I03-Macromolecular Crystallography
I04-Macromolecular Crystallography
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Chang
Liu
,
Raksha
Das
,
Aiste
Dijokaite-Guraliuc
,
Daming
Zhou
,
Alexander J.
Mentzer
,
Piyada
Supasa
,
Muneeswaran
Selvaraj
,
Helen M. E.
Duyvesteyn
,
Thomas G.
Ritter
,
Nigel
Temperton
,
Paul
Klenerman
,
Susanna J.
Dunachie
,
Neil G.
Paterson
,
Mark A.
Williams
,
David R.
Hall
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Jingshan
Ren
,
David I.
Stuart
,
Gavin R.
Screaton
Open Access
Abstract: 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.
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Apr 2024
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Daming
Zhou
,
Piyada
Supasa
,
Chang
Liu
,
Aiste
Dijokaite-Guraliuc
,
Helen M. E.
Duyvesteyn
,
Muneeswaran
Selvaraj
,
Alexander J.
Mentzer
,
Raksha
Das
,
Wanwisa
Dejnirattisai
,
Nigel
Temperton
,
Paul
Klenerman
,
Susanna J.
Dunachie
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Jingshan
Ren
,
David I.
Stuart
,
Gavin R.
Screaton
Open Access
Abstract: 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.
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Mar 2024
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I03-Macromolecular Crystallography
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Aiste
Dijokaite-Guraliuc
,
Raksha
Das
,
Daming
Zhou
,
Helen M.
Ginn
,
Chang
Liu
,
Helen M. E.
Duyvesteyn
,
Jiandong
Huo
,
Rungtiwa
Nutalai
,
Piyada
Supasa
,
Muneeswaran
Selvaraj
,
Thushan I.
De Silva
,
Megan
Plowright
,
Thomas A. H.
Newman
,
Hailey
Hornsby
,
Alexander J.
Mentzer
,
Donal
Skelly
,
Thomas G.
Ritter
,
Nigel
Temperton
,
Paul
Klenerman
,
Eleanor
Barnes
,
Susanna J.
Dunachie
,
Cornelius
Roemer
,
Thomas P.
Peacock
,
Neil G.
Paterson
,
Mark A.
Williams
,
David R.
Hall
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Jingshan
Ren
,
David I.
Stuart
,
Gavin R.
Screaton
Diamond Proposal Number(s):
[27009]
Open Access
Abstract: 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 SARS-CoV-2 infection then led to a rapid succession of Omicron sub-lineages with waves of BA.2 then BA.4/5 infection. Recently, many variants have emerged such as BQ.1 and XBB, which carry up to 8 additional RBD amino-acid substitutions compared to BA.2. We describe a panel of 25 potent 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 titre of vaccine or BA.1, BA.2 or BA.4/5 immune serum.
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Mar 2023
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I03-Macromolecular Crystallography
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Jiandong
Huo
,
Aiste
Dijokaite-Guraliuc
,
Chang
Liu
,
Raksha
Das
,
Piyada
Supasa
,
Muneeswaran
Selvaraj
,
Rungtiwa
Nutalai
,
Daming
Zhou
,
Alexander J.
Mentzer
,
Donal
Skelly
,
Thomas G.
Ritter
,
Ali
Amini
,
Sagida
Bibi
,
Sandra
Adele
,
Sile Ann
Johnson
,
Neil G.
Paterson
,
Mark A.
Williams
,
David R.
Hall
,
Megan
Plowright
,
Thomas A. H.
Newman
,
Hailey
Hornsby
,
Thushan I.
De Silva
,
Nigel
Temperton
,
Paul
Klenerman
,
Eleanor
Barnes
,
Susanna J.
Dunachie
,
Andrew J.
Pollard
,
Teresa
Lambe
,
Philip
Goulder
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Jingshan
Ren
,
David I.
Stuart
,
Gavin R.
Screaton
Diamond Proposal Number(s):
[27009]
Open Access
Abstract: Variants of 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 the 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 to 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 BA.2.75 is now the dominant variant. ACE2 affinity appears to be prioritised over greater escape.
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Dec 2022
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I03-Macromolecular Crystallography
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Jiandong
Huo
,
Aiste
Dijokaite-Guraliuc
,
Rungtiwa
Nutalai
,
Raksha
Das
,
Daming
Zhou
,
Alexander J.
Mentzer
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Jingshan
Ren
,
David I.
Stuart
,
Gavin R.
Screaton
Diamond Proposal Number(s):
[27009]
Open Access
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Nov 2022
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I03-Macromolecular Crystallography
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Aiste
Dijokaite-Guraliuc
,
Raksha
Das
,
Rungtiwa
Nutalai
,
Daming
Zhou
,
Alexander J.
Mentzer
,
Chang
Liu
,
Piyada
Supasa
,
Susanna J.
Dunachie
,
Teresa
Lambe
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Jingshan
Ren
,
Jiandong
Huo
,
David I.
Stuart
,
Gavin R.
Screaton
Diamond Proposal Number(s):
[27009]
Open Access
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Nov 2022
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I03-Macromolecular Crystallography
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Aekkachai
Tuekprakhon
,
Jiandong
Huo
,
Rungtiwa
Nutalai
,
Aiste
Dijokaite-Guraliuc
,
Daming
Zhou
,
Helen M.
Ginn
,
Muneeswaran
Selvaraj
,
Chang
Liu
,
Alexander J.
Mentzer
,
Piyada
Supasa
,
Helen M. E.
Duyvesteyn
,
Raksha
Das
,
Donal
Skelly
,
Thomas G.
Ritter
,
Ali
Amini
,
Sagida
Bibi
,
Sandra
Adele
,
Sile Ann
Johnson
,
Bede
Constantinides
,
Hermione
Webster
,
Nigel
Temperton
,
Paul
Klenerman
,
Eleanor
Barnes
,
Susanna J.
Dunachie
,
Derrick
Crook
,
Andrew J.
Pollard
,
Teresa
Lambe
,
Philip
Goulder
,
Neil G.
Paterson
,
Mark A.
Williams
,
David R.
Hall
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Jingshan
Ren
,
David I.
Stuart
,
Gavin R.
Screaton
,
Christopher
Conlon
,
Alexandra
Deeks
,
John
Frater
,
Lisa
Frending
,
Siobhan
Gardiner
,
Anni
Jämsén
,
Katie
Jeffery
,
Tom
Malone
,
Eloise
Phillips
,
Lucy
Rothwell
,
Lizzie
Stafford
Diamond Proposal Number(s):
[27009]
Open Access
Abstract: The Omicron lineage of SARS-CoV-2, first described in November 2021, spread rapidly to become globally dominant and has split into a number of sub-lineages. 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 sub-lineages, 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, contain further mutations in the receptor binding domain of spike. 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 serum from triple AstraZeneca or Pfizer vaccinated individuals compared to BA.1 and BA.2. Furthermore, using 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.
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Jun 2022
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I03-Macromolecular Crystallography
I04-Macromolecular Crystallography
Krios I-Titan Krios I at Diamond
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Rungtiwa
Nutalai
,
Daming
Zhou
,
Aekkachai
Tuekprakhon
,
Helen M.
Ginn
,
Piyada
Supasa
,
Chang
Liu
,
Jiandong
Huo
,
Alexander J.
Mentzer
,
Helen M. E.
Duyvesteyn
,
Aiste
Dijokaite-Guraliuc
,
Donal
Skelly
,
Thomas G.
Ritter
,
Ali
Amini
,
Sagida
Bibi
,
Sandra
Adele
,
Sile Ann
Johnson
,
Bede
Constantinides
,
Hermione
Webster
,
Nigel
Temperton
,
Paul
Klenerman
,
Eleanor
Barnes
,
Susanna J.
Dunachie
,
Derrick
Crook
,
Andrew J.
Pollard
,
Teresa
Lambe
,
Philip
Goulder
,
Neil G.
Paterson
,
Mark A.
Williams
,
David R.
Hall
,
Juthathip
Mongkolsapaya
,
Elizabeth E.
Fry
,
Wanwisa
Dejnirattisai
,
Jingshan
Ren
,
David I.
Stuart
,
Gavin R.
Screaton
,
Christopher
Conlon
,
Alexandra
Deeks
,
John
Frater
,
Lisa
Frending
,
Siobhan
Gardiner
,
Anni
Jämsén
,
Katie
Jeffery
,
Tom
Malone
,
Eloise
Phillips
,
Lucy
Rothwell
,
Lizzie
Stafford
Diamond Proposal Number(s):
[27009, 26983]
Open Access
Abstract: Highly transmissible Omicron variants of SARS-CoV-2 currently dominate globally. Here, we compare neutralization of Omicron BA.1, BA.1.1 and BA.2. BA.2 RBD has slightly higher ACE2 affinity than BA.1 and slightly reduced neutralization by vaccine serum, possibly associated with its increased transmissibility. Neutralization differences between sub-lineages for mAbs (including therapeutics) mostly arise from variation in residues bordering the ACE2 binding site, however, more distant mutations S371F (BA.2) and R346K (BA.1.1) markedly reduce neutralization by therapeutic antibody Vir-S309. In-depth structure-and-function analyses of 27 potent RBD-binding mAbs isolated from vaccinated volunteers following breakthrough Omicron-BA.1 infection reveals that they are focussed in two main clusters within the RBD, with potent right-shoulder antibodies showing increased prevalence. Selection and somatic maturation have optimized antibody potency in less-mutated epitopes and recovered potency in highly mutated epitopes. All 27 mAbs potently neutralize early pandemic strains and many show broad reactivity with variants of concern.
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May 2022
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I03-Macromolecular Crystallography
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Wanwisa
Dejnirattisai
,
Jiandong
Huo
,
Daming
Zhou
,
Jiří
Zahradník
,
Piyada
Supasa
,
Chang
Liu
,
Helen M. E.
Duyvesteyn
,
Helen M.
Ginn
,
Alexander J.
Mentzer
,
Aekkachai
Tuekprakhon
,
Rungtiwa
Nutalai
,
Beibei
Wang
,
Aiste
Dijokaite
,
Suman
Khan
,
Ori
Avinoam
,
Mohammad
Bahar
,
Donal
Skelly
,
Sandra
Adele
,
Sile Ann
Johnson
,
Ali
Amini
,
Thomas
Ritter
,
Chris
Mason
,
Christina
Dold
,
Daniel
Pan
,
Sara
Assadi
,
Adam
Bellass
,
Nikki
Omo-Dare
,
David
Koeckerling
,
Amy
Flaxman
,
Daniel
Jenkin
,
Parvinder K.
Aley
,
Merryn
Voysey
,
Sue Ann
Costa Clemens
,
Felipe Gomes
Naveca
,
Valdinete
Nascimento
,
Fernanda
Nascimento
,
Cristiano
Fernandes Da Costa
,
Paola Cristina
Resende
,
Alex
Pauvolid-Correa
,
Marilda M.
Siqueira
,
Vicky
Baillie
,
Natali
Serafin
,
Gaurav
Kwatra
,
Kelly
Da Silva
,
Shabir A.
Madhi
,
Marta C.
Nunes
,
Tariq
Malik
,
Peter J. M.
Openshaw
,
J. Kenneth
Baillie
,
Malcolm G.
Semple
,
Alain R.
Townsend
,
Kuan-Ying A.
Huang
,
Tiong Kit
Tan
,
Miles W.
Carroll
,
Paul
Klenerman
,
Eleanor
Barnes
,
Susanna J.
Dunachie
,
Bede
Constantinides
,
Hermione
Webster
,
Derrick
Crook
,
Andrew J.
Pollard
,
Teresa
Lambe
,
Neil G.
Paterson
,
Mark A.
Williams
,
David R.
Hall
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Jingshan
Ren
,
Gideon
Schreiber
,
David I.
Stuart
,
Gavin R.
Screaton
Diamond Proposal Number(s):
[27009]
Open Access
Abstract: On the 24th November 2021 the sequence of a new SARS CoV-2 viral isolate Omicron-B.1.1.529 was announced, containing far more mutations in Spike (S) than previously reported variants. Neutralization titres of Omicron by sera from vaccinees and convalescent subjects infected with early pandemic as well as Alpha, Beta, Gamma, Delta are substantially reduced or fail to neutralize. Titres against Omicron are boosted by third vaccine doses and are high in cases both vaccinated and infected by Delta. Mutations in Omicron knock out or substantially reduce neutralization by most of a large panel of potent monoclonal antibodies and antibodies under commercial development. Omicron S has structural changes from earlier viruses, combining mutations conferring tight binding to ACE2 to unleash evolution driven by immune escape, leading to a large number of mutations in the ACE2 binding site which rebalance receptor affinity to that of early pandemic viruses.
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Jan 2022
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