Abstract: Provided herein are methods and compositions useful in the production of recombinant AAV (rAAV) in host producer cells, such as insect cells. In some embodiments, methods, uses and compositions are provided that comprise recombinant VP1 genes comprising modified Kozak sequences to express AAV VP1 proteins in amounts that are useful for producing infective rAAV particles. These infective rAAV particles may comprise a gene of interest.
Type:
Grant
Filed:
October 18, 2019
Date of Patent:
July 18, 2023
Assignee:
University of Florida Research Foundation, Incorporated
Abstract: A composition for treating and/or preventing Hepatitis B virus infection and Hepatitis B virus infection mediated diseases and the method thereof are provided. In some embodiments, the composition includes a polyriboinosinic acid-polyribocytidylic acid (PIC), at least one antibiotic or polyamide compound, at least one positive ion, and Hepatitis B virus surface antigen. In some embodiments, the composition includes PIC, at least one antibiotic or polyamide compound, at least one positive ion, Hepatitis B virus surface antigen and Hepatitis B virus core antigen. The present disclosure also relates to a method of treating and/or preventing Hepatitis B virus infection, particularly for treating chronic HBV infection.
Abstract: Human cytomegalovirus vectors comprising heterologous antigens are disclosed. The vectors derived from the TR strain, are ganciclovir sensitive, include active US2, US3, US6, US7 and UL131A genes, and have a deleterious or inactivating mutation in the UL82 gene preventing the expression of pp71.
Type:
Grant
Filed:
March 26, 2021
Date of Patent:
July 4, 2023
Assignee:
Oregon Health & Science University
Inventors:
Klaus Frueh, Scott G. Hansen, Jay Nelson, Louis Picker, Patrizia Caposio
Abstract: Compounds (such as peptides or peptide mimetics) that bind to HIV RRE RNA are provided. In some examples, the compounds inhibit (for example, decrease) binding of Rev to the RRE RNA. In some embodiments, the compounds include two moieties, each of which bind to one of the Rev binding sites in the RRE. In some examples, the moieties include peptides or small molecules. In some examples, the peptides include an arginine-rich motif. The RRE binding compounds may be further linked to a detectable label or cargo moiety. Also provided are methods of treating or inhibiting HIV including administering one or more of the RRE binding compounds to a subject.
Type:
Grant
Filed:
October 25, 2019
Date of Patent:
July 4, 2023
Assignee:
The United States of America, as represented by the Secretary, Department of Health and Human Services
Abstract: Methods of vaccinating, immunizing and/or treating a subject against a herpes simplex virus infection or a disease caused by a herpes simplex virus infection comprise administering to the subject an effective amount of a HSV-2 single-cycle virus and an effective amount of a recombinant HSV-2 glycoprotein D, wherein the HSV-2 single-cycle virus comprises HSV-2 having a deletion of glycoprotein D-encoding gene in the genome and the HSV-2 is phenotypically complemented with an HSV-1 glycoprotein D on a lipid bilayer of the HSV-2.
Abstract: Coronaviruses, vaccines comprising the same, and methods for preventing disease. One embodiment of such includes a live, attenuated coronavirus comprising a variant replicase gene encoding polyproteins comprising a non-structural protein (nsp)-15, the replicase gene encoding the nsp15 and causes any change, including mutations and/or deletions, that affects the stability or activity of the nsp15.
Abstract: The present invention relates to host cells comprising a nucleic acid encoding Adeno-associated virus (AAV) Rep proteins Rep78 and Rep68, wherein the internal AAV promoter p19 has been inactivated by one or more mutations that maintain the functionality of said Rep78 and Rep68 proteins. The present invention further relates to respective nucleic acids and vectors comprising the same, as well as respective methods for the production of AAV.
Abstract: The invention relates to the field of virology and tumor therapy. In particular, the present invention provides a recombinant herpes simplex virus (HSV) capable of specifically replicating at a high level in a tumor cell and effectively killing the tumor cell, but replicating at low levels in normal cells, thereby the recombinant herpes simplex virus of the present invention not only has high lethality against tumor cells, but also has significantly decreased side effects (especially neurotoxicity). Further, the present invention relates to a viral vector constructed based on the recombinant herpes simplex virus, a pharmaceutical composition comprising the recombinant herpes simplex virus or the viral vector, and the use of the recombinant herpes simplex virus or the viral vector. The recombinant herpes simplex virus of the present invention can be used to infect and kill tumor cells, and can be used for gene drug delivery into tumor cells for gene therapy.
Type:
Grant
Filed:
February 28, 2018
Date of Patent:
June 20, 2023
Assignees:
XIAMEN UNIVERSITY, YANG SHENG TANG COMPANY, LTD.
Inventors:
Chenghao Huang, Yong Luo, Quan Yuan, Jun Zhang, Ningshao Xia
Abstract: Provided is a method of detecting the presence of an anti-Zika virus (ZIKV) antibody in a sample, including contacting a sample with a suspension having a plurality of microspheres wherein individual microspheres are conjugated to a peptide and the peptide includes a ZIKV peptide selected from the group including ZIKV NS1, ZIKV NS5, and ZIKV envelope protein, forming a first incubated suspension by incubating said sample with said suspension to permit binding of anti-ZIKV antibodies present in the sample to said microspheres, forming a second incubated suspension by contacting said first incubated suspension with an anti-ZIKV antibody detecting-reagent to permit binding of the anti-ZIKV antibody detecting reagent to said microspheres, removing from the second incubated suspension anti-ZIKV antibody detecting-reagent molecules that are not bound to said microspheres, and detecting the presence of anti-ZIKV antibody detecting-reagent molecules in the second incubated suspension.
Abstract: An aspect of the present invention is related to nucleic acid constructs capable of expressing a Zika antigen that elicits an immune response in a mammal against Zika virus, and methods of use thereof. Additionally, there are DNA plasmid vaccines capable of generating in a mammal an immune response against a Zika virus, comprising a DNA plasmid and a pharmaceutically acceptable excipient, and methods of use thereof. The DNA plasmid is capable of expressing a Zika antigen in a cell of the mammal in a quantity effective to elicit an immune response in the mammal that is cross reactive against all Zika strains.
Type:
Grant
Filed:
February 24, 2017
Date of Patent:
May 16, 2023
Assignees:
THE TRUSTEES OF THE UNIVERSITY OF PENNSYLVANIA, THE WISTAR INSTITUTE OF ANATOMY AND BIOLOGY
Abstract: The present invention relates to a virus-derived particle comprising one or more Cas protein(s), as well as to kits and methods using the same for altering a target nucleic acid.
Type:
Grant
Filed:
February 12, 2021
Date of Patent:
May 16, 2023
Assignees:
Institut National De La Sante Et De La Recherche Medicale (INSERM), Centre National De La Recherche Scientifique (CNRS), Ecole Normale Superieure De Lyon, Universite De Claude Bernard Lyon 1
Inventors:
Théophile Ohlmann, Philippe Mangeot, Emiliano Ricci
Abstract: Aspects of the disclosure relate to nucleic acid vaccines. The vaccines include at least one RNA polynucleotides having an open reading frame encoding at least one varicella zoster virus (VZV) antigen. Methods for preparing and using such vaccines are also described.
Type:
Grant
Filed:
October 21, 2016
Date of Patent:
May 9, 2023
Assignee:
ModernaTX, Inc.
Inventors:
Giuseppe Ciaramella, Sayda Mahgoub Elbashir
Abstract: An antigen variant and a use thereof are disclosed. The antigen variant is a protein, among surface proteins (gE) of the varicella zoster virus, exhibits a high expression level and high immunogenicity, and thus, when the antigen variant is used as a vaccine composition, the vaccine composition has more excellent safety compared to a live virus vaccine, and the antigen variant exhibits a higher expression level in a host cell compared to other antigens. The antigen variant is useful as a vaccine for preventing or treating chicken pox or herpes zoster caused by the varicella zoster virus.
Abstract: The invention relates to platforms for delivery of herpes virus proteins to cells, particularly proteins that form complexes in vivo. In some embodiments these proteins and the complexes they form elicit potent neutralizing antibodies. Thus, presentation of herpes virus proteins using such platforms permits the generation of broad and potent immune responses useful for vaccine development.
Type:
Grant
Filed:
June 28, 2021
Date of Patent:
May 2, 2023
Assignee:
GLAXOSMITHKLINE BIOLOGICALS SA
Inventors:
Michael Franti, Anders Lilja, Rebecca Loomis, Peter W. Mason
Abstract: Provided herein are methods to characterize preparations of recombinant viral particles using analytical ultracentrifugation. Recombinant viral particles include recombinant adeno-associated viral particles, recombinant adenoviral particles, recombinant lentiviral particles and recombinant herpes simplex virus particles. Variant species of recombinant viral particles including empty capsids and recombinant viral particles with variant genomes (e.g., truncated genomes, aggregates, recombinants) can be identified and quantitated. The methods can be used to characterize preparations of recombinant viral particles regardless of the sequence of the recombinant viral genome or the serotype of the recombinant viral capsid.
Abstract: The disclosure defined by this invention is an immunogenic composition comprising a viral antigen, a sugar and/or polyol, an adipate buffer, calcium ions and/or magnesium ions, and one or more positively charged amino acids.
Type:
Grant
Filed:
August 30, 2017
Date of Patent:
April 25, 2023
Inventors:
Herve Gressard, Pierre Sae Houer, Laurent Strodiot
Abstract: Oncolytic viral vectors that incorporate one or more of the following features: viral replication restriction by insertion of microRNA (miRNA) target sequences into the viral genome; disruption of oncogenic miRNA function; cancer microenvironment remodeling; and cancer cell targeting by incorporation of protease-activated antibodies into the viral particle. Such viral vectors can be used for the treatment and prevention of cancer.
Type:
Grant
Filed:
July 26, 2018
Date of Patent:
March 28, 2023
Assignee:
Oncorus, Inc.
Inventors:
Mitchell H. Finer, Lorena Lerner, Christophe Quéva, Edward Kennedy
Abstract: The present invention provides herpesviruses, such as EBV, which lack at least one viral miRNA. Such herpesviruses lacking at least one viral miRNA are advantageously not capable of packaging their genome into the capsid, thereby producing HVLPs, which are substantially free of their herpesvirus genome or the nucleic acid molecule encoding the proteinaceous part of the HVLP and viral miRNA. Such HVLPs may be used as vaccine.
Type:
Grant
Filed:
February 28, 2017
Date of Patent:
March 14, 2023
Assignee:
Helmholtz Zentrum München Deutsches Forschungszentrum für Gesundheit und Umwelt (GmbH)
Inventors:
Wolfgang Hammerschmidt, Reinhard Zeidler, Dagmar Pich
Abstract: Compositions include modified adenoviruses. Nucleotides, cells, and methods associated with the compositions, including their use as vaccines. Viral vectors using a TET promoter system and methods of producing viruses having the same.
Type:
Grant
Filed:
November 30, 2021
Date of Patent:
February 28, 2023
Assignee:
GRITSTONE BIO, INC.
Inventors:
Karin Jooss, Ciaran Daniel Scallan, Leonid Gitlin
Abstract: The present invention relates to nucleic acid molecules encoding a recombinant human cytomegalovirus (HCMV) strain, dense bodies produced by said HCMV strain and preparations of said dense bodies for use in medicine, particularly as a vaccine against HCMV.
Type:
Grant
Filed:
June 28, 2019
Date of Patent:
February 28, 2023
Assignee:
Universitätsmedizin der Johannes Gutenberg-Univsersität Mainz