Brett Lomenick scite author profile

Identifying the molecular targets for the beneficial or detrimental effects of small-molecule drugs is an important and currently unmet challenge. We have developed a method, drug affinity responsive target stability (DARTS), which takes advantage of a reduction in the protease susceptibility of the target protein upon drug binding. DARTS is universally applicable because it requires no modification of the drug and is independent of the mechanism of drug action. We demonstrate use of DARTS to identify known small-molecule-protein interactions and to reveal the eukaryotic translation initiation machinery as a molecular target for the longevity-enhancing plant natural product resveratrol. We envisage that DARTS will also be useful in global mapping of protein-metabolite interaction networks and in label-free screening of unlimited varieties of compounds for development as molecular imaging agents.aging ͉ label-free ͉ proteomics ͉ small molecules

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The metabolite α-ketoglutarate extends lifespan by inhibiting ATP synthase and TOR

Chin

Pai

et al. 2014

Nature

509

474

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Metabolism and ageing are intimately linked. Compared to ad libitum feeding, dietary restriction (DR) or calorie restriction (CR) consistently extends lifespan and delays age-related diseases in evolutionarily diverse organisms1,2. Similar conditions of nutrient limitation and genetic or pharmacological perturbations of nutrient or energy metabolism also have longevity benefits3,4. Recently, several metabolites have been identified that modulate ageing5,6 with largely undefined molecular mechanisms. Here we show that the tricarboxylic acid (TCA) cycle intermediate α-ketoglutarate (α-KG) extends the lifespan of adult C. elegans. ATP synthase subunit beta is identified as a novel binding protein of α-KG using a small-molecule target identification strategy called DARTS (drug affinity responsive target stability)7. The ATP synthase, also known as Complex V of the mitochondrial electron transport chain (ETC), is the main cellular energy-generating machinery and is highly conserved throughout evolution8,9. Although complete loss of mitochondrial function is detrimental, partial suppression of the ETC has been shown to extend C. elegans lifespan10–13. We show that α-KG inhibits ATP synthase and, similar to ATP synthase knockdown, inhibition by α-KG leads to reduced ATP content, decreased oxygen consumption, and increased autophagy in both C. elegans and mammalian cells. We provide evidence that the lifespan increase by α-KG requires ATP synthase subunit beta and is dependent on the target of rapamycin (TOR) downstream. Endogenous α-KG levels are increased upon starvation and α-KG does not extend the lifespan of DR animals, indicating that α-KG is a key metabolite that mediates longevity by DR. Our analyses uncover new molecular links between a common metabolite, a universal cellular energy generator, and DR in the regulation of organismal lifespan, thus suggesting new strategies for the prevention and treatment of ageing and age-related diseases.

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Target Identification Using Drug Affinity Responsive Target Stability (DARTS)

Lomenick

Jung

Wohlschlegel

et al. 2011

CP Chemical Biology

221

230

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Drug affinity responsive target stability (DARTS) is a general methodology for identifying and studying protein‐ligand interactions. The technique is based on the principle that when a small molecule compound binds to a protein, the interaction stabilizes the target protein's structure such that it becomes resistant to proteases. DARTS is particularly useful for the initial identification of the protein targets of small molecules, but can also be used to validate potential protein‐ligand interactions predicted or identified by other means and to estimate the affinity of interactions. The approach is simple and advantageous because it can be performed using crude cell lysates and other complex protein mixtures (without requiring purified proteins), and it uses native, unmodified small molecules. The protocols in this unit describe the general approach for performing DARTS experiments, which can be easily modified and scaled to fit project‐specific criteria. Curr. Protoc. Chem. Biol. 3:163‐180 © 2011 by John Wiley & Sons, Inc.

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Identification of Direct Protein Targets of Small Molecules

2010

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Small-molecule target identification is a vital and daunting task for the chemical biology community as well as for researchers interested in applying the power of chemical genetics to impact biology and medicine. To overcome this “target ID” bottleneck, new technologies are being developed that analyze protein–drug interactions, such as drug affinity responsive target stability (DARTS), which aims to discover the direct binding targets (and off targets) of small molecules on a proteome scale without requiring chemical modification of the compound. Here, we review the DARTS method, discuss why it works, and provide new perspectives for future development in this area.

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Drug Affinity Responsive Target Stability (DARTS) for Small-Molecule Target Identification

et al. 2014

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Drug Affinity Responsive Target Stability (DARTS) is a relatively quick and straightforward approach to identify potential protein targets for small molecules. It relies on the protection against proteolysis conferred on the target protein by interaction with a small molecule. The greatest advantage of this method is being able to use the native small molecule without having to immobilize or modify it (e.g. by incorporation of biotin, fluorescent, radioisotope, or photo-affinity labels). Here we describe in detail the protocol for performing unbiased DARTS with complex protein lysate to identify potential binding targets of small molecules and for using DARTS-Western blotting to test, screen, or validate potential small molecule targets. Although the ideas have mainly been developed from studying molecules in areas of biology that are currently of interest to us and our collaborators, the general principles should be applicable to the analysis of all molecules in nature.

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Brett Lomenick

Target identification using drug affinity responsive target stability (DARTS)

The metabolite α-ketoglutarate extends lifespan by inhibiting ATP synthase and TOR

Target Identification Using Drug Affinity Responsive Target Stability (DARTS)

Identification of Direct Protein Targets of Small Molecules

Drug Affinity Responsive Target Stability (DARTS) for Small-Molecule Target Identification

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