It is now generally agreed that while numerous monoclonal antibodies (MAbs) have been shown to efficiently target tumors in patients, much still needs to be accomplished to optimize MAb based tumor targeting and the use of MAbs in the therapy of human carcinoma. This article will review some recent studies undertaken in our laboratory in an attempt to generate novel recombinant constructs and test new principles to aid in optimizing MAb based diagnosis and therapy. Three areas will be covered: (a) the analysis of dose fractionation protocols; (b) the generation of recombinant/chimeric (rec/chi) MAbs including the generation of a single chain antigen binding protein (SCA); and (c) the use of recombinant interferons (rec IFNs) to selectively up-regulate tumor antigen expression. Each of these topics has been perviously described in detail and appropriate references to these articles are included.
NEW CONCEPTS IN MONOCLONAL-ANTIBODY BASED RADIOIMMUNODIAGNOSIS AND RADIOIMMUNOTHERAPY OF CARCINOMA
GUADAGNI F;
1991-01-01
Abstract
It is now generally agreed that while numerous monoclonal antibodies (MAbs) have been shown to efficiently target tumors in patients, much still needs to be accomplished to optimize MAb based tumor targeting and the use of MAbs in the therapy of human carcinoma. This article will review some recent studies undertaken in our laboratory in an attempt to generate novel recombinant constructs and test new principles to aid in optimizing MAb based diagnosis and therapy. Three areas will be covered: (a) the analysis of dose fractionation protocols; (b) the generation of recombinant/chimeric (rec/chi) MAbs including the generation of a single chain antigen binding protein (SCA); and (c) the use of recombinant interferons (rec IFNs) to selectively up-regulate tumor antigen expression. Each of these topics has been perviously described in detail and appropriate references to these articles are included.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.