Juyeon Park scite author profile

The COVID-19 pandemic has led to accelerated efforts to develop therapeutics and vaccines. A key target of these efforts is the spike (S) protein, which is metastable and difficult to produce recombinantly. Here, we characterized 100 structure-guided spike designs and identified 26 individual substitutions that increased protein yields and stability. Testing combinations of beneficial substitutions resulted in the identification of HexaPro, a variant with six beneficial proline substitutions exhibiting ~10-fold higher expression than its parental construct and the ability to withstand heat stress, storage at room temperature, and three freeze-thaw cycles. A 3.2 Å-resolution cryo-EM structure of HexaPro confirmed that it retains the prefusion spike conformation. High-yield production of a stabilized prefusion spike protein will accelerate the development of vaccines and serological diagnostics for SARS-CoV-2.

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Heterologous versus homologous COVID-19 booster vaccination in previous recipients of two doses of CoronaVac COVID-19 vaccine in Brazil (RHH-001): a phase 4, non-inferiority, single blind, randomised study

Clemens

et al. 2022

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Introduction The inactivated whole-virion SARS-CoV-2 vaccine (CoronaVac, Sinovac) has been widely used in a two-dose schedule. We assessed whether a third dose of the homologous or a different vaccine could boost immune responses. Methods RHH-001 is a phase 4, participant masked, two centre, safety and immunogenicity study of Brazilian adults (18 years and older) in São Paulo or Salvador who had received two doses of CoronaVac 6 months previously. The third heterologous dose was of either a recombinant adenoviral vectored vaccine (Ad26.COV2-S, Janssen), an mRNA vaccine (BNT162b2, Pfizer–BioNTech), or a recombinant adenoviral-vectored ChAdOx1 nCoV-19 vaccine (AZD1222, AstraZeneca), compared with a third homologous dose of CoronaVac. Participants were randomly assigned (5:6:5:5) by a RedCAP computer randomisation system stratified by site, age group (18–60 years or 61 years and over), and day of randomisation, with a block size of 42. The primary outcome was non-inferiority of anti-spike IgG antibodies 28 days after the booster dose in the heterologous boost groups compared with homologous regimen, using a non-inferiority margin for the geometric mean ratio (heterologous vs homologous) of 0·67. Secondary outcomes included neutralising antibody titres at day 28, local and systemic reactogenicity profiles, adverse events, and serious adverse events. This study was registered with Registro Brasileiro de Ensaios Clínicos, number RBR–9nn3scw. Findings Between Aug 16, and Sept 1, 2021, 1240 participants were randomly assigned to one of the four groups, of whom 1239 were vaccinated and 1205 were eligible for inclusion in the primary analysis. Antibody concentrations were low before administration of a booster dose with detectable neutralising antibodies of 20·4% (95% CI 12·8–30·1) in adults aged 18–60 years and 8·9% (4·2–16·2) in adults 61 years or older. From baseline to day 28 after the booster vaccine, all groups had a substantial rise in IgG antibody concentrations: the geometric fold-rise was 77 (95% CI 67–88) for Ad26.COV2-S, 152 (134–173) for BNT162b2, 90 (77–104) for ChAdOx1 nCoV-19, and 12 (11–14) for CoronaVac. All heterologous regimens had anti-spike IgG responses at day 28 that were superior to homologous booster responses: geometric mean ratios (heterologous vs homologous) were 6·7 (95% CI 5·8–7·7) for Ad26.COV2-S, 13·4 (11·6–15·3) for BNT162b2, and 7·0 (6·1–8·1) for ChAdOx1 nCoV-19. All heterologous boost regimens induced high concentrations of pseudovirus neutralising antibodies. At day 28, all groups except for the homologous boost in the older adults reached 100% seropositivity: geometric mean ratios (heterologous vs homologous) were 8·7 (95% CI 5·9–12·9) for Ad26.COV2-S vaccine, 21·5 (14·5–31·9) for BNT162b2, and 10·6 (7·2–15·6) for ChAdOx1 nCoV-19. Live virus neutralising antibodies were also boosted against delta (B.1.617.2) and omicron variants (B.1.1.529). There were five...

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Structure-based Design of Prefusion-stabilized SARS-CoV-2 Spikes

Hsieh

Goldsmith

Schaub

et al. 2020

Preprint

189

294

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1The COVID-19 pandemic caused by the novel coronavirus SARS-CoV-2 has led to accelerated 2 efforts to develop therapeutics, diagnostics, and vaccines to mitigate this public health 3 emergency. A key target of these efforts is the spike (S) protein, a large trimeric class I fusion 4 protein that is metastable and difficult to produce recombinantly in large quantities. Here, we 5 designed and expressed over 100 structure-guided spike variants based upon a previously 6 determined cryo-EM structure of the prefusion SARS-CoV-2 spike. Biochemical, biophysical 7 and structural characterization of these variants identified numerous individual substitutions that 8 increased protein yields and stability. The best variant, HexaPro, has six beneficial proline 9 substitutions leading to ~10-fold higher expression than its parental construct and is able to 10 withstand heat stress, storage at room temperature, and multiple freeze-thaws. A 3.2 Å-resolution 11 cryo-EM structure of HexaPro confirmed that it retains the prefusion spike conformation. High-12 yield production of a stabilized prefusion spike protein will accelerate the development of 13 vaccines and serological diagnostics for SARS-CoV-2. 14 3 INTRODUCTION 15 Coronaviruses are enveloped viruses containing positive-sense RNA genomes. Four human 16 coronaviruses generally cause mild respiratory illness and circulate annually. However, SARS-17 CoV and MERS-CoV were acquired by humans via zoonotic transmission and caused outbreaks 18 of severe respiratory infections with high case-fatality rates in 2002 and 2012, respectively 1,2 . 19 SARS-CoV-2 is a novel betacoronavirus that emerged in Wuhan, China in December 2019 and 20 is the causative agent of the ongoing COVID-19 pandemic 3,4 . As of May 26, 2020, the WHO has 21 reported over 5 million cases and 350,000 deaths worldwide. Effective vaccines, therapeutic 22 antibodies and small-molecule inhibitors are urgently needed, and the development of these 23 interventions is proceeding rapidly. 24 Coronavirus virions are decorated with a spike (S) glycoprotein that binds to host-cell 25 receptors and mediates cell entry via fusion of the host and viral membranes 5 . S proteins are 26 trimeric class I fusion proteins that are expressed as a single polypeptide that is subsequently 27cleaved into S1 and S2 subunits by cellular proteases 6,7 . The S1 subunit contains the receptor-28 binding domain (RBD), which, in the case of SARS-CoV-2, recognizes the angiotensin-29 converting enzyme 2 (ACE2) receptor on the host-cell surface [8][9][10] . The S2 subunit mediates 30 membrane fusion and contains an additional protease cleavage site, referred to as S2′, that is 31 adjacent to a hydrophobic fusion peptide. Binding of the RBD to ACE2 triggers S1 dissociation, 32 allowing for a large rearrangement of S2 as it transitions from a metastable prefusion 33 conformation to a highly stable postfusion conformation 6,11 . During this rearrangement, the 34 fusion peptide is inserted into the host-cell membrane after cleavage at S2′, and two h...

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Application of electrochemical impedance spectroscopy to commercial Li-ion cells: A review

Meddings

Heinrich

Overney

et al. 2020

Journal of Power Sources

482

196

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Coronin-1 is a neurotrophin endosomal effector that is required for developmental competition for survival

et al. 2013

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Retrograde communication from axonal targets to neuronal cell bodies is critical for both development and function of the nervous system. Much progress has been made in recent years linking long-distance, retrograde signaling to a signaling endosome, yet the mechanisms governing the trafficking and signaling of these endosomes remain mainly uncharacterized. Here we report that in mouse sympathetic neurons the target-derived NGF-TrkA signaling endosome, upon arrival at the cell body, induces the expression and recruitment of a novel effector protein known as Coronin-1. In the absence of Coronin-1, the NGF-TrkA signaling endosome fuses to lysosomes 6–10 fold faster than when Coronin-1 is intact. We also define a novel Coronin-1-dependent trafficking event where signaling endosomes recycle and re-internalize upon arrival at the cell body. Beyond influencing endosomal trafficking, Coronin-1 is also required for several NGF-TrkA dependent-signaling events including calcium release, calcineurin activation, and CREB phosphorylation. These results establish Coronin-1 as an essential component of a novel feedback loop mediating NGF-TrkA endosome stability, recycling, and signaling as a critical mechanism governing developmental competition for survival.

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Juyeon Park

Structure-based design of prefusion-stabilized SARS-CoV-2 spikes

Heterologous versus homologous COVID-19 booster vaccination in previous recipients of two doses of CoronaVac COVID-19 vaccine in Brazil (RHH-001): a phase 4, non-inferiority, single blind, randomised study

Structure-based Design of Prefusion-stabilized SARS-CoV-2 Spikes

Application of electrochemical impedance spectroscopy to commercial Li-ion cells: A review

Coronin-1 is a neurotrophin endosomal effector that is required for developmental competition for survival

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