PRESENILIN 1mutations causing early-onset familial Alzheimer’s disease or familial acne inversa differ in their effects on genes facilitating energy metabolism and signal transduction

Abstract

ABSTRACTBackgroundThe most common cause of early-onset familial Alzheimer’s disease (EOfAD) is mutations inPRESENILIN 1(PSEN1) allowing production of mRNAs encoding full-length, but mutant, proteins. In contrast, a single known frameshift mutation inPSEN1causes familial acne inversa (fAI) without EOfAD. The molecular consequences of heterozygosity for these mutation types, and how they cause completely different diseases, remains largely unexplored.ObjectiveTo analyse brain transcriptomes of young adult zebrafish to identify similarities and differences in the effects of heterozygosity forpsen1mutations causing EOfAD or fAI.MethodsRNA sequencing was performed on mRNA isolated from the brains of a single family of 6-month-old zebrafish siblings either wild type or possessing a single, heterozygous EOfAD-like or fAI-like mutation in their endogenouspsen1gene.ResultsBoth mutations downregulate genes encoding ribosomal subunits, and upregulate genes involved in inflammation. Genes involved in energy metabolism appeared significantly affected only by the EOfAD-like mutation, while genes involved in Notch, Wnt and neurotrophin signalling pathways appeared significantly affected only by the fAI-like mutation. However, investigation of direct transcriptional targets of Notch signalling revealed possible increases in γ-secretase activity due to heterozygosity for eitherpsen1mutation. Transcriptional adaptation due to the fAI-like frameshift mutation was evident.ConclusionWe observed both similar and contrasting effects on brain transcriptomes of the heterozygous EOfAD-like and fAI-like mutations. The contrasting effects may illuminate how these mutation types cause distinct diseases.