Searching for Synthetic Opioid Rescue Agents: Identification of a Potent Opioid Agonist with Reduced Respiratory Depression

Loan Y. Vu; Dan Luo; Kai Johnson; Emily D. Denehy; Judy C. Songrady; Jocelyn Martin; Riya Trivedi; Alexia R. Alsum; Jakob D. Shaykin; Chhabi L. Chaudhary; Eric J. Woloshin; Lindsay Kornberger; Nazmul Bhuiyan; Sean Parkin; Qianru Jiang; Tao Che; Warren Alilain; Jill R. Turner; Michael T. Bardo; Thomas E. Prisinzano

doi:10.1021/acs.jmedchem.4c00333

Searching for Synthetic Opioid Rescue Agents: Identification of a Potent Opioid Agonist with Reduced Respiratory Depression

Loan Y. Vu, Dan Luo, Kai Johnson, Emily D. Denehy, Judy C. Songrady, Jocelyn Martin, Riya Trivedi, Alexia R. Alsum, Jakob D. Shaykin, Chhabi L. Chaudhary, Eric J. Woloshin, Lindsay Kornberger, Nazmul Bhuiyan, Sean Parkin, Qianru Jiang, Tao Che, Warren Alilain, Jill R. Turner, Michael T. Bardo, Thomas E. Prisinzano

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Abstract

While in the process of designing more effective synthetic opioid rescue agents, we serendipitously identified a new chemotype of potent synthetic opioid. Here, we report that conformational constraint of a piperazine ring converts a mu opioid receptor (MOR) antagonist into a potent MOR agonist. The prototype of the series, which we have termed atoxifent (2), possesses potent in vitro agonist activity. In mice, atoxifent displayed long-lasting antinociception that was reversible with naltrexone. Repeated dosing of atoxifent produced antinociceptive tolerance and a level of withdrawal like that of fentanyl. In rats, while atoxifent produced complete loss of locomotor activity like fentanyl, it failed to produce deep respiratory depression associated with fentanyl-induced lethality. Assessment of brain biodistribution demonstrated ample distribution of atoxifent into the brain with a T_max of approximately 0.25 h. These results indicate enhanced safety for atoxifent-like molecules compared to fentanyl.

Original language	English
Pages (from-to)	9173-9193
Number of pages	21
Journal	Journal of Medicinal Chemistry
Volume	67
Issue number	11
DOIs	https://doi.org/10.1021/acs.jmedchem.4c00333
State	Published - Jun 13 2024

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Vu, L. Y., Luo, D., Johnson, K., Denehy, E. D., Songrady, J. C., Martin, J., Trivedi, R., Alsum, A. R., Shaykin, J. D., Chaudhary, C. L., Woloshin, E. J., Kornberger, L., Bhuiyan, N., Parkin, S., Jiang, Q., Che, T., Alilain, W., Turner, J. R., Bardo, M. T., & Prisinzano, T. E. (2024). Searching for Synthetic Opioid Rescue Agents: Identification of a Potent Opioid Agonist with Reduced Respiratory Depression. Journal of Medicinal Chemistry, 67(11), 9173-9193. https://doi.org/10.1021/acs.jmedchem.4c00333

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title = "Searching for Synthetic Opioid Rescue Agents: Identification of a Potent Opioid Agonist with Reduced Respiratory Depression",

abstract = "While in the process of designing more effective synthetic opioid rescue agents, we serendipitously identified a new chemotype of potent synthetic opioid. Here, we report that conformational constraint of a piperazine ring converts a mu opioid receptor (MOR) antagonist into a potent MOR agonist. The prototype of the series, which we have termed atoxifent (2), possesses potent in vitro agonist activity. In mice, atoxifent displayed long-lasting antinociception that was reversible with naltrexone. Repeated dosing of atoxifent produced antinociceptive tolerance and a level of withdrawal like that of fentanyl. In rats, while atoxifent produced complete loss of locomotor activity like fentanyl, it failed to produce deep respiratory depression associated with fentanyl-induced lethality. Assessment of brain biodistribution demonstrated ample distribution of atoxifent into the brain with a Tmax of approximately 0.25 h. These results indicate enhanced safety for atoxifent-like molecules compared to fentanyl.",

author = "Vu, {Loan Y.} and Dan Luo and Kai Johnson and Denehy, {Emily D.} and Songrady, {Judy C.} and Jocelyn Martin and Riya Trivedi and Alsum, {Alexia R.} and Shaykin, {Jakob D.} and Chaudhary, {Chhabi L.} and Woloshin, {Eric J.} and Lindsay Kornberger and Nazmul Bhuiyan and Sean Parkin and Qianru Jiang and Tao Che and Warren Alilain and Turner, {Jill R.} and Bardo, {Michael T.} and Prisinzano, {Thomas E.}",

note = "Publisher Copyright: {\textcopyright} 2024 American Chemical Society.",

year = "2024",

month = jun,

day = "13",

doi = "10.1021/acs.jmedchem.4c00333",

language = "English",

volume = "67",

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journal = "Journal of Medicinal Chemistry",

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Vu, LY, Luo, D, Johnson, K, Denehy, ED, Songrady, JC, Martin, J, Trivedi, R, Alsum, AR, Shaykin, JD, Chaudhary, CL, Woloshin, EJ, Kornberger, L, Bhuiyan, N, Parkin, S, Jiang, Q, Che, T, Alilain, W, Turner, JR, Bardo, MT & Prisinzano, TE 2024, 'Searching for Synthetic Opioid Rescue Agents: Identification of a Potent Opioid Agonist with Reduced Respiratory Depression', Journal of Medicinal Chemistry, vol. 67, no. 11, pp. 9173-9193. https://doi.org/10.1021/acs.jmedchem.4c00333

TY - JOUR

T1 - Searching for Synthetic Opioid Rescue Agents

T2 - Identification of a Potent Opioid Agonist with Reduced Respiratory Depression

AU - Vu, Loan Y.

AU - Luo, Dan

AU - Johnson, Kai

AU - Denehy, Emily D.

AU - Songrady, Judy C.

AU - Martin, Jocelyn

AU - Trivedi, Riya

AU - Alsum, Alexia R.

AU - Shaykin, Jakob D.

AU - Chaudhary, Chhabi L.

AU - Woloshin, Eric J.

AU - Kornberger, Lindsay

AU - Bhuiyan, Nazmul

AU - Parkin, Sean

AU - Jiang, Qianru

AU - Che, Tao

AU - Alilain, Warren

AU - Turner, Jill R.

AU - Bardo, Michael T.

AU - Prisinzano, Thomas E.

PY - 2024/6/13

Y1 - 2024/6/13

N2 - While in the process of designing more effective synthetic opioid rescue agents, we serendipitously identified a new chemotype of potent synthetic opioid. Here, we report that conformational constraint of a piperazine ring converts a mu opioid receptor (MOR) antagonist into a potent MOR agonist. The prototype of the series, which we have termed atoxifent (2), possesses potent in vitro agonist activity. In mice, atoxifent displayed long-lasting antinociception that was reversible with naltrexone. Repeated dosing of atoxifent produced antinociceptive tolerance and a level of withdrawal like that of fentanyl. In rats, while atoxifent produced complete loss of locomotor activity like fentanyl, it failed to produce deep respiratory depression associated with fentanyl-induced lethality. Assessment of brain biodistribution demonstrated ample distribution of atoxifent into the brain with a Tmax of approximately 0.25 h. These results indicate enhanced safety for atoxifent-like molecules compared to fentanyl.

AB - While in the process of designing more effective synthetic opioid rescue agents, we serendipitously identified a new chemotype of potent synthetic opioid. Here, we report that conformational constraint of a piperazine ring converts a mu opioid receptor (MOR) antagonist into a potent MOR agonist. The prototype of the series, which we have termed atoxifent (2), possesses potent in vitro agonist activity. In mice, atoxifent displayed long-lasting antinociception that was reversible with naltrexone. Repeated dosing of atoxifent produced antinociceptive tolerance and a level of withdrawal like that of fentanyl. In rats, while atoxifent produced complete loss of locomotor activity like fentanyl, it failed to produce deep respiratory depression associated with fentanyl-induced lethality. Assessment of brain biodistribution demonstrated ample distribution of atoxifent into the brain with a Tmax of approximately 0.25 h. These results indicate enhanced safety for atoxifent-like molecules compared to fentanyl.

UR - http://www.scopus.com/inward/record.url?scp=85194925209&partnerID=8YFLogxK

U2 - 10.1021/acs.jmedchem.4c00333

DO - 10.1021/acs.jmedchem.4c00333

M3 - Article

C2 - 38810170

AN - SCOPUS:85194925209

SN - 0022-2623

VL - 67

SP - 9173

EP - 9193

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

IS - 11

ER -

Searching for Synthetic Opioid Rescue Agents: Identification of a Potent Opioid Agonist with Reduced Respiratory Depression

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