoclonales , Epítopos , Glicoproteína de la Espiga del Coronavirus/genética , Anticuerpos Antivirales
4.
Nat Commun ; 14(1): 5065, 2023 08 21.
Artículo en Inglés | MEDLINE | ID: mdl-37604803

RESUMEN

Pronounced immune escape by the SARS-CoV-2 Omicron variant has resulted in many individuals possessing hybrid immunity, generated through a combination of vaccination and infection. Concerns have been raised that omicron breakthrough infections in triple-vaccinated individuals result in poor induction of omicron-specific immunity, and that prior SARS-CoV-2 infection is associated with immune dampening. Taking a broad and comprehensive approach, we characterize mucosal and blood immunity to spike and non-spike antigens following BA.1/BA.2 infections in triple mRNA-vaccinated individuals, with and without prior SARS-CoV-2 infection. We find that most individuals increase BA.1/BA.2/BA.5-specific neutralizing antibodies following infection, but confirm that the magnitude of increase and post-omicron titres are higher in the infection-naive. In contrast, significant increases in nasal responses, including neutralizing activity against BA.5 spike, are seen regardless of infection history. Spike-specific T cells increase only in infection-naive vaccinees; however, post-omicron T cell responses are significantly higher in the previously-infected, who display a maximally induced response with a highly cytotoxic CD8+ phenotype following their 3rd mRNA vaccine dose. Responses to non-spike antigens increase significantly regardless of prior infection status. These findings suggest that hybrid immunity induced by omicron breakthrough infections is characterized by significant immune enhancement that can help protect against future omicron variants.


Asunto(s)
Vacunas contra la COVID-19 , COVID-19 , SARS-CoV-2 , Humanos , COVID-19/inmunología , COVID-19/virología , SARS-CoV-2/clasificación , Vacunas contra la COVID-19/administración & dosificación , Inmunidad , Anticuerpos Antivirales/inmunología , Anticuerpos Neutralizantes , Inmunoglobulina A , Linfocitos T/inmunología , Inmunidad Mucosa , Masculino , Femenino , Adulto
5.
Nat Commun ; 14(1): 3334, 2023 06 07.
Artículo en Inglés | MEDLINE | ID: mdl-37286554

RESUMEN

COVID-19 patients at risk of severe disease may be treated with neutralising monoclonal antibodies (mAbs). To minimise virus escape from neutralisation these are administered as combinations e.g. casirivimab+imdevimab or, for antibodies targeting relatively conserved regions, individually e.g. sotrovimab. Unprecedented genomic surveillance of SARS-CoV-2 in the UK has enabled a genome-first approach to detect emerging drug resistance in Delta and Omicron cases treated with casirivimab+imdevimab and sotrovimab respectively. Mutations occur within the antibody epitopes and for casirivimab+imdevimab multiple mutations are present on contiguous raw reads, simultaneously affecting both components. Using surface plasmon resonance and pseudoviral neutralisation assays we demonstrate these mutations reduce or completely abrogate antibody affinity and neutralising activity, suggesting they are driven by immune evasion. In addition, we show that some mutations also reduce the neutralising activity of vaccine-induced serum.


Asunto(s)
COVID-19 , SARS-CoV-2 , Humanos , SARS-CoV-2/genética , Anticuerpos Monoclonales/uso terapéutico , Inmunoterapia , Mutación , Anticuerpos Neutralizantes , Anticuerpos Antivirales
6.
Cell Rep ; 42(4): 112271, 2023 04 25.
Artículo en Inglés | MEDLINE | ID: mdl-36995936

RESUMEN

In November 2021, Omicron BA.1, containing a raft of new spike mutations, emerged and quickly spread globally. Intense selection pressure to escape the antibody response produced by vaccines or severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection then led to a rapid succession of Omicron sub-lineages with waves of BA.2 and then BA.4/5 infection. Recently, many variants have emerged such as BQ.1 and XBB, which carry up to 8 additional receptor-binding domain (RBD) amino acid substitutions compared with BA.2. We describe a panel of 25 potent monoclonal antibodies (mAbs) generated from vaccinees suffering BA.2 breakthrough infections. Epitope mapping shows potent mAb binding shifting to 3 clusters, 2 corresponding to early-pandemic binding hotspots. The RBD mutations in recent variants map close to these binding sites and knock out or severely knock down neutralization activity of all but 1 potent mAb. This recent mAb escape corresponds with large falls in neutralization titer of vaccine or BA.1, BA.2, or BA.4/5 immune serum.


Asunto(s)
Formación de Anticuerpos , COVID-19 , Humanos , SARS-CoV-2 , Sustitución de Aminoácidos , Anticuerpos Monoclonales , Anticuerpos Antivirales , Anticuerpos Neutralizantes
7.
Cell Rep ; 42(1): 111903, 2023 01 31.
Artículo en Inglés | MEDLINE | ID: mdl-36586406

RESUMEN

Variants of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have caused successive global waves of infection. These variants, with multiple mutations in the spike protein, are thought to facilitate escape from natural and vaccine-induced immunity and often increase in affinity for ACE2. The latest variant to cause concern is BA.2.75, identified in India where it is now the dominant strain, with evidence of wider dissemination. BA.2.75 is derived from BA.2 and contains four additional mutations in the receptor-binding domain (RBD). Here, we perform an antigenic and biophysical characterization of BA.2.75, revealing an interesting balance between humoral evasion and ACE2 receptor affinity. ACE2 affinity for BA.2.75 is increased 9-fold compared with BA.2; there is also evidence of escape of BA.2.75 from immune serum, particularly that induced by Delta infection, which may explain the rapid spread in India, where where there is a high background of Delta infection. ACE2 affinity appears to be prioritized over greater escape.


Asunto(s)
COVID-19 , Hepatitis D , Humanos , Enzima Convertidora de Angiotensina 2 , SARS-CoV-2 , Anticuerpos
8.
Cell ; 185(14): 2422-2433.e13, 2022 07 07.
Artículo en Inglés | MEDLINE | ID: mdl-35772405

RESUMEN

The Omicron lineage of SARS-CoV-2, which was first described in November 2021, spread rapidly to become globally dominant and has split into a number of sublineages. BA.1 dominated the initial wave but has been replaced by BA.2 in many countries. Recent sequencing from South Africa's Gauteng region uncovered two new sublineages, BA.4 and BA.5, which are taking over locally, driving a new wave. BA.4 and BA.5 contain identical spike sequences, and although closely related to BA.2, they contain further mutations in the receptor-binding domain of their spikes. Here, we study the neutralization of BA.4/5 using a range of vaccine and naturally immune serum and panels of monoclonal antibodies. BA.4/5 shows reduced neutralization by the serum from individuals vaccinated with triple doses of AstraZeneca or Pfizer vaccine compared with BA.1 and BA.2. Furthermore, using the serum from BA.1 vaccine breakthrough infections, there are, likewise, significant reductions in the neutralization of BA.4/5, raising the possibility of repeat Omicron infections.


Asunto(s)
COVID-19 , Vacunas Virales , Anticuerpos Neutralizantes , Anticuerpos Antivirales , COVID-19/prevención & control , Humanos , Pruebas de Neutralización , SARS-CoV-2/genética , Sudáfrica
9.
J Virol ; 96(11): e0036422, 2022 06 08.
Artículo en Inglés | MEDLINE | ID: mdl-35588276

RESUMEN

Effective broad-spectrum antivirals are critical to prevent and control emerging human coronavirus (hCoV) infections. Despite considerable progress made toward identifying and evaluating several synthetic broad-spectrum antivirals against hCoV infections, a narrow therapeutic window has limited their success. Enhancing the endogenous interferon (IFN) and IFN-stimulated gene (ISG) response is another antiviral strategy that has been known for decades. However, the side effects of pegylated type-I IFNs (IFN-Is) and the proinflammatory response detected after delayed IFN-I therapy have discouraged their clinical use. In contrast to IFN-Is, IFN-λ, a dominant IFN at the epithelial surface, has been shown to be less proinflammatory. Consequently, we evaluated the prophylactic and therapeutic efficacy of IFN-λ in hCoV-infected airway epithelial cells and mice. Human primary airway epithelial cells treated with a single dose of IFN-I (IFN-α) and IFN-λ showed similar ISG expression, whereas cells treated with two doses of IFN-λ expressed elevated levels of ISG compared to that of IFN-α-treated cells. Similarly, mice treated with two doses of IFN-λ were better protected than mice that received a single dose, and a combination of prophylactic and delayed therapeutic regimens completely protected mice from a lethal Middle East respiratory syndrome CoV (MERS-CoV) infection. A two-dose IFN-λ regimen significantly reduced lung viral titers and inflammatory cytokine levels with marked improvement in lung inflammation. Collectively, we identified an effective regimen for IFN-λ use and demonstrated the protective efficacy of IFN-λ in MERS-CoV-infected mice. IMPORTANCE Effective antiviral agents are urgently required to prevent and treat individuals infected with SARS-CoV-2 and other emerging viral infections. The COVID-19 pandemic has catapulted our efforts to identify, develop, and evaluate several antiviral agents. However, a narrow therapeutic window has limited the protective efficacy of several broad-spectrum and CoV-specific antivirals. IFN-λ is an antiviral agent of interest due to its ability to induce a robust endogenous antiviral state and low levels of inflammation. Here, we evaluated the protective efficacy and effective treatment regimen of IFN-λ in mice infected with a lethal dose of MERS-CoV. We show that while prophylactic and early therapeutic IFN-λ administration is protective, delayed treatment is detrimental. Notably, a combination of prophylactic and delayed therapeutic administration of IFN-λ protected mice from severe MERS. Our results highlight the prophylactic and therapeutic use of IFN-λ against lethal hCoV and likely other viral lung infections.


Asunto(s)
Antivirales , Infecciones por Coronavirus , Interferones , Coronavirus del Síndrome Respiratorio de Oriente Medio , Animales , Antivirales/farmacología , Infecciones por Coronavirus/tratamiento farmacológico , Infecciones por Coronavirus/inmunología , Humanos , Interferones/farmacología , Ratones , Interferón lambda
10.
Front Immunol ; 13: 894534, 2022.
Artículo en Inglés | MEDLINE | ID: mdl-35634338

RESUMEN

Secondary bacterial infections can exacerbate SARS-CoV-2 infection, but their prevalence and impact remain poorly understood. Here, we established that a mild to moderate infection with the SARS-CoV-2 USA-WA1/2020 strain increased the risk of pneumococcal (type 2 strain D39) coinfection in a time-dependent, but sex-independent, manner in the transgenic K18-hACE2 mouse model of COVID-19. Bacterial coinfection increased lethality when the bacteria was initiated at 5 or 7 d post-virus infection (pvi) but not at 3 d pvi. Bacterial outgrowth was accompanied by neutrophilia in the groups coinfected at 7 d pvi and reductions in B cells, T cells, IL-6, IL-15, IL-18, and LIF were present in groups coinfected at 5 d pvi. However, viral burden, lung pathology, cytokines, chemokines, and immune cell activation were largely unchanged after bacterial coinfection. Examining surviving animals more than a week after infection resolution suggested that immune cell activation remained high and was exacerbated in the lungs of coinfected animals compared with SARS-CoV-2 infection alone. These data suggest that SARS-CoV-2 increases susceptibility and pathogenicity to bacterial coinfection, and further studies are needed to understand and combat disease associated with bacterial pneumonia in COVID-19 patients.


Asunto(s)
Infecciones Bacterianas , COVID-19 , Coinfección , Animales , Bacterias , Humanos , Ratones , Ratones Transgénicos , SARS-CoV-2
11.
Vet Pathol ; 59(4): 627-638, 2022 07.
Artículo en Inglés | MEDLINE | ID: mdl-35499307

RESUMEN

Emerging and re-emerging human coronaviruses (hCoVs) cause severe respiratory illness in humans, but the basis for lethal pneumonia in these diseases is not well understood. Alveolar macrophages (AMs) are key orchestrators of host antiviral defense and tissue tolerance during a variety of respiratory infections, and AM dysfunction is associated with severe COVID-19. In this study, using a mouse model of Middle East respiratory syndrome coronavirus (MERS-CoV) infection, we examined the role of AMs in MERS pathogenesis. Our results show that depletion of AMs using clodronate (CL) liposomes significantly increased morbidity and mortality in human dipeptidyl peptidase 4 knock-in (hDPP4-KI) mice. Detailed examination of control and AM-depleted lungs at different days postinfection revealed increased neutrophil activity but a significantly reduced MERS-CoV-specific CD4 T-cell response in AM-deficient lungs during later stages of infection. Furthermore, enhanced MERS severity in AM-depleted mice correlated with lung inflammation and lesions. Collectively, these data demonstrate that AMs are critical for the development of an optimal virus-specific T-cell response and controlling excessive inflammation during MERS-CoV infection.


Asunto(s)
Infecciones por Coronavirus , Macrófagos Alveolares , Coronavirus del Síndrome Respiratorio de Oriente Medio , Neumonía , Animales , Ácido Clodrónico , Infecciones por Coronavirus/inmunología , Macrófagos Alveolares/inmunología , Ratones , Ratones Transgénicos , Neumonía/inmunología , Neumonía/virología
12.
bioRxiv ; 2022 Mar 01.
Artículo en Inglés | MEDLINE | ID: mdl-35262077

RESUMEN

Secondary bacterial infections can exacerbate SARS-CoV-2 infection, but their prevalence and impact remain poorly understood. Here, we established that a mild to moderate SARS-CoV-2 infection increased the risk of pneumococcal coinfection in a time-dependent, but sexindependent, manner in the transgenic K18-hACE mouse model of COVID-19. Bacterial coinfection was not established at 3 d post-virus, but increased lethality was observed when the bacteria was initiated at 5 or 7 d post-virus infection (pvi). Bacterial outgrowth was accompanied by neutrophilia in the groups coinfected at 7 d pvi and reductions in B cells, T cells, IL-6, IL-15, IL-18, and LIF were present in groups coinfected at 5 d pvi. However, viral burden, lung pathology, cytokines, chemokines, and immune cell activation were largely unchanged after bacterial coinfection. Examining surviving animals more than a week after infection resolution suggested that immune cell activation remained high and was exacerbated in the lungs of coinfected animals compared with SARS-CoV-2 infection alone. These data suggest that SARS-CoV-2 increases susceptibility and pathogenicity to bacterial coinfection, and further studies are needed to understand and combat disease associated with bacterial pneumonia in COVID-19 patients.

13.
Viruses ; 13(11)2021 11 21.
Artículo en Inglés | MEDLINE | ID: mdl-34835126

RESUMEN

Across Africa, the Middle East, and Asia, peste des petits ruminants virus (PPRV) places a huge disease burden on agriculture, affecting, in particular, small ruminant production. The recent PPR outbreaks in Northern Africa, the European part of Turkey, and Bulgaria represent a significant threat to mainland Europe, as a source of disease. Although two safe and efficacious live attenuated vaccines (Sungri/96 and Nigeria/75/1) are available for the control of PPR, current serological tests do not enable the differentiation between naturally infected and vaccinated animals (DIVA). The vaccinated animals develop a full range of immune responses to viral proteins and, therefore, cannot be distinguished serologically from those that have recovered from a natural infection. This poses a serious problem for the post-vaccinal sero-surveillance during the ongoing PPR eradication program. Furthermore, during the latter stages of any eradication program, vaccination is only possible if the vaccine used is fully DIVA compliant. Using reverse genetics, we have developed two live attenuated PPR DIVA vaccines (Sungri/96 DIVA and Nigeria/75/1 DIVA), in which the C-terminal variable region of the PPRV N-protein has been replaced with dolphin morbillivirus (DMV). As a proof of principle, both the DIVA vaccines were evaluated in goats in pilot studies for safety and efficacy, and all the animals were clinically protected against the intranasal virulent virus challenge, similar to the parent vaccines. Furthermore, it is possible to differentiate between infected animals and vaccinated animals using two newly developed ELISAs. Therefore, these DIVA vaccines and associated tests can facilitate the sero-monitoring process and speed up the implementation of global PPR eradication through vaccination.


Asunto(s)
Enfermedades de los Animales , Peste de los Pequeños Rumiantes , Virus de la Peste de los Pequeños Rumiantes/inmunología , Rumiantes/virología , Vacunación/veterinaria , Vacunas Virales/inmunología , Enfermedades de los Animales/inmunología , Enfermedades de los Animales/prevención & control , Enfermedades de los Animales/virología , Animales , Peste de los Pequeños Rumiantes/inmunología , Peste de los Pequeños Rumiantes/prevención & control , Peste de los Pequeños Rumiantes/virología
14.
Viruses ; 11(8)2019 07 31.
Artículo en Inglés | MEDLINE | ID: mdl-31370329

RESUMEN

Peste des petits ruminants (PPR) is a disease of small ruminants caused by peste des petits ruminants virus (PPRV), and is endemic in Asia, the Middle East and Africa. Effective control combines the application of early warning systems, accurate laboratory diagnosis and reporting, animal movement restrictions, suitable vaccination and surveillance programs, and the coordination of all these measures by efficient veterinary services. Molecular assays, including conventional reverse transcription-polymerase chain reaction (RT-PCR) and real-time RT-PCR (RT-qPCR) have improved the sensitivity and rapidity of diagnosing PPR. However, currently these assays are only performed within laboratory settings; therefore, the development of field diagnostics for PPR would improve the fast implementation of control policies, particularly when PPR has been targeted to be eradicated by 2030. Loop-mediated isothermal amplification (LAMP) assays are simple to use, rapid, and have sensitivity and specificity within the range of RT-qPCR; and can be performed in the field using disposable consumables and portable equipment. This study describes the development of a novel RT-LAMP assay for the detection of PPRV nucleic acid by targeting the N-protein gene. The RT-LAMP assay was evaluated using cell culture propagated PPRVs, field samples from clinically infected animals and samples from experimentally infected animals encompassing all four lineages (I-IV) of PPRV. The test displayed 100% concordance with RT-qPCR when considering an RT-qPCR cut-off value of CT >40. Further, the RT-LAMP assay was evaluated using experimental and outbreak samples without prior RNA extraction making it more time and cost-effective. This assay provides a solution for a pen-side, rapid and inexpensive PPR diagnostic for use in the field in nascent PPR eradication programme.


Asunto(s)
Brotes de Enfermedades/veterinaria , Técnicas de Amplificación de Ácido Nucleico/métodos , Peste de los Pequeños Rumiantes/diagnóstico , Virus de la Peste de los Pequeños Rumiantes/aislamiento & purificación , Animales , Cartilla de ADN/genética , ADN Viral/aislamiento & purificación , Brotes de Enfermedades/prevención & control , Ojo/virología , Enfermedades de las Cabras/diagnóstico , Enfermedades de las Cabras/virología , Cabras/virología , Nariz/virología , Proteínas de la Nucleocápside/genética , Patología Molecular/métodos , Peste de los Pequeños Rumiantes/sangre , Transcripción Reversa , Sensibilidad y Especificidad , Ovinos , Enfermedades de las Ovejas/diagnóstico , Temperatura
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