NAA60


Nα-acetyltransferase 60 also known as NatF is a member of the N-terminal acetyltransferase family of proteins. NATs bind to acetyl-coenzyme A as well as to the protein N-terminus, and enzymatically transfer the acetyl group from Ac-CoA to the free backbone amino group on the first residue of the protein. NATs are mono- or multisubunit enzymes consisting of one catalytic subunit and up to two auxiliary subunits, however, only a catalytic subunit of NAA60 has been identified so far.

Structure

The crystal structure of NAA60 was solved in 2016, though it was missing the C-terminal region due to difficulties purifying the whole protein. The structure revealed an overall fold that is similar to the catalytic subunit of ribosome-associated NATs, and the two residues Y164 and Y165 of the β6-β7 loop important for peptide anchoring is conserved in NAA60 as in multiple NATs. Most similarities in the active site of NAA60 were found to NAA50. The two NATs share several residues that make up a hydrophobic core recognizing the Nt-Met of their substrates. However, this cavity is larger and more solvent exposed in NAA60 to accommodate larger and more polar residues in position 2 and 3 of its substrates.
Through biochemical analysis, the C-terminal end has been found to be important for binding to intracellular membranes but not for its biochemical function. Two amphipathic α-helices near the C-terminus have been identified as mediators of the membrane interaction

Subcellular localization

NAA60 localizes to the Golgi apparatus, making it the only organellar bound NAT described to date. NAA10 through NAA50 all exhibit a cytoplasmic or nuclear localization. Both endogenous and overexpressed NAA60 colocalizes with the cis-Golgi marker GM130, as well as identifying it in vesicles colocalizing with markers for peroxisomes, endosomes, lysosomes, and secretory vesicles
NAA60 has shown binding preference to membranes containing the phosphatidylinositol 4-phosphate lipid, possibly explaining its residence in Golgi membranes which are rich in these lipids. All parts of the protein, including the GNAT domain, face the cytosol which limits NAA60`s catalytic activity to the cytosolic side of membranes.

Substrate specificity

NAA60, together with NatC and NatE, is able to acetylate methionine starting N-termini followed by hydrophobic or amphiphatic-type amino acids. NAA60 show further substrate specificity towards membrane proteins with their N-termini facing the cytosol. From an N-terminomic analysis of NAA60 knock-down cells, 23 substrates of NAA60 were found, of which 21 were membrane proteins located either in the ER, plasma membrane, Golgi, mitochondria, or vesicular membranes.

Disease

NAA60 was found to be important in brain phosphate homeostasis. It was identified as causative of the genetic disease primary familial brian calcification. PFBC is a neurodegenerative disease characterized by bilateral calcification distributed in the basal ganglia, thalamus, and cerebellum. Symptoms could be generally grouped as movement disorders, cognitive decline, and psychiatric disturbances. In the study by Chelban and Aksnes et al. 10 individuals with PFBC from 7 different families were presented with biallelic variants of NAA60. In NAA60 KD cells, one have previously observed Golgi fragmentation leading to the hypothesis that NAA60 is essential for the N-terminal acetylation of membrane proteins critical for normal Golgi function. Findings from the aforementioned study indicate a decrease in surface levels of SLC20A2 when NAA60 is lacking, but no clear explanation of the molecular mechanism behind PFBC exists at this time.