The impact of sialic acids on the pharmacokinetics of a PEGylated erythropoietin.

Erythropoietin (EPO) is an important molecule in the erythropoiesis and various forms of EPO have been marketed in managing anemia in humans. Long acting EPOs for less frequent dosing have been generated either by increasing the number of glycosylation sites of the EPO molecule or by linking it to a polyethylene glycol (PEG). We have generated recombinant human EPO (rhEPO) using glycoengineered Pichia pastoris strains and evaluated the pharmacokinetics (PK) in rats of this molecule linked to a 40 kDa PEG (PEGylated rhEPO), in relation to its glycosylation patterns.

Lymphatic transport and catabolism of therapeutic proteins after subcutaneous administration to rats and dogs.

The mechanism underlying subcutaneous absorption of macromolecules and factors that can influence this process were studied in rats using PEGylated erythropoietins (EPOs) as model compounds. Using a thoracic lymph duct cannulation (LDC) model, we showed that PEGylated EPO was absorbed from the subcutaneous injection site mainly via the lymphatic system in rats, which is similar to previous reports in sheep. After subcutaneous administration, the serum exposure was reduced by ∼70% in LDC animals compared with that in the control animals, and most of the systemically available dose was recovered in the lymph.

Evaluation of two ELISA methods to detect therapeutic anti-IGF1R antibodies in clinical study samples of dalotuzumab.

Background: Dalotuzumab (MK 0646), an anti-IGF1R antibody intended for cancer therapy, has progressed to Phase III clinical trials. To evaluate pharmacokinetic properties, we developed and compared two ELISAs to measure dalotuzumab in human serum and validated the second method following regulatory guidelines for ligand-binding assays.

Results: After an IGF1R-mediated capture step, dalotuzumab was detected by either an antihuman IgGFc- or by an antihuman IgG1-specific antibody.

Pharmacokinetic immunoassay methods in the presence of soluble target.

Soluble targets represent a special challenge when employing ligand binding assays to support pharmacokinetic analysis of monoclonal therapeutics. Target-engaged antibody is not available for binding in immunoassays employing anti-idiotype-specific antibodies or target for capture. We investigated several formats of total antibody assays that show reduced interference of soluble targets: direct target capture, indirect target capture and acid dissociation.