Evaluation of Subetadex-α-methyl, a Polyanionic Cyclodextrin Scaffold, as a Medical Countermeasure against Fentanyl and Related Opioids

Michael A. Malfatti; Heather A. Enright; Summer McCloy; Esther A. Ubick; Edward Kuhn; Alagu Subramanian; Victoria Hio Leong Lao; Doris Lam; Nicholas A. Be; Saphon Hok; Edmond Y. Lau; Derrick C. Kaseman; Brian P. Mayer; Carlos A. Valdez

doi:10.1021/acscentsci.4c00682

Evaluation of Subetadex-α-methyl, a Polyanionic Cyclodextrin Scaffold, as a Medical Countermeasure against Fentanyl and Related Opioids

Michael A. Malfatti^*, Heather A. Enright, Summer McCloy, Esther A. Ubick, Edward Kuhn, Alagu Subramanian, Victoria Hio Leong Lao, Doris Lam, Nicholas A. Be, Saphon Hok, Edmond Y. Lau, Derrick C. Kaseman, Brian P. Mayer, Carlos A. Valdez^*

^*Corresponding author for this work

Surgery

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

Abstract

Subetadex-α-methyl (SBX-Me), a modified, polyanionic cyclodextrin scaffold, has been evaluated for its utilization as a medical countermeasure (MCM) to neutralize the effects of fentanyl and related opioids. Initial in vitro toxicity assays demonstrate that SBX-Me has a nontoxic profile, comparable to the FDA-approved cyclodextrin-based drug Sugammadex. Pharmacokinetic analysis showed rapid clearance of SBX-Me with an elimination half-life of ∼7.4 h and little accumulation in major organs. SBX-Me was also evaluated for its ability to counteract the effects of fentanyl, carfentanil, and remifentanil in rats. Recovery times in rats exposed to sublethal fentanyl doses were found to be shorter when treated with SBX-Me after opioid exposure. The recovery times were reduced from ∼35 to ∼17 min for fentanyl, ∼172 to ∼59 min for carfentanil, and ∼18 to ∼12 min for remifentanil. SBX-Me increased the elimination half-life for fentanyl and remifentanil from 5.37 to 6.42 h and 8.24 to 9.74 h, respectively. These data support SBX-Me as a solid platform from which further research can be launched for the development of a MCM against the effects of fentanyl and its analogs. Furthermore, the data suggests that SBX-Me and other analogs are attractive candidates as broad spectrum opioids targeting MCMs.

Original language	English
Pages (from-to)	2200-2212
Number of pages	13
Journal	ACS Central Science
Volume	10
Issue number	12
DOIs	https://doi.org/10.1021/acscentsci.4c00682
State	Published - 25 Dec 2024

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10.1021/acscentsci.4c00682

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Malfatti, M. A., Enright, H. A., McCloy, S., Ubick, E. A., Kuhn, E., Subramanian, A., Lao, V. H. L., Lam, D., Be, N. A., Hok, S., Lau, E. Y., Kaseman, D. C., Mayer, B. P., & Valdez, C. A. (2024). Evaluation of Subetadex-α-methyl, a Polyanionic Cyclodextrin Scaffold, as a Medical Countermeasure against Fentanyl and Related Opioids. ACS Central Science, 10(12), 2200-2212. https://doi.org/10.1021/acscentsci.4c00682

@article{a934bd396c2c4034bb3c2754d85f8a6f,

title = "Evaluation of Subetadex-α-methyl, a Polyanionic Cyclodextrin Scaffold, as a Medical Countermeasure against Fentanyl and Related Opioids",

abstract = "Subetadex-α-methyl (SBX-Me), a modified, polyanionic cyclodextrin scaffold, has been evaluated for its utilization as a medical countermeasure (MCM) to neutralize the effects of fentanyl and related opioids. Initial in vitro toxicity assays demonstrate that SBX-Me has a nontoxic profile, comparable to the FDA-approved cyclodextrin-based drug Sugammadex. Pharmacokinetic analysis showed rapid clearance of SBX-Me with an elimination half-life of ∼7.4 h and little accumulation in major organs. SBX-Me was also evaluated for its ability to counteract the effects of fentanyl, carfentanil, and remifentanil in rats. Recovery times in rats exposed to sublethal fentanyl doses were found to be shorter when treated with SBX-Me after opioid exposure. The recovery times were reduced from ∼35 to ∼17 min for fentanyl, ∼172 to ∼59 min for carfentanil, and ∼18 to ∼12 min for remifentanil. SBX-Me increased the elimination half-life for fentanyl and remifentanil from 5.37 to 6.42 h and 8.24 to 9.74 h, respectively. These data support SBX-Me as a solid platform from which further research can be launched for the development of a MCM against the effects of fentanyl and its analogs. Furthermore, the data suggests that SBX-Me and other analogs are attractive candidates as broad spectrum opioids targeting MCMs.",

author = "Malfatti, {Michael A.} and Enright, {Heather A.} and Summer McCloy and Ubick, {Esther A.} and Edward Kuhn and Alagu Subramanian and Lao, {Victoria Hio Leong} and Doris Lam and Be, {Nicholas A.} and Saphon Hok and Lau, {Edmond Y.} and Kaseman, {Derrick C.} and Mayer, {Brian P.} and Valdez, {Carlos A.}",

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

year = "2024",

month = dec,

day = "25",

doi = "10.1021/acscentsci.4c00682",

language = "English",

volume = "10",

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Malfatti, MA, Enright, HA, McCloy, S, Ubick, EA, Kuhn, E, Subramanian, A, Lao, VHL, Lam, D, Be, NA, Hok, S, Lau, EY, Kaseman, DC, Mayer, BP & Valdez, CA 2024, 'Evaluation of Subetadex-α-methyl, a Polyanionic Cyclodextrin Scaffold, as a Medical Countermeasure against Fentanyl and Related Opioids', ACS Central Science, vol. 10, no. 12, pp. 2200-2212. https://doi.org/10.1021/acscentsci.4c00682

TY - JOUR

T1 - Evaluation of Subetadex-α-methyl, a Polyanionic Cyclodextrin Scaffold, as a Medical Countermeasure against Fentanyl and Related Opioids

AU - Malfatti, Michael A.

AU - Enright, Heather A.

AU - McCloy, Summer

AU - Ubick, Esther A.

AU - Kuhn, Edward

AU - Subramanian, Alagu

AU - Lao, Victoria Hio Leong

AU - Lam, Doris

AU - Be, Nicholas A.

AU - Hok, Saphon

AU - Lau, Edmond Y.

AU - Kaseman, Derrick C.

AU - Mayer, Brian P.

AU - Valdez, Carlos A.

PY - 2024/12/25

Y1 - 2024/12/25

N2 - Subetadex-α-methyl (SBX-Me), a modified, polyanionic cyclodextrin scaffold, has been evaluated for its utilization as a medical countermeasure (MCM) to neutralize the effects of fentanyl and related opioids. Initial in vitro toxicity assays demonstrate that SBX-Me has a nontoxic profile, comparable to the FDA-approved cyclodextrin-based drug Sugammadex. Pharmacokinetic analysis showed rapid clearance of SBX-Me with an elimination half-life of ∼7.4 h and little accumulation in major organs. SBX-Me was also evaluated for its ability to counteract the effects of fentanyl, carfentanil, and remifentanil in rats. Recovery times in rats exposed to sublethal fentanyl doses were found to be shorter when treated with SBX-Me after opioid exposure. The recovery times were reduced from ∼35 to ∼17 min for fentanyl, ∼172 to ∼59 min for carfentanil, and ∼18 to ∼12 min for remifentanil. SBX-Me increased the elimination half-life for fentanyl and remifentanil from 5.37 to 6.42 h and 8.24 to 9.74 h, respectively. These data support SBX-Me as a solid platform from which further research can be launched for the development of a MCM against the effects of fentanyl and its analogs. Furthermore, the data suggests that SBX-Me and other analogs are attractive candidates as broad spectrum opioids targeting MCMs.

AB - Subetadex-α-methyl (SBX-Me), a modified, polyanionic cyclodextrin scaffold, has been evaluated for its utilization as a medical countermeasure (MCM) to neutralize the effects of fentanyl and related opioids. Initial in vitro toxicity assays demonstrate that SBX-Me has a nontoxic profile, comparable to the FDA-approved cyclodextrin-based drug Sugammadex. Pharmacokinetic analysis showed rapid clearance of SBX-Me with an elimination half-life of ∼7.4 h and little accumulation in major organs. SBX-Me was also evaluated for its ability to counteract the effects of fentanyl, carfentanil, and remifentanil in rats. Recovery times in rats exposed to sublethal fentanyl doses were found to be shorter when treated with SBX-Me after opioid exposure. The recovery times were reduced from ∼35 to ∼17 min for fentanyl, ∼172 to ∼59 min for carfentanil, and ∼18 to ∼12 min for remifentanil. SBX-Me increased the elimination half-life for fentanyl and remifentanil from 5.37 to 6.42 h and 8.24 to 9.74 h, respectively. These data support SBX-Me as a solid platform from which further research can be launched for the development of a MCM against the effects of fentanyl and its analogs. Furthermore, the data suggests that SBX-Me and other analogs are attractive candidates as broad spectrum opioids targeting MCMs.

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DO - 10.1021/acscentsci.4c00682

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