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      Potential Mechanisms of Anaphylaxis to COVID-19 mRNA Vaccines

      research-article
      Author(s): , MD PhD 1 , , , MD 2 , , MD 3 , , MD 4 , , MD 3 , , MD 5 , , MD 6 , , MD 7
      Publication date (Electronic):
      Journal: The Journal of Allergy and Clinical Immunology
      Publisher: Published by Elsevier Inc. on behalf of the American Academy of Allergy, Asthma & Immunology.
      Keywords: COVID-19 vaccine, mRNA vaccine, anaphylaxis, allergy, polyethylene glycol, PEGylated liposome, lipid nanoparticle, mast cells, Ab, antibody, BAT, basophil activation test, BST, basal serum tryptase, C3a, complement component 3a, C5a, complement component 5a, CARPA, complement activation related pseudo-allergic reactions, CDC, Center for Disease Control and Prevention, COVID-19, Coronavirus disease 2019, CRH, Corticotropin releasing hormone, DC, dendritic cell, DMG, dimyristoyl glycerol, DSPC, 1,2-distearoyl-sn-glycero-3-phosphocholine, EDTA, ethylenediaminetetraacetic acid, ELISA, enzyme-linked immunosorbent assay, Fc, fragment crystallizable region, FDA, US Food and Drug Administration, HATS, Hereditary alpha tryptasemia, HK, high molecular weight kininogen, HMW, high molecular weight, ID, intradermal, Ig, immunoglobulin, LNP, lipid nanoparticles, MAT, mast cell activation test, MHC, major histocompatibility complex, MRGPRX2, Mas-related G protein coupled receptor X2, mRNA, messenger ribonucleic acid, PAF, platelet activating factor, PEG, polyethylene glycol, PEGylated, polyethlene glycol conjugated, PS80, polysorbate 80, RBD, receptor-binding domain, SPT, skin prick test, UK, United Kingdom, US, United States of America

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          Abstract

          Anaphylaxis to vaccines is historically a rare event. The Coronavirus Disease 2019 (COVID-19) pandemic drove the need for rapid vaccine production applying a novel antigen delivery system: mRNA vaccines packaged in lipid nanoparticles (LNP). Unexpectedly, public vaccine administration led to a small number of severe allergic reactions with resultant substantial public concern, especially within atopic individuals. We reviewed the constituents of the mRNA LNP vaccine and considered several contributors to these reactions: 1) contact system activation by nucleic acid, 2) complement recognition of the vaccine activating allergic effector cells, 3) pre-existing antibody recognition of polyethylene glycol (PEG), a LNP surface hydrophilic polymer, and 4) direct mast cell activation, coupled with potential genetic or environmental predispositions to hypersensitivity. Unfortunately, measurement of anti-PEG antibodies in vitro is not clinically available, and the predictive value of skin testing to PEG components as a COVID-19 mRNA vaccine-specific anaphylaxis marker is unknown. Even less is known regarding the applicability of vaccine use for testing (in vitro/vivo) to ascertain pathogenesis or predict reactivity risk. Expedient and thorough research-based evaluation of patients who have suffered anaphylactic vaccine reactions and prospective clinical trials in putative at-risk individuals are needed to address these concerns during a public health crisis.

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          mRNA vaccines — a new era in vaccinology

          Norbert Pardi, Michael Hogan, Frederick W. Porter (2018)
          mRNA vaccines represent a promising alternative to conventional vaccine approaches because of their high potency, capacity for rapid development and potential for low-cost manufacture and safe administration. However, their application has until recently been restricted by the instability and inefficient in vivo delivery of mRNA. Recent technological advances have now largely overcome these issues, and multiple mRNA vaccine platforms against infectious diseases and several types of cancer have demonstrated encouraging results in both animal models and humans. This Review provides a detailed overview of mRNA vaccines and considers future directions and challenges in advancing this promising vaccine platform to widespread therapeutic use.
          Article 0 comments Cited 1419 times – based on 0 reviews     Review now
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            Doxil®--the first FDA-approved nano-drug: lessons learned.

            Yechezkel Barenholz (2012)
            Doxil®, the first FDA-approved nano-drug (1995), is based on three unrelated principles: (i) prolonged drug circulation time and avoidance of the RES due to the use of PEGylated nano-liposomes; (ii) high and stable remote loading of doxorubicin driven by a transmembrane ammonium sulfate gradient, which also allows for drug release at the tumor; and (iii) having the liposome lipid bilayer in a "liquid ordered" phase composed of the high-T(m) (53 °C) phosphatidylcholine, and cholesterol. Due to the EPR effect, Doxil is "passively targeted" to tumors and its doxorubicin is released and becomes available to tumor cells by as yet unknown means. This review summarizes historical and scientific perspectives of Doxil development and lessons learned from its development and 20 years of its use. It demonstrates the obligatory need for applying an understanding of the cross talk between physicochemical, nano-technological, and biological principles. However, in spite of the large reward, ~2 years after Doxil-related patents expired, there is still no FDA-approved generic "Doxil" available. Copyright © 2012 Elsevier B.V. All rights reserved.
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              Is Open Access

              Lipid Nanoparticle Systems for Enabling Gene Therapies.

              Pieter R. Cullis, Michael Hope (2017)
              Genetic drugs such as small interfering RNA (siRNA), mRNA, or plasmid DNA provide potential gene therapies to treat most diseases by silencing pathological genes, expressing therapeutic proteins, or through gene-editing applications. In order for genetic drugs to be used clinically, however, sophisticated delivery systems are required. Lipid nanoparticle (LNP) systems are currently the lead non-viral delivery systems for enabling the clinical potential of genetic drugs. Application will be made to the Food and Drug Administration (FDA) in 2017 for approval of an LNP siRNA drug to treat transthyretin-induced amyloidosis, presently an untreatable disease. Here, we first review research leading to the development of LNP siRNA systems capable of silencing target genes in hepatocytes following systemic administration. Subsequently, progress made to extend LNP technology to mRNA and plasmids for protein replacement, vaccine, and gene-editing applications is summarized. Finally, we address current limitations of LNP technology as applied to genetic drugs and ways in which such limitations may be overcome. It is concluded that LNP technology, by virtue of robust and efficient formulation processes, as well as advantages in potency, payload, and design flexibility, will be a dominant non-viral technology to enable the enormous potential of gene therapy.
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                Author and article information

                Journal
                Journal ID (nlm-ta): J Allergy Clin Immunol
                Journal ID (iso-abbrev): J Allergy Clin Immunol
                Title: The Journal of Allergy and Clinical Immunology
                Publisher: Published by Elsevier Inc. on behalf of the American Academy of Allergy, Asthma & Immunology.
                ISSN (Print): 0091-6749
                ISSN (Electronic): 1097-6825
                Publication date PMC-release: 20 April 2021
                Publication date (Electronic): 20 April 2021
                Affiliations
                [1 ]Cincinnati Children’s Hospital Medical Center, Department of Pediatrics, University of Cincinnati College of Medicine, Cincinnati, OH
                [2 ]Division of Infectious Diseases, Department of Pediatrics, Vanderbilt University Medical Center, Nashville, TN
                [3 ]Division of Pediatric Allergy, Immunology, and Pulmonary Medicine, Department of Pediatrics, Monroe Carell Jr. Children’s Hospital at Vanderbilt, Vanderbilt University School of Medicine, Nashville, TN
                [4 ]Division of Pulmonary, Allergy, Sleep and Critical Care Medicine, Department of Pediatrics, Boston University School of Medicine, Boston, MA
                [5 ]Division of Pediatric Allergy and Immunology, Duke University Medical Center, Durham, NC
                [6 ]Division of Pediatric Allergy and Immunology, Johns Hopkins University School of Medicine, Baltimore, MD
                [7 ]Department of Pediatrics, Columbia University Irving Medical Center, New York, NY
                Author notes
                []Corresponding Author: Kimberly Risma Cincinnati Children’s Hospital Medical Center 3333 Burnet Avenue Cincinnati, OH 45229 USA, Phone: 513-636-7497, Fax: 513-636-3310
                Article
                Publisher Item ID: S0091-6749(21)00565-0
                DOI: 10.1016/j.jaci.2021.04.002
                PMC ID: 8056854
                PubMed ID: 33857566
                SO-VID: e301f5a9-2c5e-4656-a2d0-8acc22c0ec79
                Copyright © © 2021 Published by Elsevier Inc. on behalf of the American Academy of Allergy, Asthma & Immunology.
                License:

                Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre - including this research content - immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.

                History
                Date received : 12 February 2021
                Date revision received : 24 March 2021
                Date accepted : 1 April 2021
                Categories
                Subject: Article

                ScienceOpen disciplines: Immunology
                Keywords: covid-19 vaccine,mrna vaccine,anaphylaxis,allergy,polyethylene glycol,pegylated liposome,lipid nanoparticle,mast cells,ab, antibody,bat, basophil activation test,bst, basal serum tryptase,c3a, complement component 3a,c5a, complement component 5a,carpa, complement activation related pseudo-allergic reactions,cdc, center for disease control and prevention,covid-19, coronavirus disease 2019,crh, corticotropin releasing hormone,dc, dendritic cell,dmg, dimyristoyl glycerol,dspc, 1,2-distearoyl-sn-glycero-3-phosphocholine,edta, ethylenediaminetetraacetic acid,elisa, enzyme-linked immunosorbent assay,fc, fragment crystallizable region,fda, us food and drug administration,hats, hereditary alpha tryptasemia,hk, high molecular weight kininogen,hmw, high molecular weight,id, intradermal,ig, immunoglobulin,lnp, lipid nanoparticles,mat, mast cell activation test,mhc, major histocompatibility complex,mrgprx2, mas-related g protein coupled receptor x2,mrna, messenger ribonucleic acid,paf, platelet activating factor,peg, polyethylene glycol,pegylated, polyethlene glycol conjugated,ps80, polysorbate 80,rbd, receptor-binding domain,spt, skin prick test,uk, united kingdom,us, united states of america
                Data availability:
                ScienceOpen disciplines: Immunology
                Keywords: covid-19 vaccine, mrna vaccine, anaphylaxis, allergy, polyethylene glycol, pegylated liposome, lipid nanoparticle, mast cells, ab, antibody, bat, basophil activation test, bst, basal serum tryptase, c3a, complement component 3a, c5a, complement component 5a, carpa, complement activation related pseudo-allergic reactions, cdc, center for disease control and prevention, covid-19, coronavirus disease 2019, crh, corticotropin releasing hormone, dc, dendritic cell, dmg, dimyristoyl glycerol, dspc, 1,2-distearoyl-sn-glycero-3-phosphocholine, edta, ethylenediaminetetraacetic acid, elisa, enzyme-linked immunosorbent assay, fc, fragment crystallizable region, fda, us food and drug administration, hats, hereditary alpha tryptasemia, hk, high molecular weight kininogen, hmw, high molecular weight, id, intradermal, ig, immunoglobulin, lnp, lipid nanoparticles, mat, mast cell activation test, mhc, major histocompatibility complex, mrgprx2, mas-related g protein coupled receptor x2, mrna, messenger ribonucleic acid, paf, platelet activating factor, peg, polyethylene glycol, pegylated, polyethlene glycol conjugated, ps80, polysorbate 80, rbd, receptor-binding domain, spt, skin prick test, uk, united kingdom, us, united states of america

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