Targeting the Interactions of Small GTPase ARF with C9ORF72:SMCR8:WDR41 Complexes Implicated in Amyotrophic Lateral Sclerosis/Frontotemporal Dementia

Abstract

AbstractBackgroundC9ORF72 plays important roles in many cellular processes, including autophagy, membrane trafficking and immune response. The C9ORF72 mutation is the most common cause of familial amyotrophic lateral sclerosis/frontotemporal dementia (ALS/FTD) which is attributed to both gain‐ and loss‐of‐function mechanisms. C9ORF72 forms a complex with SMCR8 and WDR41, which was reported to regulate signaling of small GTPases such as Rab and ARF proteins. Developing small molecules that modulate interfacial C9ORF72:SMCR8:WDR41 (CSW) and small GTPase interactions will aid in understanding their mode of actions and the potential roles of GTP‐dependent signaling in ALS/FTD. Since the C9ORF72 complex has been shown to elicit prominent GTPase activating protein (GAP) activity on ARF, a major regulator of membrane traffic, we aimed to develop novel small molecules that interfere with the binding between the C9ORF72 complex and ARF1.MethodTo identify novel ligands to interfere with the binding between CSW complex and ARF1, we applied in silico virtual screening methods. To this end, the crystal structure of the CSW in complex with ARF1 (PDB: 7MGE) was used for screening of 40,183,714 chemicals available in Mcule database to find hit compound (s).ResultWe defined the binding pocket in the interface of ARF1 and CSW complex including all essential amino acid residues. For filtering the compounds, stringent criteria such as the number of rotatable bonds and the number of heavy atoms were applied. The top 100 hits were identified using this structure‐based virtual screening which show various interactions with the defined binding site of target. Next, the prepared library (the 100 identified Hits) was used as input for virtual screening using Schrodinger software. Flexible docking was performed using Glide program running under LINUX operating system. Based on vina scoring function, 10% of most active compounds that showed the best docking scores were identified and kept for further analysis.ConclusionRational design, computer‐aided, and in silico screening help developing pharmacological modulators to regulate C9ORF72‐ARF signaling and investigate their potential roles in ALS/FTD.Acknowledgement: This study is supported in part by NIH GM146257 on ALS² Initiative and by The Wooten Foundation.