Therapeutic concepts exploiting tumor-specific antibodies are often established in pre-clinical xenograft models using immuno-deficient mice. More complex therapeutic paradigms, however, warrant the use of immuno-competent mice, that more accurately capture the relevant biology that is being exploited. These models require the use of (surrogate) mouse or rat antibodies to enable optimal interactions with murine effector molecules. Immunogenicity is furthermore decreased, allowing longer-term treatment. We recently described controlled Fab-arm exchange (cFAE) as an easy-to-use method for the generation of therapeutic human IgG1 bispecific antibodies (bsAb). To facilitate the investigation of dual-targeting concepts in immuno-competent mice, we now applied and optimized our method for the generation of murine bsAbs. We show that the optimized combinations of matched point-mutations enabled efficient generation of murine bsAbs for all subclasses studied (mouse IgG1, IgG2a and IgG2b; rat IgG1, IgG2a, IgG2b, and IgG2c). The mutations did not adversely affect the inherent effector functions or pharmacokinetic properties of the corresponding subclasses. Thus, cFAE can be used to efficiently generate (surrogate) mouse or rat bsAbs for pre-clinical evaluation in immuno-competent rodents.
Glucagon-like peptide 2 (GLP-2) is a pleiotropic intestinotrophic hormone that we hypothesized could lessen gastrointestinal inflammation associated with postoperative ileus (POI). To test this idea, the prophylactic timing and dose of a long-acting variant of human GLP-2 linked to the Fc portion of murine immunoglobulin G (IgG) (GLP-2/IgG) was optimized in a murine model of POI. Surgically treated mice received a single dose of GLP-2/IgG, IgG isotype control, or phosphate-buffered saline 1 to 48 h before small bowel surgical manipulation. The distribution of orally fed fluorescein isothiocyanate-dextran and histological analyses of myeloperoxidase-positive immune cells were determined 24 and 48 h postoperatively. TaqMan quantitative polymerase chain reaction was used to determine early changes in mRNA expression in the muscularis or mucosa. In
Glucagon-like peptide-2 (GLP-2) is a member of the glucagon multigene family that is produced by intestinal enteroendocrine cells in response to food intake. GLP-2 stimulates growth of the intestinal epithelium, enhances its barrier functions, and increases nutrient uptake. Therefore, a GLP-2 agonist may be efficacious in human diseases characterized by malabsorption or injury to the gastrointestinal epithelium. MIMETIBODY™ refers to a proprietary scaffold developed to extend the half-life of rapidly cleared peptides. It consists of a peptide linked to a scaffold that contains sequence elements from a human immunoglobulin G including those that allow recycling through the FcRn. The GLP-2 sequence was engineered into the MIMETIBODY™ scaffold. The primary state of both GLP-2 and the GLP-2 MIMETIBODY™ in DPBS was a noncovalently associated dimer indicative of self-interaction. The increased heterogeneity and the decreased lot-to-lot reproducibility caused by the self-interaction of therapeutic proteins are a challenge to drug development. A similar protein, GLP-1 MIMETIBODY™, contains the related GLP-1 peptide and does not form a dimer under similar conditions. Therefore, to minimize or abrogate dimerization, several variants were made by substituting GLP-2 amino acids with the corresponding amino acids from GLP-1. Molecular weight and secondary structure analyses reveal that substituting leucine for glutamine at position 17 (L17Q) reduces dimerization and α-helix content yet retains bioactivity.
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