Structural Characterization of a Pathogenic Antibody Underlying Vaccine-Induced Immune Thrombotic Thrombocytopenia (VITT)

Vaccine-induced immune thrombotic thrombocytopenia (VITT) is a rare but dangerous side effect of adenoviral-vectored COVID-19 vaccines. VITT had been linked to production of autoantibodies recognizing platelet factor 4 (PF4). Here, we characterize anti-PF4 antibodies obtained from a VITT patient’s b...

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Veröffentlicht in:	Analytical chemistry (Washington) 2024-04, Vol.96 (16), p.6209-6217
Hauptverfasser:	Nguyen, Son N., Le, Si-Hung, Ivanov, Daniil G., Ivetic, Nikola, Nazy, Ishac, Kaltashov, Igor A.
Format:	Artikel
Sprache:	eng
Schlagworte:	adverse effects Amino acid sequence amino acid sequences Amino acids analytical chemistry Antibodies Autoantibodies Blood case studies chemokine CXCL4 COVID-19 infection COVID-19 vaccines Fragments germ cells Glycan Glycosylation Immunoglobulin G Monoclonal antibodies mutation patients Peptide mapping Peptides Platelet factor 4 proteinases Segments Sequence analysis Structural analysis Thrombocytopenia Vaccines
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creator	Nguyen, Son N. Le, Si-Hung Ivanov, Daniil G. Ivetic, Nikola Nazy, Ishac Kaltashov, Igor A.
description	Vaccine-induced immune thrombotic thrombocytopenia (VITT) is a rare but dangerous side effect of adenoviral-vectored COVID-19 vaccines. VITT had been linked to production of autoantibodies recognizing platelet factor 4 (PF4). Here, we characterize anti-PF4 antibodies obtained from a VITT patient’s blood. Intact mass measurements indicate that a significant fraction of these antibodies represent a limited number of clones. MS analysis of large antibody fragments (the light chain and the Fc/2 and Fd fragments of the heavy chain) confirms the monoclonal nature of this component of the anti-PF4 antibodies repertoire and reveals the presence of a mature complex biantennary N-glycan within the Fd segment. Peptide mapping using two complementary proteases and LC-MS/MS was used to determine the amino acid sequence of the entire light chain and over 98% of the heavy chain (excluding a short N-terminal segment). The sequence analysis allows the monoclonal antibody to be assigned to the IgG2 subclass and verifies that the light chain belongs to the λ-type. Incorporation of enzymatic de-N-glycosylation into the peptide mapping routine allows the N-glycan in the Fab region of the antibody to be localized to the framework 3 region of the VH domain. This novel N-glycosylation site is the result of a single mutation within the germline sequence. Peptide mapping also provides information on lower-abundance (polyclonal) components of the anti-PF4 antibody ensemble, revealing the presence of all four subclasses (IgG1–IgG4) and both types of the light chain (λ and κ). This case study demonstrates the power of combining the intact, middle-down, and bottom-up MS approaches for meaningful characterization of ultralow quantities of pathogenic antibodies extracted directly from patients’ blood.
doi_str_mv	10.1021/acs.analchem.3c05253
format	Article
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Incorporation of enzymatic de-N-glycosylation into the peptide mapping routine allows the N-glycan in the Fab region of the antibody to be localized to the framework 3 region of the VH domain. This novel N-glycosylation site is the result of a single mutation within the germline sequence. Peptide mapping also provides information on lower-abundance (polyclonal) components of the anti-PF4 antibody ensemble, revealing the presence of all four subclasses (IgG1–IgG4) and both types of the light chain (λ and κ). 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Chem</addtitle><description>Vaccine-induced immune thrombotic thrombocytopenia (VITT) is a rare but dangerous side effect of adenoviral-vectored COVID-19 vaccines. VITT had been linked to production of autoantibodies recognizing platelet factor 4 (PF4). Here, we characterize anti-PF4 antibodies obtained from a VITT patient’s blood. Intact mass measurements indicate that a significant fraction of these antibodies represent a limited number of clones. MS analysis of large antibody fragments (the light chain and the Fc/2 and Fd fragments of the heavy chain) confirms the monoclonal nature of this component of the anti-PF4 antibodies repertoire and reveals the presence of a mature complex biantennary N-glycan within the Fd segment. Peptide mapping using two complementary proteases and LC-MS/MS was used to determine the amino acid sequence of the entire light chain and over 98% of the heavy chain (excluding a short N-terminal segment). The sequence analysis allows the monoclonal antibody to be assigned to the IgG2 subclass and verifies that the light chain belongs to the λ-type. Incorporation of enzymatic de-N-glycosylation into the peptide mapping routine allows the N-glycan in the Fab region of the antibody to be localized to the framework 3 region of the VH domain. This novel N-glycosylation site is the result of a single mutation within the germline sequence. Peptide mapping also provides information on lower-abundance (polyclonal) components of the anti-PF4 antibody ensemble, revealing the presence of all four subclasses (IgG1–IgG4) and both types of the light chain (λ and κ). 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Chem</addtitle><date>2024-04-23</date><risdate>2024</risdate><volume>96</volume><issue>16</issue><spage>6209</spage><epage>6217</epage><pages>6209-6217</pages><issn>0003-2700</issn><issn>1520-6882</issn><eissn>1520-6882</eissn><abstract>Vaccine-induced immune thrombotic thrombocytopenia (VITT) is a rare but dangerous side effect of adenoviral-vectored COVID-19 vaccines. VITT had been linked to production of autoantibodies recognizing platelet factor 4 (PF4). Here, we characterize anti-PF4 antibodies obtained from a VITT patient’s blood. Intact mass measurements indicate that a significant fraction of these antibodies represent a limited number of clones. MS analysis of large antibody fragments (the light chain and the Fc/2 and Fd fragments of the heavy chain) confirms the monoclonal nature of this component of the anti-PF4 antibodies repertoire and reveals the presence of a mature complex biantennary N-glycan within the Fd segment. Peptide mapping using two complementary proteases and LC-MS/MS was used to determine the amino acid sequence of the entire light chain and over 98% of the heavy chain (excluding a short N-terminal segment). The sequence analysis allows the monoclonal antibody to be assigned to the IgG2 subclass and verifies that the light chain belongs to the λ-type. Incorporation of enzymatic de-N-glycosylation into the peptide mapping routine allows the N-glycan in the Fab region of the antibody to be localized to the framework 3 region of the VH domain. This novel N-glycosylation site is the result of a single mutation within the germline sequence. Peptide mapping also provides information on lower-abundance (polyclonal) components of the anti-PF4 antibody ensemble, revealing the presence of all four subclasses (IgG1–IgG4) and both types of the light chain (λ and κ). This case study demonstrates the power of combining the intact, middle-down, and bottom-up MS approaches for meaningful characterization of ultralow quantities of pathogenic antibodies extracted directly from patients’ blood.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>38607319</pmid><doi>10.1021/acs.analchem.3c05253</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0002-4355-6039</orcidid><orcidid>https://orcid.org/0000-0003-2987-1048</orcidid><oa>free_for_read</oa></addata></record>
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subjects	adverse effects Amino acid sequence amino acid sequences Amino acids analytical chemistry Antibodies Autoantibodies Blood case studies chemokine CXCL4 COVID-19 infection COVID-19 vaccines Fragments germ cells Glycan Glycosylation Immunoglobulin G Monoclonal antibodies mutation patients Peptide mapping Peptides Platelet factor 4 proteinases Segments Sequence analysis Structural analysis Thrombocytopenia Vaccines
title	Structural Characterization of a Pathogenic Antibody Underlying Vaccine-Induced Immune Thrombotic Thrombocytopenia (VITT)
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