Benzimidazole derivative small-molecule 991 enhances AMPK activity and glucose uptake induced by AICAR or contraction in skeletal muscle

Research output: Contribution to journalJournal articleResearchpeer-review

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Benzimidazole derivative small-molecule 991 enhances AMPK activity and glucose uptake induced by AICAR or contraction in skeletal muscle. / Bultot, Laurent; Jensen, Thomas Elbenhardt; Lai, Yu-Chiang; Madsen, Agnete Louise Bjerregaard; Collodet, Caterina; Kviklyte, Samanta; Deak, Maria; Yavari, Arash; Foretz, Marc; Ghaffari, Sahar; Bellahcene, Mohamed; Ashrafian, Houman; Rider, Mark H.; Richter, Erik A.; Sakamoto, Kei.

In: American Journal of Physiology: Endocrinology and Metabolism, Vol. 311, No. 4, 2016, p. E706-E719.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Bultot, L, Jensen, TE, Lai, Y-C, Madsen, ALB, Collodet, C, Kviklyte, S, Deak, M, Yavari, A, Foretz, M, Ghaffari, S, Bellahcene, M, Ashrafian, H, Rider, MH, Richter, EA & Sakamoto, K 2016, 'Benzimidazole derivative small-molecule 991 enhances AMPK activity and glucose uptake induced by AICAR or contraction in skeletal muscle', American Journal of Physiology: Endocrinology and Metabolism, vol. 311, no. 4, pp. E706-E719. https://doi.org/10.1152/ajpendo.00237.2016

APA

Bultot, L., Jensen, T. E., Lai, Y-C., Madsen, A. L. B., Collodet, C., Kviklyte, S., Deak, M., Yavari, A., Foretz, M., Ghaffari, S., Bellahcene, M., Ashrafian, H., Rider, M. H., Richter, E. A., & Sakamoto, K. (2016). Benzimidazole derivative small-molecule 991 enhances AMPK activity and glucose uptake induced by AICAR or contraction in skeletal muscle. American Journal of Physiology: Endocrinology and Metabolism, 311(4), E706-E719. https://doi.org/10.1152/ajpendo.00237.2016

Vancouver

Bultot L, Jensen TE, Lai Y-C, Madsen ALB, Collodet C, Kviklyte S et al. Benzimidazole derivative small-molecule 991 enhances AMPK activity and glucose uptake induced by AICAR or contraction in skeletal muscle. American Journal of Physiology: Endocrinology and Metabolism. 2016;311(4):E706-E719. https://doi.org/10.1152/ajpendo.00237.2016

Author

Bultot, Laurent ; Jensen, Thomas Elbenhardt ; Lai, Yu-Chiang ; Madsen, Agnete Louise Bjerregaard ; Collodet, Caterina ; Kviklyte, Samanta ; Deak, Maria ; Yavari, Arash ; Foretz, Marc ; Ghaffari, Sahar ; Bellahcene, Mohamed ; Ashrafian, Houman ; Rider, Mark H. ; Richter, Erik A. ; Sakamoto, Kei. / Benzimidazole derivative small-molecule 991 enhances AMPK activity and glucose uptake induced by AICAR or contraction in skeletal muscle. In: American Journal of Physiology: Endocrinology and Metabolism. 2016 ; Vol. 311, No. 4. pp. E706-E719.

Bibtex

@article{f257044f11f44aadbd5b8ee21767023b,
title = "Benzimidazole derivative small-molecule 991 enhances AMPK activity and glucose uptake induced by AICAR or contraction in skeletal muscle",
abstract = "AMP-activated protein kinase (AMPK) plays diverse roles and coordinates complex metabolic pathways for maintenance of energy homeostasis. This could be explained by the fact that AMPK exists as multiple heterotrimer complexes comprising a catalytic α-subunit (α1 and α2) and regulatory β (β1 and β2)- and γ (γ1, γ2, γ3)-subunits, which are uniquely distributed across different cell types. There has been keen interest in developing specific and isoform-selective AMPK-activating drugs for therapeutic use and also as research tools. Moreover, establishing ways of enhancing cellular AMPK activity would be beneficial for both purposes. Here, we investigated if a recently described potent AMPK activator called 991, in combination with the commonly used activator 5-aminoimidazole-4-carboxamide riboside or contraction, further enhances AMPK activity and glucose transport in mouse skeletal muscle ex vivo. Given that the γ3-subunit is exclusively expressed in skeletal muscle and has been implicated in contraction-induced glucose transport, we measured the activity of AMPKγ3 as well as ubiquitously expressed γ1-containing complexes. We initially validated the specificity of the antibodies for the assessment of isoform-specific AMPK activity using AMPK-deficient mouse models. We observed that a low dose of 991 (5 μM) stimulated a modest or negligible activity of both γ1- and γ3-containing AMPK complexes. Strikingly, dual treatment with 991 and 5-aminoimidazole-4-carboxamide riboside or 991 and contraction profoundly enhanced AMPKγ1/γ3 complex activation and glucose transport compared with any of the single treatments. The study demonstrates the utility of a dual activator approach to achieve a greater activation of AMPK and downstream physiological responses in various cell types, including skeletal muscle.",
keywords = "Faculty of Science, AMP-activated protein kinase, LKB1, Compound 13, A769662, 991, ex229, 5-aminoimidazole-4-carboxamide riboside",
author = "Laurent Bultot and Jensen, {Thomas Elbenhardt} and Yu-Chiang Lai and Madsen, {Agnete Louise Bjerregaard} and Caterina Collodet and Samanta Kviklyte and Maria Deak and Arash Yavari and Marc Foretz and Sahar Ghaffari and Mohamed Bellahcene and Houman Ashrafian and Rider, {Mark H.} and Richter, {Erik A.} and Kei Sakamoto",
note = "CURIS 2016 NEXS 336",
year = "2016",
doi = "10.1152/ajpendo.00237.2016",
language = "English",
volume = "311",
pages = "E706--E719",
journal = "American Journal of Physiology - Endocrinology and Metabolism",
issn = "0193-1849",
publisher = "American Physiological Society",
number = "4",

}

RIS

TY - JOUR

T1 - Benzimidazole derivative small-molecule 991 enhances AMPK activity and glucose uptake induced by AICAR or contraction in skeletal muscle

AU - Bultot, Laurent

AU - Jensen, Thomas Elbenhardt

AU - Lai, Yu-Chiang

AU - Madsen, Agnete Louise Bjerregaard

AU - Collodet, Caterina

AU - Kviklyte, Samanta

AU - Deak, Maria

AU - Yavari, Arash

AU - Foretz, Marc

AU - Ghaffari, Sahar

AU - Bellahcene, Mohamed

AU - Ashrafian, Houman

AU - Rider, Mark H.

AU - Richter, Erik A.

AU - Sakamoto, Kei

N1 - CURIS 2016 NEXS 336

PY - 2016

Y1 - 2016

N2 - AMP-activated protein kinase (AMPK) plays diverse roles and coordinates complex metabolic pathways for maintenance of energy homeostasis. This could be explained by the fact that AMPK exists as multiple heterotrimer complexes comprising a catalytic α-subunit (α1 and α2) and regulatory β (β1 and β2)- and γ (γ1, γ2, γ3)-subunits, which are uniquely distributed across different cell types. There has been keen interest in developing specific and isoform-selective AMPK-activating drugs for therapeutic use and also as research tools. Moreover, establishing ways of enhancing cellular AMPK activity would be beneficial for both purposes. Here, we investigated if a recently described potent AMPK activator called 991, in combination with the commonly used activator 5-aminoimidazole-4-carboxamide riboside or contraction, further enhances AMPK activity and glucose transport in mouse skeletal muscle ex vivo. Given that the γ3-subunit is exclusively expressed in skeletal muscle and has been implicated in contraction-induced glucose transport, we measured the activity of AMPKγ3 as well as ubiquitously expressed γ1-containing complexes. We initially validated the specificity of the antibodies for the assessment of isoform-specific AMPK activity using AMPK-deficient mouse models. We observed that a low dose of 991 (5 μM) stimulated a modest or negligible activity of both γ1- and γ3-containing AMPK complexes. Strikingly, dual treatment with 991 and 5-aminoimidazole-4-carboxamide riboside or 991 and contraction profoundly enhanced AMPKγ1/γ3 complex activation and glucose transport compared with any of the single treatments. The study demonstrates the utility of a dual activator approach to achieve a greater activation of AMPK and downstream physiological responses in various cell types, including skeletal muscle.

AB - AMP-activated protein kinase (AMPK) plays diverse roles and coordinates complex metabolic pathways for maintenance of energy homeostasis. This could be explained by the fact that AMPK exists as multiple heterotrimer complexes comprising a catalytic α-subunit (α1 and α2) and regulatory β (β1 and β2)- and γ (γ1, γ2, γ3)-subunits, which are uniquely distributed across different cell types. There has been keen interest in developing specific and isoform-selective AMPK-activating drugs for therapeutic use and also as research tools. Moreover, establishing ways of enhancing cellular AMPK activity would be beneficial for both purposes. Here, we investigated if a recently described potent AMPK activator called 991, in combination with the commonly used activator 5-aminoimidazole-4-carboxamide riboside or contraction, further enhances AMPK activity and glucose transport in mouse skeletal muscle ex vivo. Given that the γ3-subunit is exclusively expressed in skeletal muscle and has been implicated in contraction-induced glucose transport, we measured the activity of AMPKγ3 as well as ubiquitously expressed γ1-containing complexes. We initially validated the specificity of the antibodies for the assessment of isoform-specific AMPK activity using AMPK-deficient mouse models. We observed that a low dose of 991 (5 μM) stimulated a modest or negligible activity of both γ1- and γ3-containing AMPK complexes. Strikingly, dual treatment with 991 and 5-aminoimidazole-4-carboxamide riboside or 991 and contraction profoundly enhanced AMPKγ1/γ3 complex activation and glucose transport compared with any of the single treatments. The study demonstrates the utility of a dual activator approach to achieve a greater activation of AMPK and downstream physiological responses in various cell types, including skeletal muscle.

KW - Faculty of Science

KW - AMP-activated protein kinase

KW - LKB1

KW - Compound 13

KW - A769662

KW - 991

KW - ex229

KW - 5-aminoimidazole-4-carboxamide riboside

U2 - 10.1152/ajpendo.00237.2016

DO - 10.1152/ajpendo.00237.2016

M3 - Journal article

C2 - 27577855

VL - 311

SP - E706-E719

JO - American Journal of Physiology - Endocrinology and Metabolism

JF - American Journal of Physiology - Endocrinology and Metabolism

SN - 0193-1849

IS - 4

ER -

ID: 169159791