Conjugating uncoupler compounds with hydrophobic hydrocarbon chains to achieve adipose tissue selective drug accumulation

Mei Ying Ng; Zhi Jian Song; Gopalakrishnan Venkatesan; Sergio Rodriguez-Cuenca; James A. West; Shili Yang; Choon Hong Tan; Paul Chi Lui Ho; Julian L. Griffin; Antonio Vidal-Puig; Marcella Bassetto; Thilo Hagen

doi:10.1038/s41598-024-54466-2

Conjugating uncoupler compounds with hydrophobic hydrocarbon chains to achieve adipose tissue selective drug accumulation

Mei Ying Ng, Zhi Jian Song, Gopalakrishnan Venkatesan, Sergio Rodriguez-Cuenca, James A. West, Shili Yang, Choon Hong Tan, Paul Chi Lui Ho, Julian L. Griffin, Antonio Vidal-Puig, Marcella Bassetto^*, Thilo Hagen^*

^*Corresponding author for this work

The Rowett Institute of Nutrition and Health

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

Abstract

One potential approach for treating obesity is to increase energy expenditure in brown and white adipose tissue. Here we aimed to achieve this outcome by targeting mitochondrial uncoupler compounds selectively to adipose tissue, thus avoiding side effects from uncoupling in other tissues. Selective drug accumulation in adipose tissue has been observed with many lipophilic compounds and dyes. Hence, we explored the feasibility of conjugating uncoupler compounds with a lipophilic C8-hydrocarbon chain via an ether bond. We found that substituting the trifluoromethoxy group in the uncoupler FCCP with a C8-hydrocarbon chain resulted in potent uncoupling activity. Nonetheless, the compound did not elicit therapeutic effects in mice, likely as a consequence of metabolic instability resulting from rapid ether bond cleavage. A lipophilic analog of the uncoupler compound 2,6-dinitrophenol, in which a C8-hydrocarbon chain was conjugated via an ether bond in the para-position (2,6-dinitro-4-(octyloxy)phenol), exhibited increased uncoupling activity compared to the parent compound. However, in vivo pharmacokinetics studies suggested that 2,6-dinitro-4-(octyloxy)phenol was also metabolically unstable. In conclusion, conjugation of a hydrophobic hydrocarbon chain to uncoupler compounds resulted in sustained or improved uncoupling activity. However, an ether bond linkage led to metabolic instability, indicating the need to conjugate lipophilic groups via other chemical bonds.

Original language	English
Article number	4932
Number of pages	17
Journal	Scientific Reports
Volume	14
Early online date	28 Feb 2024
DOIs	https://doi.org/10.1038/s41598-024-54466-2
Publication status	Published - Feb 2024

Bibliographical note

Funding Information:
The work was funded in part by an NUH seed fund grant from the Singapore Ministry of Education Academic Research Fund Tier 1 (Grant number R-183-000-448-114).

Data Availability Statement

The majority of data generated or analyzed during this study are included in this published article. Other primary data (e.g. oxygen consumption tracings) are available from the corresponding author on reasonable request.

UN SDGs

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

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Ng, M. Y., Song, Z. J., Venkatesan, G., Rodriguez-Cuenca, S., West, J. A., Yang, S., Tan, C. H., Ho, P. C. L., Griffin, J. L., Vidal-Puig, A., Bassetto, M., & Hagen, T. (2024). Conjugating uncoupler compounds with hydrophobic hydrocarbon chains to achieve adipose tissue selective drug accumulation. Scientific Reports, 14, Article 4932. https://doi.org/10.1038/s41598-024-54466-2

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abstract = "One potential approach for treating obesity is to increase energy expenditure in brown and white adipose tissue. Here we aimed to achieve this outcome by targeting mitochondrial uncoupler compounds selectively to adipose tissue, thus avoiding side effects from uncoupling in other tissues. Selective drug accumulation in adipose tissue has been observed with many lipophilic compounds and dyes. Hence, we explored the feasibility of conjugating uncoupler compounds with a lipophilic C8-hydrocarbon chain via an ether bond. We found that substituting the trifluoromethoxy group in the uncoupler FCCP with a C8-hydrocarbon chain resulted in potent uncoupling activity. Nonetheless, the compound did not elicit therapeutic effects in mice, likely as a consequence of metabolic instability resulting from rapid ether bond cleavage. A lipophilic analog of the uncoupler compound 2,6-dinitrophenol, in which a C8-hydrocarbon chain was conjugated via an ether bond in the para-position (2,6-dinitro-4-(octyloxy)phenol), exhibited increased uncoupling activity compared to the parent compound. However, in vivo pharmacokinetics studies suggested that 2,6-dinitro-4-(octyloxy)phenol was also metabolically unstable. In conclusion, conjugation of a hydrophobic hydrocarbon chain to uncoupler compounds resulted in sustained or improved uncoupling activity. However, an ether bond linkage led to metabolic instability, indicating the need to conjugate lipophilic groups via other chemical bonds.",

author = "Ng, {Mei Ying} and Song, {Zhi Jian} and Gopalakrishnan Venkatesan and Sergio Rodriguez-Cuenca and West, {James A.} and Shili Yang and Tan, {Choon Hong} and Ho, {Paul Chi Lui} and Griffin, {Julian L.} and Antonio Vidal-Puig and Marcella Bassetto and Thilo Hagen",

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AU - Rodriguez-Cuenca, Sergio

AU - West, James A.

AU - Yang, Shili

AU - Tan, Choon Hong

AU - Ho, Paul Chi Lui

AU - Griffin, Julian L.

AU - Vidal-Puig, Antonio

AU - Bassetto, Marcella

AU - Hagen, Thilo

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AB - One potential approach for treating obesity is to increase energy expenditure in brown and white adipose tissue. Here we aimed to achieve this outcome by targeting mitochondrial uncoupler compounds selectively to adipose tissue, thus avoiding side effects from uncoupling in other tissues. Selective drug accumulation in adipose tissue has been observed with many lipophilic compounds and dyes. Hence, we explored the feasibility of conjugating uncoupler compounds with a lipophilic C8-hydrocarbon chain via an ether bond. We found that substituting the trifluoromethoxy group in the uncoupler FCCP with a C8-hydrocarbon chain resulted in potent uncoupling activity. Nonetheless, the compound did not elicit therapeutic effects in mice, likely as a consequence of metabolic instability resulting from rapid ether bond cleavage. A lipophilic analog of the uncoupler compound 2,6-dinitrophenol, in which a C8-hydrocarbon chain was conjugated via an ether bond in the para-position (2,6-dinitro-4-(octyloxy)phenol), exhibited increased uncoupling activity compared to the parent compound. However, in vivo pharmacokinetics studies suggested that 2,6-dinitro-4-(octyloxy)phenol was also metabolically unstable. In conclusion, conjugation of a hydrophobic hydrocarbon chain to uncoupler compounds resulted in sustained or improved uncoupling activity. However, an ether bond linkage led to metabolic instability, indicating the need to conjugate lipophilic groups via other chemical bonds.

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Conjugating uncoupler compounds with hydrophobic hydrocarbon chains to achieve adipose tissue selective drug accumulation

Abstract

Bibliographical note

Data Availability Statement

UN SDGs

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