Hepcidin Peptidomimetics - Oral Efficacy in Pre-Clinical Disease Model of Iron Overload

Hepcidin peptidomimetics that are orally stable and systemically active will mark a paradigm change in management of blood disorders that exhibit aberrant iron homeostasis (e.g. hereditary hemochromatosis) and in conditions that can be influenced by modulating stressed iron homeostasis (e.g. polycyt...

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Published in:Blood 2020-11, Vol.136 (Supplement 1), p.47-48
Main Authors: Taranath, Roopa, Bourne, Gregory, Zhang, Jie, Frederick, Brian, Tran, Tran T, Bhandari, Ashok, Vengalam, Jayanthi, McMahon, Jaimee, Huie, Keith, Ledet, Grace A, Zhao, Li, Tovera, James, Lee, Larry, Yang, Bo, Dion, Celino, Yuan, Lucy, Zemede, Genet, Nguyen, Michelle, Masjedizadeh, Mohammad, Cheng, Xiaoli, Mattheakis, Larry, Liu, David, Smythe, Mark L
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Language:English
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Summary:Hepcidin peptidomimetics that are orally stable and systemically active will mark a paradigm change in management of blood disorders that exhibit aberrant iron homeostasis (e.g. hereditary hemochromatosis) and in conditions that can be influenced by modulating stressed iron homeostasis (e.g. polycythemia vera). Hepcidin modulates the iron exporter membrane protein ferroportin and is the master regulator of iron homeostasis in the body. Orally bioavailable “Minihepcidins” have been previously shown to be efficacious in lowering serum iron in mice when dosed peroral (PO) (Preza GC et. al., Journal of Clinical Investigation 2011). Here we describe hepcidin mimetic peptides that are metabolically stable in the gastrointestinal tract, systemically absorbed when delivered orally, and pharmacodynamically active in reducing serum iron parameters in pre-clinical models. Further, we also demonstrate improvement in disease parameters in a mouse model for hereditary hemochromatosis. The oral peptides, PN20076 and PN20089, have EC50 of 16.5 nM and 1.39 nM respectively in cell based ferroportin internalization assay (Table 1). In comparison EC50 was 67.8 nM for Hepcidin and 6.12 nM for PTG-300. (PTG-300 is an injectable hepcidin mimetic currently in Phase 2 clinical studies for polycythemia vera and hereditary hemochromatosis.) Oral stability of the peptides was evaluated in a panel of assays, including in vitro matrices simulating the gastric and intestinal conditions, and ex vivo matrices of serum/plasma from different species. Table 1 shows data for peptides PN20018, PN20076 and PN20089. PN20076 demonstrated extended stability in gastric and intestinal conditions, and degradation half-life of >24 hr in mouse plasma and 14.8 hr in rat serum. Based on their stability and potency data from the above battery of screening assays, the peptides were selected for in vivo evaluation in healthy mice to characterize their pharmacodynamic (PD) and pharmacokinetic (PK) properties. PN20076 and PN20089 showed equivalent PD response of reduction in serum iron concentration in wild type mice. After two successive PO doses of PN20076 or PN20089 approximately 24 hr apart, serum iron concentration was reduced from ~30 µM to ~10 µM (group averages), i.e. ~66% reduction, at 4.5 hr post-second dose for both peptides (Fig. 1). At 4.5 hr post-dose, the serum concentration of PN20076 was ~262 nM. PN20076 was further evaluated for its effect in lowering iron overload in a mouse model for hemoc
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2020-141720