Abstract: The present invention discloses antibodies or fragments thereof able to bind isolated coronary plaque samples and processes for their production using host cells containing DNA sequences encoding for said antibodies of fragments thereof. Methods for screening ligands to said isolated samples are also described, and compositions containing said antibodies are also provided.

Abstract: A process is provided for the preparation of antibodies or fragments thereof using a prokaryotic host cell containing DNA sequences encoding for said antibodies of fragments thereof, wherein said DNA sequence is derived from a coronary plaque sample. Compositions containing said antibodies are also provided. Ligands to said antibodies and compositions containing said ligands are also described.

Abstract: The present invention provides a novel method for the identification and clonal isolation of antibodies that bind to unique epitopes. The method is based on the use of antibodies as solid phase capture reagents to bind a known capture antibody epitope, thereby precluding the capture antibody epitope from being presented to a population of antibodies to be screened. The method is particularly suited for screening libraries of cloned antibodies, such as phage display combinatorial antibodies. An antibody specific for herpes simplex virus (HSV), was employed as a model for the assay.

Abstract: Monoclonal antibodies directed against the influenza A virus are described, which have the advantageous and unpredicted property of being able to bind a plurality of subtypes of the influenza A virus. One preferred embodiment is the antibody designated as Fab28, which displays a neutralizing activity against a plurality of subtypes of the influenza A virus. Anti-idiotype antibodies directed against the monoclonal antibodies of the invention, immunogenic or vaccine compositions comprising the monoclonal antibodies of the invention are also described, as well as therapeutic, prophylactic and diagnostic applications for the monoclonal antibodies of the invention. The monoclonal antibodies of the invention can also be used for testing antibody preparations to be used as vaccines.

Abstract: A monoclonal antibody directed against the influenza A virus is described, which is capable of binding human and animal isolates of influenza A viruses expressing the H1-subtype hemagglutinin. A preferred embodiment is the antibody designated as Fab49, which shows a neutralizing activity against a plurality of influenza A virus isolates expressing the H1-subtype hemagglutinin, including animal-derived isolates. Anti-idiotype antibodies directed against the monoclonal antibody of the invention, immunogenic or vaccine compositions comprising the monoclonal antibody of the invention are also described, as well as therapeutic, prophylactic and diagnostic applications for the monoclonal antibody of the invention. The monoclonal antibody of the invention can also be employed for testing antibody preparations to be used as vaccines.

Abstract: Novel anti-idiotype monoclonal antibodies are described which are capable of specifically reacting with the idiotype of human anti-gp120 antibodies, of inhibiting the binding between the gp120 antigen and human anti-gp120 antibodies, and of evoking a neutralising anti-gp120 immune response in an animal host to which they are administered. The anti-idiotype antibodies of the invention can be identified based on the amino acid sequences of the variable portions of their light and heavy chains. In addition, a method for obtaining a panel of anti-idiotype monoclonal antibodies, expression vectors and transformed host cells usable in a recombinant DNA procedure in order to generate the aforesaid anti-idiotype monoclonal antibodies, as well as the therapeutic, prophylactic and diagnostic use of such antibodies are disclosed.

Abstract: Novel anti-idiotype monoclonal antibodies are described which are capable of specifically reacting with the idiotype of human anti-gp120 antibodies, of inhibiting the binding between the gp120 antigen and human anti-gp120 antibodies, and of evoking a neutralising anti-gp120 immune response in an animal host to which they are administered. The anti-idiotype antibodies of the invention can be identified based on the amino acid sequences of the variable portions of their light and heavy chains. In addition, a method for obtaining a panel of anti-idiotype monoclonal antibodies, expression vectors and transformed host cells usable in a recombinant DNA procedure in order to generate the aforesaid anti-idiotype monoclonal antibodies, as well as the therapeutic, prophylactic and diagnostic use of such antibodies are disclosed.