Biallelic NAA60 variants with impaired n-terminal acetylation capacity cause autosomal recessive primary familial brain calcifications.
Viorica ChelbanHenriette AksnesReza MaroofianLauren C LaMonicaLuis SeabraAnette SiggervågPerrine DevicHanan E ShamseldinJana VandrovcovaDavid MurphyAnne-Claire RichardOlivier QuenezAntoine BonnevalleM Natalia ZanettiRauan KaiyrzhanovVincenzo SalpietroStephanie EfthymiouLucia V SchottlaenderHeba MorsyAnnarita ScardamagliaAmbreen TariqAlistair T PagnamentaAjia PennavariaLiv S KrogstadÅse K BekkelundAlessia CaiellaNina GlomnesKirsten M BrønstadSandrine TuryAndrés Moreno De LucaAnne Boland-AugeRobert OlasoJean François DeleuzeMathieu AnheimBenjamin CretinBarbara VonaFahad S Al-AjlanFirdous AbdulwahabJean-Luc BattiniRojan İpekPeter BauerGiovanni ZifarelliSerdal GungorSemra Hiz KurulHanns LochmüllerSahar Isa Da'asKhalid A FakhroAlicia Gómez-PascualJuan A BotíaNicholas W WoodRita HorvathAndreas M ErnstJames E RothmanMeriel McEntagartYanick J CrowFowzan Sami AlkurayaGaël Nicolasnull nullThomas ArnesenHenry HouldenPublished in: Nature communications (2024)
Primary familial brain calcification (PFBC) is characterized by calcium deposition in the brain, causing progressive movement disorders, psychiatric symptoms, and cognitive decline. PFBC is a heterogeneous disorder currently linked to variants in six different genes, but most patients remain genetically undiagnosed. Here, we identify biallelic NAA60 variants in ten individuals from seven families with autosomal recessive PFBC. The NAA60 variants lead to loss-of-function with lack of protein N-terminal (Nt)-acetylation activity. We show that the phosphate importer SLC20A2 is a substrate of NAA60 in vitro. In cells, loss of NAA60 caused reduced surface levels of SLC20A2 and a reduction in extracellular phosphate uptake. This study establishes NAA60 as a causal gene for PFBC, provides a possible biochemical explanation of its disease-causing mechanisms and underscores NAA60-mediated Nt-acetylation of transmembrane proteins as a fundamental process for healthy neurobiological functioning.
Keyphrases
- copy number
- cognitive decline
- intellectual disability
- resting state
- end stage renal disease
- white matter
- genome wide
- chronic kidney disease
- mild cognitive impairment
- newly diagnosed
- functional connectivity
- ejection fraction
- multiple sclerosis
- early onset
- mental health
- induced apoptosis
- autism spectrum disorder
- prognostic factors
- peritoneal dialysis
- gene expression
- small molecule
- signaling pathway
- physical activity
- muscular dystrophy
- cell death
- genome wide identification
- bioinformatics analysis
- protein protein