FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4385514758> ?p ?o ?g. }

• W4385514758 abstract "ABSTRACT While immune correlates against SARS-CoV-2 are typically defined at peak immunogenicity following vaccination, immunologic responses that expand selectively during the anamnestic response following infection can provide mechanistic and detailed insights into the immune mechanisms of protection. Moreover, whether anamnestic correlates are conserved across variants of concern (VOC), including the Delta and more distant Omicron VOC, remains unclear. To define the anamnestic correlates of immunity, across VOCs, we deeply profiled the humoral immune response in individuals infected with sequence-confirmed Delta or Omicron VOC after completing the vaccination series. While limited acute N-terminal domain and receptor-binding domain (RBD)-specific immune expansion was observed following breakthrough infection, a significant immunodominant expansion of opsonophagocytic Spike-specific antibody responses focused largely on the conserved S2-domain of SARS-CoV-2 was observed. This S2-specific functional humoral response continued to evolve over 2–3 weeks following Delta or Omicron breakthrough, targeting multiple VOCs and common coronaviruses. Strong responses were observed on the fusion peptide (FP) region and the heptad repeat 1 (HR1) region adjacent to the RBD. Notably, the FP is highly conserved across SARS-related coronaviruses and even non-SARS-related betacoronavirus. Taken together, our results point to a critical role of highly conserved, functional S2-specific responses in the anamnestic antibody response to SARS-CoV-2 infection across VOCs. These humoral responses linked to virus clearance can guide next-generation vaccine-boosting approaches to confer broad protection against future SARS-related coronaviruses. IMPORTANCE The Spike protein of SARS-CoV-2 is the primary target of antibody-based recognition. Selective pressures, be it the adaption to human-to-human transmission or evasion of previously acquired immunity, have spurred the emergence of variants of the virus such as the Delta and Omicron lineages. Therefore, understanding how antibody responses are expanded in breakthrough cases of previously vaccinated individuals can provide insights into key correlates of protection against current and future variants. Here, we show that vaccinated individuals who had documented COVID-19 breakthrough showed anamnestic antibody expansions targeting the conserved S2 subdomain of Spike, particularly within the fusion peptide region. These S2-directed antibodies were highly leveraged for non-neutralizing, phagocytic functions and were similarly expanded independent of the variant. We propose that through deep profiling of anamnestic antibody responses in breakthrough cases, we can identify antigen targets susceptible to novel monoclonal antibody therapy or vaccination-boosting strategies." @default.
• W4385514758 created "2023-08-04" @default.
• W4385514758 creator A5002770448 @default.
• W4385514758 creator A5003051495 @default.
• W4385514758 creator A5010481613 @default.
• W4385514758 creator A5021360047 @default.
• W4385514758 creator A5021510904 @default.
• W4385514758 creator A5027759677 @default.
• W4385514758 creator A5029533472 @default.
• W4385514758 creator A5033446207 @default.
• W4385514758 creator A5038377747 @default.
• W4385514758 creator A5044188951 @default.
• W4385514758 creator A5045975864 @default.
• W4385514758 creator A5047880468 @default.
• W4385514758 creator A5049183449 @default.
• W4385514758 creator A5059371880 @default.
• W4385514758 creator A5067497307 @default.
• W4385514758 creator A5067610777 @default.
• W4385514758 creator A5074894886 @default.
• W4385514758 creator A5080175927 @default.
• W4385514758 creator A5091406845 @default.
• W4385514758 creator A5091881971 @default.
• W4385514758 date "2023-08-03" @default.
• W4385514758 modified "2023-09-30" @default.
• W4385514758 title "Anamnestic humoral correlates of immunity across SARS-CoV-2 variants of concern" @default.
• W4385514758 cites W2012521659 @default.
• W4385514758 cites W2149569400 @default.
• W4385514758 cites W2435715880 @default.
• W4385514758 cites W2585172252 @default.
• W4385514758 cites W2734356283 @default.
• W4385514758 cites W2750464792 @default.
• W4385514758 cites W2762161295 @default.
• W4385514758 cites W2946773123 @default.
• W4385514758 cites W3009912996 @default.
• W4385514758 cites W3031830637 @default.
• W4385514758 cites W3033192149 @default.
• W4385514758 cites W3045933491 @default.
• W4385514758 cites W3047091198 @default.
• W4385514758 cites W3083406432 @default.
• W4385514758 cites W3096867322 @default.
• W4385514758 cites W3108193091 @default.
• W4385514758 cites W3113228067 @default.
• W4385514758 cites W3126729284 @default.
• W4385514758 cites W3130615914 @default.
• W4385514758 cites W3136247297 @default.
• W4385514758 cites W3136693147 @default.
• W4385514758 cites W3158276912 @default.
• W4385514758 cites W3165441111 @default.
• W4385514758 cites W3166215311 @default.
• W4385514758 cites W3171375949 @default.
• W4385514758 cites W3172812363 @default.
• W4385514758 cites W3189544042 @default.
• W4385514758 cites W3189985782 @default.
• W4385514758 cites W3192545069 @default.
• W4385514758 cites W3198072694 @default.
• W4385514758 cites W4200559902 @default.
• W4385514758 cites W4205483821 @default.
• W4385514758 cites W4205497912 @default.
• W4385514758 cites W4210493562 @default.
• W4385514758 cites W4214943884 @default.
• W4385514758 cites W4220689791 @default.
• W4385514758 cites W4220730627 @default.
• W4385514758 cites W4220807057 @default.
• W4385514758 cites W4220907252 @default.
• W4385514758 cites W4221072241 @default.
• W4385514758 cites W4224950216 @default.
• W4385514758 cites W4225691034 @default.
• W4385514758 cites W4225982774 @default.
• W4385514758 cites W4285041350 @default.
• W4385514758 cites W4285041384 @default.
• W4385514758 cites W4288067813 @default.
• W4385514758 cites W4311448444 @default.
• W4385514758 cites W4321112414 @default.
• W4385514758 doi "https://doi.org/10.1128/mbio.00902-23" @default.
• W4385514758 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37535402" @default.
• W4385514758 hasPublicationYear "2023" @default.
• W4385514758 type Work @default.
• W4385514758 citedByCount "1" @default.
• W4385514758 countsByYear W43855147582023 @default.
• W4385514758 crossrefType "journal-article" @default.
• W4385514758 hasAuthorship W4385514758A5002770448 @default.
• W4385514758 hasAuthorship W4385514758A5003051495 @default.
• W4385514758 hasAuthorship W4385514758A5010481613 @default.
• W4385514758 hasAuthorship W4385514758A5021360047 @default.
• W4385514758 hasAuthorship W4385514758A5021510904 @default.
• W4385514758 hasAuthorship W4385514758A5027759677 @default.
• W4385514758 hasAuthorship W4385514758A5029533472 @default.
• W4385514758 hasAuthorship W4385514758A5033446207 @default.
• W4385514758 hasAuthorship W4385514758A5038377747 @default.
• W4385514758 hasAuthorship W4385514758A5044188951 @default.
• W4385514758 hasAuthorship W4385514758A5045975864 @default.
• W4385514758 hasAuthorship W4385514758A5047880468 @default.
• W4385514758 hasAuthorship W4385514758A5049183449 @default.
• W4385514758 hasAuthorship W4385514758A5059371880 @default.
• W4385514758 hasAuthorship W4385514758A5067497307 @default.
• W4385514758 hasAuthorship W4385514758A5067610777 @default.
• W4385514758 hasAuthorship W4385514758A5074894886 @default.
• W4385514758 hasAuthorship W4385514758A5080175927 @default.
• W4385514758 hasAuthorship W4385514758A5091406845 @default.
• W4385514758 hasAuthorship W4385514758A5091881971 @default.

• next