Structure-Based Discovery of Proline-Derived Arginase Inhibitors with Improved Oral Bioavailability for Immuno-Oncology

Min Lu; Hongjun Zhang; Derun Li; Matthew Childers; Qinglin Pu; Rachel L. Palte; Symon Gathiaka; Thomas W. Lyons; Anandan Palani; Peter W. Fan; Peter Spacciapoli; J. Richard Miller; Hyelim Cho; Mangeng Cheng; Kalyan Chakravarthy; Jennifer O'Neil; Padmanabhan Eangoor; Adam Beard; Hai-Young Kim; Josep Sauri; Hakan Gunaydin; David L. Sloman; Phieng Siliphaivanh; Jared Cumming; Christian Fischer

doi:10.1021/acsmedchemlett.1c00195

Structure-Based Discovery of Proline-Derived Arginase Inhibitors with Improved Oral Bioavailability for Immuno-Oncology

Min Lu
, Hongjun Zhang
, Derun Li
, Matthew Childers
, Qinglin Pu
, Rachel L. Palte
, Symon Gathiaka
, Thomas W. Lyons
, Anandan Palani
, Peter W. Fan
, Peter Spacciapoli
, J. Richard Miller
, Hyelim Cho
, Mangeng Cheng
, Kalyan Chakravarthy
, Jennifer O'Neil
, Padmanabhan Eangoor
, Adam Beard
, Hai-Young Kim
, Josep Sauri

Hakan Gunaydin, David L. Sloman, Phieng Siliphaivanh, Jared Cumming, Christian Fischer

Research output: Indexed journal article › Article › peer-review

22 Citations (Scopus)

Abstract

Recent data suggest that the inhibition of arginase (ARG) has therapeutic potential for the treatment of a number of indications ranging from pulmonary and vascular disease to cancer. Thus, high demand exists for selective small molecule ARG inhibitors with favorable druglike properties and good oral bioavailability. In light of the significant challenges associated with the unique physicochemical properties of previously disclosed ARG inhibitors, we use structure-based drug design combined with a focused optimization strategy to discover a class of boronic acids featuring a privileged proline scaffold with superior potency and oral bioavailability. These compounds, exemplified by inhibitors 4a, 18, and 27, demonstrated a favorable overall profile, and 4a was well tolerated following multiple days of dosing at concentrations that exceed those required for serum arginase inhibition and concomitant arginine elevation in a syngeneic mouse carcinoma model.

Original language	English
Pages (from-to)	1380-1388
Number of pages	9
Journal	Acs Medicinal Chemistry Letters
Volume	12
Issue number	9
Early online date	Jul 2021
DOIs	https://doi.org/10.1021/acsmedchemlett.1c00195
Publication status	Published - 9 Sept 2021
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Arginase inhibitor
Cancer immunotherapy
Oral bioavailability
Proline
Structure-based drug design

Access to Document

10.1021/acsmedchemlett.1c00195

Cite this

Lu, M., Zhang, H., Li, D., Childers, M., Pu, Q., Palte, R. L., Gathiaka, S., Lyons, T. W., Palani, A., Fan, P. W., Spacciapoli, P., Miller, J. R., Cho, H., Cheng, M., Chakravarthy, K., O'Neil, J., Eangoor, P., Beard, A., Kim, H.-Y., ... Fischer, C. (2021). Structure-Based Discovery of Proline-Derived Arginase Inhibitors with Improved Oral Bioavailability for Immuno-Oncology. Acs Medicinal Chemistry Letters, 12(9), 1380-1388. https://doi.org/10.1021/acsmedchemlett.1c00195

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abstract = "Recent data suggest that the inhibition of arginase (ARG) has therapeutic potential for the treatment of a number of indications ranging from pulmonary and vascular disease to cancer. Thus, high demand exists for selective small molecule ARG inhibitors with favorable druglike properties and good oral bioavailability. In light of the significant challenges associated with the unique physicochemical properties of previously disclosed ARG inhibitors, we use structure-based drug design combined with a focused optimization strategy to discover a class of boronic acids featuring a privileged proline scaffold with superior potency and oral bioavailability. These compounds, exemplified by inhibitors 4a, 18, and 27, demonstrated a favorable overall profile, and 4a was well tolerated following multiple days of dosing at concentrations that exceed those required for serum arginase inhibition and concomitant arginine elevation in a syngeneic mouse carcinoma model.",

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author = "Min Lu and Hongjun Zhang and Derun Li and Matthew Childers and Qinglin Pu and Palte, \{Rachel L.\} and Symon Gathiaka and Lyons, \{Thomas W.\} and Anandan Palani and Fan, \{Peter W.\} and Peter Spacciapoli and Miller, \{J. Richard\} and Hyelim Cho and Mangeng Cheng and Kalyan Chakravarthy and Jennifer O'Neil and Padmanabhan Eangoor and Adam Beard and Hai-Young Kim and Josep Sauri and Hakan Gunaydin and Sloman, \{David L.\} and Phieng Siliphaivanh and Jared Cumming and Christian Fischer",

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doi = "10.1021/acsmedchemlett.1c00195",

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Lu, M, Zhang, H, Li, D, Childers, M, Pu, Q, Palte, RL, Gathiaka, S, Lyons, TW, Palani, A, Fan, PW, Spacciapoli, P, Miller, JR, Cho, H, Cheng, M, Chakravarthy, K, O'Neil, J, Eangoor, P, Beard, A, Kim, H-Y, Sauri, J, Gunaydin, H, Sloman, DL, Siliphaivanh, P, Cumming, J & Fischer, C 2021, 'Structure-Based Discovery of Proline-Derived Arginase Inhibitors with Improved Oral Bioavailability for Immuno-Oncology', Acs Medicinal Chemistry Letters, vol. 12, no. 9, pp. 1380-1388. https://doi.org/10.1021/acsmedchemlett.1c00195

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T1 - Structure-Based Discovery of Proline-Derived Arginase Inhibitors with Improved Oral Bioavailability for Immuno-Oncology

AU - Lu, Min

AU - Zhang, Hongjun

AU - Li, Derun

AU - Childers, Matthew

AU - Pu, Qinglin

AU - Palte, Rachel L.

AU - Gathiaka, Symon

AU - Lyons, Thomas W.

AU - Palani, Anandan

AU - Fan, Peter W.

AU - Spacciapoli, Peter

AU - Miller, J. Richard

AU - Cho, Hyelim

AU - Cheng, Mangeng

AU - Chakravarthy, Kalyan

AU - O'Neil, Jennifer

AU - Eangoor, Padmanabhan

AU - Beard, Adam

AU - Kim, Hai-Young

AU - Sauri, Josep

AU - Gunaydin, Hakan

AU - Sloman, David L.

AU - Siliphaivanh, Phieng

AU - Cumming, Jared

AU - Fischer, Christian

PY - 2021/9/9

Y1 - 2021/9/9

N2 - Recent data suggest that the inhibition of arginase (ARG) has therapeutic potential for the treatment of a number of indications ranging from pulmonary and vascular disease to cancer. Thus, high demand exists for selective small molecule ARG inhibitors with favorable druglike properties and good oral bioavailability. In light of the significant challenges associated with the unique physicochemical properties of previously disclosed ARG inhibitors, we use structure-based drug design combined with a focused optimization strategy to discover a class of boronic acids featuring a privileged proline scaffold with superior potency and oral bioavailability. These compounds, exemplified by inhibitors 4a, 18, and 27, demonstrated a favorable overall profile, and 4a was well tolerated following multiple days of dosing at concentrations that exceed those required for serum arginase inhibition and concomitant arginine elevation in a syngeneic mouse carcinoma model.

AB - Recent data suggest that the inhibition of arginase (ARG) has therapeutic potential for the treatment of a number of indications ranging from pulmonary and vascular disease to cancer. Thus, high demand exists for selective small molecule ARG inhibitors with favorable druglike properties and good oral bioavailability. In light of the significant challenges associated with the unique physicochemical properties of previously disclosed ARG inhibitors, we use structure-based drug design combined with a focused optimization strategy to discover a class of boronic acids featuring a privileged proline scaffold with superior potency and oral bioavailability. These compounds, exemplified by inhibitors 4a, 18, and 27, demonstrated a favorable overall profile, and 4a was well tolerated following multiple days of dosing at concentrations that exceed those required for serum arginase inhibition and concomitant arginine elevation in a syngeneic mouse carcinoma model.

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KW - Cancer immunotherapy

KW - Oral bioavailability

KW - Proline

KW - Structure-based drug design

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EP - 1388

JO - Acs Medicinal Chemistry Letters

JF - Acs Medicinal Chemistry Letters

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ER -

Structure-Based Discovery of Proline-Derived Arginase Inhibitors with Improved Oral Bioavailability for Immuno-Oncology

Abstract

UN SDGs

Keywords

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