Introduction to the Theme “New Approaches for Studying Drug and Toxicant Action: Applications to Drug Discovery and Development”

Four major receptor families enable cells to respond to chemical and physical signals from their proximal environment. The ligand- and voltage-gated ion channels, G-protein-coupled receptors, nuclear hormone receptors, and receptor tyrosine kinases are all allosteric proteins that carry multiple, spatially distinct, yet conformationally linked ligand-binding sites. Recent studies point to common mechanisms governing the allosteric transitions of these receptors, including the impact of oligomerization, pre-existing and functionally distinct conformational ensembles, intrinsically disordered regions, and the occurrence of allosteric modulatory sites. Importantly, synthetic allosteric modulators are being discovered for these receptors, providing an enriched, yet challenging, landscape for novel therapeutics.

Alterations of genes regulating epigenetic processes are frequently found as cancer drivers and may cause widespread alterations of DNA methylation, histone modification patterns, or chromatin structure that disrupt normal patterns of gene expression. Because of the inherent reversibility of epigenetic changes, inhibitors targeting these processes are promising anticancer strategies. Small molecules targeting epigenetic regulators have been developed recently, and clinical trials of these agents are under way for hematologic malignancies and solid tumors. In this review, we describe how the writers, readers, and erasers of epigenetic marks are dysregulated in cancer and summarize the development of therapies targeting these mechanisms.

The widespread abuse of prescription opioids and a dramatic increase in the availability of illicit opioids have created what is commonly referred to as the opioid epidemic. The magnitude of this epidemic is startling: About 4% of the adult US population misuses prescription opioids, and in 2015, more than 33,000 deaths were attributable to overdose with licit and illicit opioids. Increasing the availability of medication-assisted treatments (such as buprenorphine and naltrexone), the use of abuse-deterrent formulations, and the adoption of US Centers for Disease Control and Prevention prescribing guidelines all constitute short-term approaches to quell this epidemic. However, with more than 125 million Americans suffering from either acute or chronic pain, the development of effective alternatives to opioids, enabled at least in part by a fuller understanding of the neurobiological bases of pain, offers the best long-term solution for controlling and ultimately eradicating this epidemic.