A surface structural protein of Hepatitis A Virus (HAV) has been isolated and characterized from virus grown in tissue culture. This 33,000 dalton viral protein (VP-1) reacts with immune HAV sera and monoclonal antibodies that neutralize HAV infectivity. The VP-1 is usable for the preparation of a polypeptide subunit vaccine for HAV. Hybridoma cells were made which produced monoclonal antibodies to HAV or VP-1. These monoclonal antibodies were found to neutralize the infectivity of HAV and to compete with polyclonal antibody derived from human HAV immune sera. The monoclonal antibodies are useful for the neutralization of infectious HAV, the detection of antibodies to neutralizing sites on HAV, and the diagnoses of HAV disease in humans and other susceptible hosts.
The invention relates to hepatitis A viruses (HAVs) having a serotype displaying the immunological characteristics of the HAV strain RG-SB XA112 (CNCM I-1080). In particular, the invention relates to the new hepatitis A virus strain RG-SB XA112 (CNCM I-1080). The invention also relates to structural components of said HAVs. Furthermore, the invention relates to processes for the isolation of said HAVs. The HAVs of the present invention and the structural components thereof can be used for the production of vaccines and diagnostic compositions. Finally, the invention relates to polyclonal and monoclonal antibodies which are directed to said new HAVs.
7282205 - Anti-hepatitis A virus antibodies - Owned by The United States of America as represented by the Secretary of the Department of Health and Human Services (Washington, DC) N/A
Chimpanzee monoclonal antibodies and antigen binding fragments including a .gamma.1-chain CDR3 region that bind hepatitis A virus (HAV) antigen are disclosed herein. The antibodies neutralize HAV. Also disclosed are methods for using these antibodies and antigen binding fragments in the detection of hepatitis A virus, the inhibition of infection of a subject with hepatitis A virus, and in screening for agents that affect HAV.
New methods for purifying Hepatitis A virus (HAV) are to commercial scale-up and manufacture of specific HAV vaccines, including formalin-inactivated HAV and attenuated HAV.
Hepatitis A virus is attenuated in virulence by in vitro passage in susceptible cell cultures, without prior passage in a subhuman primate. This process results in a live, attenuated hepatitis A virus vaccine suitable for human disease prevention.
5514376 - Cell culture of hepatitis A virus - Owned by Merck & Co., Inc. (Rayway, NJ) [*] Notice:The portion of the term of this patent subsequent to June 4, 2008 has been disclaimed.
Hepatitis A virus is attenuated in virulence by in vitro passage in susceptible cell cultures, without prior passage in a subhuman primate. This process results in a live, attenuated hepatitis A virus vaccine suitable for human disease prevention.
