Covalent dimerization of camelidae anti-human TNF-alpha single domain antibodies by the constant kappa light chain domain improves neutralizing activity.

The tumor necrosis factor-alpha (TNFalpha) plays an important role in a number of chronic inflammatory disorders. Monoclonal camelidae variable heavy chain domain-only antibodies (V(H)H) have been developed to antagonize the action of human TNFalpha (anti-TNF-V(H)H). Here we describe a strategy to obtain functional dimeric anti-TNF-V(H)H molecules, based on the C-terminal fusion of a kappa light chain domain to the anti-TNF-V(H)H.

Antibody expressing pea seeds as fodder for prevention of gastrointestinal parasitic infections in chickens.

Background: Coccidiosis caused by protozoans of genus Eimeria is a chicken parasitic disease of great economical importance. Conventional disease control strategies depend on vaccination and prophylactic use of anticoccidial drugs. Alternative solution to prevent and treat coccidiosis could be provided by passive immunization using orally delivered neutralizing antibodies.

High-level periplasmic expression and purification of scFvs.

The isolation of recombinant antibodies by phage display naturally leads to experiments to evaluate their biological and immunological properties. Although crude preparations may have their value in initial studies, the need often exists for highly purified protein that can be tested in vivo. This chapter describes methods to generate high yields of scFv from bacterial cultures and to purify protein to the degree of homogeneity required for the most exacting analysis.

Generation of bispecific and tandem diabodies.

Conventionally, antibody phage display has been used to isolate recombinant antibodies that are monovalent in their interaction with target antigens. These antibodies can be reengineered for expression in mammalian cell culture as full-length, monospecific immunoglobulins. An emerging branch of research has sought to generate bivalent recombinant antibodies by manipulating the length of the linker separating heavy- and light-chain variable domains in single-chain Fv proteins, thereby promoting inter-scFv interaction and the formation of "diabodies.

Model structure of the immunodominant surface antigen of Eimeria tenella identified as a target for sporozoite-neutralizing monoclonal antibody.

Eimeria tenella is a coccidian parasite of great economical importance for poultry industry. The surface of Eimeria invasive agents, sporozoites and merozoites, is coated with a family of developmentally regulated glycosylphosphatidylinositol (GPI)-linked surface antigens (SAGs), some of them involved in the initiation of the infection process. Using 2D gel electrophoresis followed by mass spectrometry, an antigenic surface protein EtSAG1 (TA4) of E.