Pyrazole-Based Lactate Dehydrogenase Inhibitors with Optimized Cell Activity and Pharmacokinetic Properties

Ganesha Rai; Daniel J. Urban; Bryan T. Mott; Xin Hu; Shyh Ming Yang; Gloria A. Benavides; Michelle S. Johnson; Giuseppe L. Squadrito; Kyle R. Brimacombe; Tobie D. Lee; Dorian M. Cheff; Hu Zhu; Mark J. Henderson; Katherine Pohida; Gary A. Sulikowski; David M. Dranow; Md Kabir; Pranav Shah; Elias Padilha; Dingyin Tao; Yuhong Fang; Plamen P. Christov; Kwangho Kim; Somnath Jana; Pavan Muttil; Tamara Anderson; Nitesh K. Kunda; Helen J. Hathaway; Donna F. Kusewitt; Nobu Oshima; Murali Cherukuri; Douglas R. Davies; Jeffrey P. Norenberg; Larry A. Sklar; William J. Moore; Chi V. Dang; Gordon M. Stott; Leonard Neckers; Andrew J. Flint; Victor M. Darley-Usmar; Anton Simeonov; Alex G. Waterson; Ajit Jadhav; Matthew D. Hall; David J. Maloney

doi:10.1021/acs.jmedchem.0c00916

Pyrazole-Based Lactate Dehydrogenase Inhibitors with Optimized Cell Activity and Pharmacokinetic Properties

Ganesha Rai, Daniel J. Urban, Bryan T. Mott, Xin Hu, Shyh Ming Yang, Gloria A. Benavides, Michelle S. Johnson, Giuseppe L. Squadrito, Kyle R. Brimacombe, Tobie D. Lee, Dorian M. Cheff, Hu Zhu, Mark J. Henderson, Katherine Pohida, Gary A. Sulikowski, David M. Dranow, Md Kabir, Pranav Shah, Elias Padilha, Dingyin TaoYuhong Fang, Plamen P. Christov, Kwangho Kim, Somnath Jana, Pavan Muttil, Tamara Anderson, Nitesh K. Kunda, Helen J. Hathaway, Donna F. Kusewitt, Nobu Oshima, Murali Cherukuri, Douglas R. Davies, Jeffrey P. Norenberg, Larry A. Sklar, William J. Moore, Chi V. Dang, Gordon M. Stott, Leonard Neckers, Andrew J. Flint, Victor M. Darley-Usmar, Anton Simeonov, Alex G. Waterson, Ajit Jadhav, Matthew D. Hall, David J. Maloney

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

Lactate dehydrogenase (LDH) catalyzes the conversion of pyruvate to lactate, with concomitant oxidation of reduced nicotinamide adenine dinucleotide as the final step in the glycolytic pathway. Glycolysis plays an important role in the metabolic plasticity of cancer cells and has long been recognized as a potential therapeutic target. Thus, potent, selective inhibitors of LDH represent an attractive therapeutic approach. However, to date, pharmacological agents have failed to achieve significant target engagement in vivo, possibly because the protein is present in cells at very high concentrations. We report herein a lead optimization campaign focused on a pyrazole-based series of compounds, using structure-based design concepts, coupled with optimization of cellular potency, in vitro drug-target residence times, and in vivo PK properties, to identify first-in-class inhibitors that demonstrate LDH inhibition in vivo. The lead compounds, named NCATS-SM1440 (43) and NCATS-SM1441 (52), possess desirable attributes for further studying the effect of in vivo LDH inhibition.

Original language	English
Pages (from-to)	10984-11011
Number of pages	28
Journal	Journal of Medicinal Chemistry
Volume	63
Issue number	19
DOIs	https://doi.org/10.1021/acs.jmedchem.0c00916
State	Published - 8 Oct 2020
Externally published	Yes

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10.1021/acs.jmedchem.0c00916

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Rai, G., Urban, D. J., Mott, B. T., Hu, X., Yang, S. M., Benavides, G. A., Johnson, M. S., Squadrito, G. L., Brimacombe, K. R., Lee, T. D., Cheff, D. M., Zhu, H., Henderson, M. J., Pohida, K., Sulikowski, G. A., Dranow, D. M., Kabir, M., Shah, P., Padilha, E., ... Maloney, D. J. (2020). Pyrazole-Based Lactate Dehydrogenase Inhibitors with Optimized Cell Activity and Pharmacokinetic Properties. Journal of Medicinal Chemistry, 63(19), 10984-11011. https://doi.org/10.1021/acs.jmedchem.0c00916

@article{41793382fed14bf79deed320f38a8652,

title = "Pyrazole-Based Lactate Dehydrogenase Inhibitors with Optimized Cell Activity and Pharmacokinetic Properties",

abstract = "Lactate dehydrogenase (LDH) catalyzes the conversion of pyruvate to lactate, with concomitant oxidation of reduced nicotinamide adenine dinucleotide as the final step in the glycolytic pathway. Glycolysis plays an important role in the metabolic plasticity of cancer cells and has long been recognized as a potential therapeutic target. Thus, potent, selective inhibitors of LDH represent an attractive therapeutic approach. However, to date, pharmacological agents have failed to achieve significant target engagement in vivo, possibly because the protein is present in cells at very high concentrations. We report herein a lead optimization campaign focused on a pyrazole-based series of compounds, using structure-based design concepts, coupled with optimization of cellular potency, in vitro drug-target residence times, and in vivo PK properties, to identify first-in-class inhibitors that demonstrate LDH inhibition in vivo. The lead compounds, named NCATS-SM1440 (43) and NCATS-SM1441 (52), possess desirable attributes for further studying the effect of in vivo LDH inhibition.",

author = "Ganesha Rai and Urban, \{Daniel J.\} and Mott, \{Bryan T.\} and Xin Hu and Yang, \{Shyh Ming\} and Benavides, \{Gloria A.\} and Johnson, \{Michelle S.\} and Squadrito, \{Giuseppe L.\} and Brimacombe, \{Kyle R.\} and Lee, \{Tobie D.\} and Cheff, \{Dorian M.\} and Hu Zhu and Henderson, \{Mark J.\} and Katherine Pohida and Sulikowski, \{Gary A.\} and Dranow, \{David M.\} and Md Kabir and Pranav Shah and Elias Padilha and Dingyin Tao and Yuhong Fang and Christov, \{Plamen P.\} and Kwangho Kim and Somnath Jana and Pavan Muttil and Tamara Anderson and Kunda, \{Nitesh K.\} and Hathaway, \{Helen J.\} and Kusewitt, \{Donna F.\} and Nobu Oshima and Murali Cherukuri and Davies, \{Douglas R.\} and Norenberg, \{Jeffrey P.\} and Sklar, \{Larry A.\} and Moore, \{William J.\} and Dang, \{Chi V.\} and Stott, \{Gordon M.\} and Leonard Neckers and Flint, \{Andrew J.\} and Darley-Usmar, \{Victor M.\} and Anton Simeonov and Waterson, \{Alex G.\} and Ajit Jadhav and Hall, \{Matthew D.\} and Maloney, \{David J.\}",

note = "Publisher Copyright: {\textcopyright} 2020 American Chemical Society.",

year = "2020",

month = oct,

day = "8",

doi = "10.1021/acs.jmedchem.0c00916",

language = "English",

volume = "63",

pages = "10984--11011",

journal = "Journal of Medicinal Chemistry",

issn = "0022-2623",

publisher = "American Chemical Society",

number = "19",

}

Rai, G, Urban, DJ, Mott, BT, Hu, X, Yang, SM, Benavides, GA, Johnson, MS, Squadrito, GL, Brimacombe, KR, Lee, TD, Cheff, DM, Zhu, H, Henderson, MJ, Pohida, K, Sulikowski, GA, Dranow, DM, Kabir, M, Shah, P, Padilha, E, Tao, D, Fang, Y, Christov, PP, Kim, K, Jana, S, Muttil, P, Anderson, T, Kunda, NK, Hathaway, HJ, Kusewitt, DF, Oshima, N, Cherukuri, M, Davies, DR, Norenberg, JP, Sklar, LA, Moore, WJ, Dang, CV, Stott, GM, Neckers, L, Flint, AJ, Darley-Usmar, VM, Simeonov, A, Waterson, AG, Jadhav, A, Hall, MD & Maloney, DJ 2020, 'Pyrazole-Based Lactate Dehydrogenase Inhibitors with Optimized Cell Activity and Pharmacokinetic Properties', Journal of Medicinal Chemistry, vol. 63, no. 19, pp. 10984-11011. https://doi.org/10.1021/acs.jmedchem.0c00916

TY - JOUR

T1 - Pyrazole-Based Lactate Dehydrogenase Inhibitors with Optimized Cell Activity and Pharmacokinetic Properties

AU - Rai, Ganesha

AU - Urban, Daniel J.

AU - Mott, Bryan T.

AU - Hu, Xin

AU - Yang, Shyh Ming

AU - Benavides, Gloria A.

AU - Johnson, Michelle S.

AU - Squadrito, Giuseppe L.

AU - Brimacombe, Kyle R.

AU - Lee, Tobie D.

AU - Cheff, Dorian M.

AU - Zhu, Hu

AU - Henderson, Mark J.

AU - Pohida, Katherine

AU - Sulikowski, Gary A.

AU - Dranow, David M.

AU - Kabir, Md

AU - Shah, Pranav

AU - Padilha, Elias

AU - Tao, Dingyin

AU - Fang, Yuhong

AU - Christov, Plamen P.

AU - Kim, Kwangho

AU - Jana, Somnath

AU - Muttil, Pavan

AU - Anderson, Tamara

AU - Kunda, Nitesh K.

AU - Hathaway, Helen J.

AU - Kusewitt, Donna F.

AU - Oshima, Nobu

AU - Cherukuri, Murali

AU - Davies, Douglas R.

AU - Norenberg, Jeffrey P.

AU - Sklar, Larry A.

AU - Moore, William J.

AU - Dang, Chi V.

AU - Stott, Gordon M.

AU - Neckers, Leonard

AU - Flint, Andrew J.

AU - Darley-Usmar, Victor M.

AU - Simeonov, Anton

AU - Waterson, Alex G.

AU - Jadhav, Ajit

AU - Hall, Matthew D.

AU - Maloney, David J.

PY - 2020/10/8

Y1 - 2020/10/8

N2 - Lactate dehydrogenase (LDH) catalyzes the conversion of pyruvate to lactate, with concomitant oxidation of reduced nicotinamide adenine dinucleotide as the final step in the glycolytic pathway. Glycolysis plays an important role in the metabolic plasticity of cancer cells and has long been recognized as a potential therapeutic target. Thus, potent, selective inhibitors of LDH represent an attractive therapeutic approach. However, to date, pharmacological agents have failed to achieve significant target engagement in vivo, possibly because the protein is present in cells at very high concentrations. We report herein a lead optimization campaign focused on a pyrazole-based series of compounds, using structure-based design concepts, coupled with optimization of cellular potency, in vitro drug-target residence times, and in vivo PK properties, to identify first-in-class inhibitors that demonstrate LDH inhibition in vivo. The lead compounds, named NCATS-SM1440 (43) and NCATS-SM1441 (52), possess desirable attributes for further studying the effect of in vivo LDH inhibition.

AB - Lactate dehydrogenase (LDH) catalyzes the conversion of pyruvate to lactate, with concomitant oxidation of reduced nicotinamide adenine dinucleotide as the final step in the glycolytic pathway. Glycolysis plays an important role in the metabolic plasticity of cancer cells and has long been recognized as a potential therapeutic target. Thus, potent, selective inhibitors of LDH represent an attractive therapeutic approach. However, to date, pharmacological agents have failed to achieve significant target engagement in vivo, possibly because the protein is present in cells at very high concentrations. We report herein a lead optimization campaign focused on a pyrazole-based series of compounds, using structure-based design concepts, coupled with optimization of cellular potency, in vitro drug-target residence times, and in vivo PK properties, to identify first-in-class inhibitors that demonstrate LDH inhibition in vivo. The lead compounds, named NCATS-SM1440 (43) and NCATS-SM1441 (52), possess desirable attributes for further studying the effect of in vivo LDH inhibition.

UR - https://www.scopus.com/pages/publications/85092749799

U2 - 10.1021/acs.jmedchem.0c00916

DO - 10.1021/acs.jmedchem.0c00916

M3 - Article

C2 - 32902275

AN - SCOPUS:85092749799

SN - 0022-2623

VL - 63

SP - 10984

EP - 11011

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

IS - 19

ER -

Pyrazole-Based Lactate Dehydrogenase Inhibitors with Optimized Cell Activity and Pharmacokinetic Properties

Abstract

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