Alanine supplementation exploits glutamine dependency induced by SMARCA4/2-loss.

SMARCA4 (BRG1) and SMARCA2 (BRM) are the two paralogous ATPases of the SWI/SNF chromatin remodeling complexes frequently inactivated in cancers. Cells deficient in either ATPase have been shown to depend on the remaining counterpart for survival. Contrary to this paralog synthetic lethality, concomitant loss of SMARCA4/2 occurs in a subset of cancers associated with very poor outcomes. Here, we uncover that SMARCA4/2-loss represses expression of the glucose transporter GLUT1, causing reduced glucose uptake and glycolysis accompanied with increased dependency on oxidative phosphorylation (OXPHOS); adapting to this, these SMARCA4/2-deficient cells rely on elevated SLC38A2, an amino acid transporter, to increase glutamine import for fueling OXPHOS. Consequently, SMARCA4/2-deficient cells and tumors are highly sensitive to inhibitors targeting OXPHOS or glutamine metabolism. Furthermore, supplementation of alanine, also imported by SLC38A2, restricts glutamine uptake through competition and selectively induces death in SMARCA4/2-deficient cancer cells. At a clinically relevant dose, alanine supplementation synergizes with OXPHOS inhibition or conventional chemotherapy eliciting marked antitumor activity in patient-derived xenografts. Our findings reveal multiple druggable vulnerabilities of SMARCA4/2-loss exploiting a GLUT1/SLC38A2-mediated metabolic shift. Particularly, unlike dietary deprivation approaches, alanine supplementation can be readily applied to current regimens for better treatment of these aggressive cancers.

CRISPR/Cas9 Editing to Facilitate and Expand Drug Discovery.

INTRODUCTION: The ability of most laboratories to easily access CRISPR/Cas9 engineering tools has caused a revolution in biology. One of the areas that will continue to be impacted by genome editing is the drug discovery process. OBJECTIVE: CRISPR/Cas9 will not only serve to accelerate the drug discovery pipeline, but also streamline line it by identifying high-value targets, facilitating the validation of drug: target interactions and mechanisms of action, and stimulating the development of phenotype-based high throughput screens as alternatives to target-based assays. CONCLUSION: We review the literature and hurdles that have been overcome to develop the current generation of tools being used to enrich the drug discovery paradigm.