Computer-aided discovery of novel AMPK activators through virtual screening and SAR-driven synthesis

Kyung Hwa Jeon; Jae Ho Shin; Hyun Ji Jo; Hyunjeong Kim; Seojeong Park; Seojeong Kim; Juhong Lee; Eosu Kim; Younghwa Na; Youngjoo Kwon

doi:10.1016/j.ejmech.2025.117318

Computer-aided discovery of novel AMPK activators through virtual screening and SAR-driven synthesis

Kyung Hwa Jeon
, Jae Ho Shin
, Hyun Ji Jo
, Hyunjeong Kim
, Seojeong Park
, Seojeong Kim
, Juhong Lee
, Eosu Kim
, Younghwa Na
, Youngjoo Kwon

Department of Pharmaceutical Sciences

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

3 Scopus citations

Abstract

AMPK is a promising target for various chronic illnesses such as diabetes and Alzheimer's disease (AD). We sought to develop a novel small molecule that directly activates AMPK, with the potential to fundamentally modulate the pathogenic mechanisms of the metabolic disorders. To identify a potent novel pharmacophore in an unbiased way, we performed structure-based virtual screening on a commercially available chemical library, and evaluated the actual AMPK activity of 118 compounds selected from 100,000 compounds based on docking scores. Additional iterative molecular docking studies and experimental evaluation of AMPK activity led us to select a hit compound, B1, with a chromone backbone. Using the hit compound and other compounds structurally similar to the hit compound, we identified the chalcone structure as a new scaffold with more efficient interactions with key residues required for AMPK activation. From the newly designed and synthesized chalcone derivatives, we discovered compound 6 as a candidate compound. Compound 6 showed the most efficient interactions with the key residues of AMPK at in silico study and demonstrated significant activation of AMPK in both in vitro and in cellular assays.

Original language	English
Article number	117318
Journal	European Journal of Medicinal Chemistry
Volume	287
DOIs	https://doi.org/10.1016/j.ejmech.2025.117318
State	Published - 5 Apr 2025

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© 2025 Elsevier Masson SAS

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10.1016/j.ejmech.2025.117318

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title = "Computer-aided discovery of novel AMPK activators through virtual screening and SAR-driven synthesis",

abstract = "AMPK is a promising target for various chronic illnesses such as diabetes and Alzheimer's disease (AD). We sought to develop a novel small molecule that directly activates AMPK, with the potential to fundamentally modulate the pathogenic mechanisms of the metabolic disorders. To identify a potent novel pharmacophore in an unbiased way, we performed structure-based virtual screening on a commercially available chemical library, and evaluated the actual AMPK activity of 118 compounds selected from 100,000 compounds based on docking scores. Additional iterative molecular docking studies and experimental evaluation of AMPK activity led us to select a hit compound, B1, with a chromone backbone. Using the hit compound and other compounds structurally similar to the hit compound, we identified the chalcone structure as a new scaffold with more efficient interactions with key residues required for AMPK activation. From the newly designed and synthesized chalcone derivatives, we discovered compound 6 as a candidate compound. Compound 6 showed the most efficient interactions with the key residues of AMPK at in silico study and demonstrated significant activation of AMPK in both in vitro and in cellular assays.",

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AU - Jeon, Kyung Hwa

AU - Shin, Jae Ho

AU - Jo, Hyun Ji

AU - Kim, Hyunjeong

AU - Park, Seojeong

AU - Kim, Seojeong

AU - Lee, Juhong

AU - Kim, Eosu

AU - Na, Younghwa

AU - Kwon, Youngjoo

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N2 - AMPK is a promising target for various chronic illnesses such as diabetes and Alzheimer's disease (AD). We sought to develop a novel small molecule that directly activates AMPK, with the potential to fundamentally modulate the pathogenic mechanisms of the metabolic disorders. To identify a potent novel pharmacophore in an unbiased way, we performed structure-based virtual screening on a commercially available chemical library, and evaluated the actual AMPK activity of 118 compounds selected from 100,000 compounds based on docking scores. Additional iterative molecular docking studies and experimental evaluation of AMPK activity led us to select a hit compound, B1, with a chromone backbone. Using the hit compound and other compounds structurally similar to the hit compound, we identified the chalcone structure as a new scaffold with more efficient interactions with key residues required for AMPK activation. From the newly designed and synthesized chalcone derivatives, we discovered compound 6 as a candidate compound. Compound 6 showed the most efficient interactions with the key residues of AMPK at in silico study and demonstrated significant activation of AMPK in both in vitro and in cellular assays.

AB - AMPK is a promising target for various chronic illnesses such as diabetes and Alzheimer's disease (AD). We sought to develop a novel small molecule that directly activates AMPK, with the potential to fundamentally modulate the pathogenic mechanisms of the metabolic disorders. To identify a potent novel pharmacophore in an unbiased way, we performed structure-based virtual screening on a commercially available chemical library, and evaluated the actual AMPK activity of 118 compounds selected from 100,000 compounds based on docking scores. Additional iterative molecular docking studies and experimental evaluation of AMPK activity led us to select a hit compound, B1, with a chromone backbone. Using the hit compound and other compounds structurally similar to the hit compound, we identified the chalcone structure as a new scaffold with more efficient interactions with key residues required for AMPK activation. From the newly designed and synthesized chalcone derivatives, we discovered compound 6 as a candidate compound. Compound 6 showed the most efficient interactions with the key residues of AMPK at in silico study and demonstrated significant activation of AMPK in both in vitro and in cellular assays.

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AN - SCOPUS:85216697407

SN - 0223-5234

VL - 287

JO - European Journal of Medicinal Chemistry

JF - European Journal of Medicinal Chemistry

M1 - 117318

ER -

Computer-aided discovery of novel AMPK activators through virtual screening and SAR-driven synthesis

Abstract

Bibliographical note

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