Integration of physiologically relevant in vitro assays at the earliest stages of drug discovery may improve the likelihood of successfully translating preclinical discoveries to the clinic. Assays based on in vitro-differentiated, human pluripotent stem cell (IVD hPSC)-derived cells, which may better model human physiology, are starting to impact the drug discovery process, but their implementation has been slower than originally anticipated. In this Perspective, we discuss imperatives for incorporating IVD hPSCs into drug discovery and the associated challenges.
Activation of the aryl hydrocarbon receptor (AHR) by agonists and environmental contaminants like dioxin (2,3,7,8-tetrachlorodibenzo-p-dioxin) leads to many adverse biological effects, including tumor promotion. With this in mind, we propose that agents that block the AHR pathway may be therapeutically beneficial, particularly by exhibiting chemopreventive activities. In our current research, we have focused on the development of an AHR antagonist using a chemical genetic approach called PROTACS (PROteolysis-TArgeting Chimeric moleculeS). PROTACS is a novel approach of tagging small recognition sequences of a specific E3 ubiquitin ligase complex to a known ligand for the receptor of interest (AHR) for targeting its degradation. Here, we present the design and initial characterization of AHR targeting PROTACS (ApigeninProtac) designed to degrade and inhibit the AHR in epithelial cells. Our results demonstrate the "proof of concept" of this approach in effectively blocking AHR activity in cultured cells.Exposures to environmental factors are believed to play a substantial role in the development of many human cancers
Background: AMPK is a heterotrimeric enzyme targeted for drug discovery (activation) in diabetes. Results: Diversity of AMPK was studied by chemical capture and proteomic LC-MS. Conclusion: AMPK of human and rat livers differs with respect to the  chain. Certain direct activators only activate AMPK containing the 1 form. Significance: Interspecies divergence could compromise the translatability of preclinical data.
The aryl hydrocarbon receptor (AHR) is a cytosolic receptor which upon activation by its agonists, translocates into the nucleus and forms a dimer with ARNT (aryl hydrocarbon nuclear translocator). The AHR/ARNT dimer regulates the expression of its target genes by binding to DNA recognition elements termed dioxin responsive elements (DREs). Many AHR agonists, like the polyaromatic hydrocarbons and polyhalogenated hydrocarbons are known human carcinogens. Human exposure to these compounds is common due to their presence in air pollution and cigarette smoke. Interestingly, many dietary constituents that have chemo preventative properties have been found to also act as antagonists of the AHR pathway. Thus, a chemopreventive approach that may be effective in decreasing the incidences of many human cancers may involve a dietary regimen that includes a number of these naturally occurring AHR antagonists. With this idea in mind, we have assayed the ability of 15 flavonoids to inhibit AHR activated reporter activity and selected kaempferol for further analysis. Kaempferol proved to be capable of inhibiting binding of agonist and agonist-induced formation of the AHR/ARNT DNA-binding complex and upregulation of the AHR target gene, CYP1A1. Using an in vitro paradigm of events that are thought to occur during cigarette-smoke-induced lung cancer, we found that kaempferol also inhibited the ability of cigarette smoke condensate to induce growth of immortalized lung epithelial (BEAS-2B) cells in soft agar. Taken together, these results illustrate the promise associated with the use of flavonoids, that inhibit both AHR signaling and the carcinogenic actions of AHR agonists, for chemopreventive purposes.
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