Proximal partners of the organellar N-terminal acetyltransferase NAA60: Insights into Golgi structure and transmembrane protein topology

Abstract

Biotin identification (BioID) is an interactomics approach that utilizes proximity labelling to map the local interactome or proxeome of proteins within a cell. This study applies BioID to investigate proteins proximal to NAA60 (N-alpha-acetyltransferase 60), an N-terminal acetyltransferase (NAT) of pathological significance in human disease, characterized by its unique Golgi localization. NAA60 is known to N-terminally acetylate transmembrane proteins that present their N-terminus on the cytosolic face of the membrane, and its involvement in maintaining Golgi structure has previously been established. Using a stable cell-line expressing an NAA60-BirA∗ fusion protein, we isolated biotinylated proteins through streptavidin affinity purification. Mass spectrometry analysis revealed over 100 proximal partners of NAA60, enriched in proteins localized on the trans-side of the Golgi apparatus. High-confidence proximity interactors included golgins and GRASP proteins, essential for Golgi integrity. Considering the transmembrane nature of NAA60, the identification of biotinylated peptides inferred the topology of transmembrane protein interactors within the secretory pathway. Subsequent suborganellar localization analysis revealed a more prominent medial/trans-Golgi localization of NAA60. Our findings underscore the role of NAA60 and its interactors in maintaining Golgi structural integrity and highlight the effectiveness of BioID in generating critical protein topology data, invaluable for enhancing the prediction of protein topology within cellular compartments.