Thrombalexins: Cell-Localized Inhibition of Thrombin and Its Effects in a Model of High-Risk Renal Transplantation.

Allograft transplantation into sensitized recipients with antidonor antibodies results in accelerated antibody-mediated rejection (AMR), complement activation, and graft thrombosis. We have developed a membrane-localizing technology of wide applicability that enables therapeutic agents, including anticoagulants, to bind to cell surfaces and protect the donor endothelium. We describe here how this technology has been applied to thrombin inhibitors to generate a novel class of drugs termed thrombalexins (TLNs).

The CD46-Jagged1 interaction is critical for human TH1 immunity.

CD46 is a complement regulator with important roles related to the immune response. CD46 functions as a pathogen receptor and is a potent costimulator for the induction of interferon-γ (IFN-γ)-secreting effector T helper type 1 (T(H)1) cells and their subsequent switch into interleukin 10 (IL-10)-producing regulatory T cells. Here we identified the Notch family member Jagged1 as a physiological ligand for CD46.

In vivo selection of intrabodies specifically targeting protein-protein interactions: a general platform for an "undruggable" class of disease targets.

Protein-protein interactions represent a major potential drug target for many human diseases, but these are unanimously considered undruggable with small chemical molecules. We have developed 3-SPLINT, a novel technology for the selection of antibodies that are intrinsically endowed with the ability to interfere with a given protein-protein interaction. The selection procedure exploits the recently described yeast SPLINT libraries of intrabodies, adapting them to a reverse-hybrid system, yielding the selection of recombinant antibodies that are able to disrupt a target protein-protein interaction in vivo.