Anemia as associated with numerous clinical conditions can be debilitating, but frequently can be treated via administration of epoetin-alfa, darbepoietin-alfa, or methoxy-PEG epoetin-beta. Despite the complexity of EPO-EPO receptor interactions, the development of interesting EPO mimetic peptides (EMPs) also has been possible. CNTO 530 is one such novel MIMETIBODY Fc-domain dimeric EMP fusion protein. In a mouse model, singledose CNTO 530 (unlike epoetin-alfa or darbepoietin-alfa) bolstered red cell production for up to 1 month. In 5-fluorouracil and carboplatin-paclitaxel models, CNTO 530 also protected against anemia with unique efficiency. These actions were not fully accounted for by half-life estimates, and CNTO 530 signaling events therefore were studied. Within primary bone marrow erythroblasts, kinetics of STAT5, ERK, and AKT activation were similar for CNTO 530 and epoetin-alfa. p70S6K activation by CNTO 530, however, was selectively sustained. In vivo, CNTO 530 uniquely stimulated the enhanced formation of PODXL high CD71 high (pro)erythroblasts at frequencies multifold above epoetin-alfa or darbepoietin-alfa. CNTO 530 moreover supported the sustained expansion of a bone marrow-resident Kit neg CD71 high Ter119 neg progenitor pool. Based on these distinct erythropoietic and EPOR signaling properties, CNTO 530 holds excellent promise as a new EPO mimetic.
IntroductionAs recombinant injectables, epoetin-alfa and darbepoietin-alfa are important therapeutics for anemia. 1,2 Via its canonical dimeric single-transmembrane receptor (EPOR), 3,4 and possibly a hypothesized accessory chain, 5,6 erythropoietin (EPO) also has been shown to confer significant cytoprotection for certain injured nonhematopoietic tissues. 7 This includes renal, cardiac, brain, and retinal cells as damaged by ischemia, neurotoxins, or UV irradiation. [8][9][10][11] However, epoetin-alfa can require frequent injections in anemia contexts, as well as relatively high dosing to cytoprotect nonhematopoietic cells. 7 To address these issues, several EPOrelated erythropoiesis stimulating agents (ESAs) recently have been formulated and shown to possess one, or another, advantaged property. One orthologue is darbepoietin-alfa in which nonessential residues are mutated to provide for 2 additional N-linked glycosylation sites. 12 This can enhance darbepoietin-alfa's in vivo halflife, 13 and EPO receptor occupancy. 14 Together, these properties can lessen dosing frequency. 13 A second example is provided by "Epo-Epo" in which EPO is configured as a peptide-linked head-to-tail dimer. 15 For Epo-Epo, unique properties include enhanced secretion and apparent advantaged in vivo activity after subcutaneous injection. 16 In addition, a pegylated epoetin-beta has been developed (CERA) that possesses a significantly extended half-life, 17 and likewise can be effectively used with less frequent dosing. 18 A distinct approach to preparing ESAs involves the development of monoclonal antibodies that can bind and activate the EPOR. In particular, Liu et al 1...
