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Design and Synthesis of an Orally Bioavailable and Selective Peptide Epoxyketone Proteasome Inhibitor (PR-047)

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journal contribution
posted on 14.05.2009, 00:00 by Han-Jie Zhou, Monette A. Aujay, Mark K. Bennett, Maya Dajee, Susan D. Demo, Ying Fang, Mark N. Ho, Jing Jiang, Christopher J. Kirk, Guy J. Laidig, Evan R. Lewis, Yan Lu, Tony Muchamuel, Francesco Parlati, Eileen Ring, Kevin D. Shenk, Jamie Shields, Peter J. Shwonek, Timothy Stanton, Congcong M. Sun, Catherine Sylvain, Tina M. Woo, Jinfu Yang
Proteasome inhibition has been validated as a therapeutic modality in the treatment of multiple myeloma and Non-Hodgkin’s lymphoma. Carfilzomib, an epoxyketone currently undergoing clinical trials in malignant diseases, is a highly selective inhibitor of the chymotrypsin-like (CT-L) activity of the proteasome. A chemistry effort was initiated to discover orally bioavailable analogues of carfilzomib, which would have potential for improved dosing flexibility and patient convenience over intravenously administered agents. The lead compound, 2-Me-5-thiazole-Ser(OMe)-Ser(OMe)-Phe-ketoepoxide (58) (PR-047), selectively inhibited CT-L activity of both the constitutive proteasome (β5) and immunoproteasome (LMP7) and demonstrated an absolute bioavailability of up to 39% in rodents and dogs. It was well tolerated with repeated oral administration at doses resulting in >80% proteasome inhibition in most tissues and elicited an antitumor response equivalent to intravenously administered carfilzomib in multiple human tumor xenograft and mouse syngeneic models. The favorable pharmacologic profile supports its further development for the treatment of malignant diseases.