Development of a carbon-14 labeling approach to support disposition studies with a pegylated biologic.

Although it is widely accepted that one can extend the pharmacokinetic half-life of a therapeutic protein by covalent conjugation with polyethylene glycol (PEG), the disposition properties of such biologics have not yet been fully evaluated. Therefore, a novel [¹⁴C]-labeling method was developed that can be applied to a biologic conjugated with PEG through a maleimide-cysteine reaction. The method was used to study the tissue and tumor distribution of a PEGylated Adnectin, a recombinant protein derived from the 10th type III domain of fibronectin, in nude mice bearing human xenograft tumors.

Characterization of BMS-911543, a functionally selective small-molecule inhibitor of JAK2.

We report the characterization of BMS-911543, a potent and selective small-molecule inhibitor of the Janus kinase (JAK) family member, JAK2. Functionally, BMS-911543 displayed potent anti-proliferative and pharmacodynamic (PD) effects in cell lines dependent upon JAK2 signaling, and had little activity in cell types dependent upon other pathways, such as JAK1 and JAK3. BMS-911543 also displayed anti-proliferative responses in colony growth assays using primary progenitor cells isolated from patients with JAK2(V617F)-positive myeloproliferative neoplasms (MPNs).

A fibronectin scaffold approach to bispecific inhibitors of epidermal growth factor receptor and insulin-like growth factor-I receptor.

Engineered domains of human fibronectin (Adnectins™) were used to generate a bispecific Adnectin targeting epidermal growth factor receptor (EGFR) and insulin-like growth factor-I receptor (IGF-IR), two transmembrane receptors that mediate proliferative and survival cell signaling in cancer. Single-domain Adnectins that specifically bind EGFR or IGF-IR were generated using mRNA display with a library containing as many as 10 ( 13) Adnectin variants. mRNA display was also used to optimize lead Adnectin affinities, resulting in clones that inhibited EGFR phosphorylation at 7 to 38 nM compared to 2.