Physiological and pathological 3R and 4R tau expression in marmoset brain

Abstract

AbstractBackgroundCommon marmosets (Callithrix jacchus) have recently emerged as an important model for studying aging and neurodegenerative disorders, including Alzheimer’s disease (AD). Amyloid‐β deposits in the cerebral cortex of marmosets present naturally with aging, which has now been widely reported. However, the role of tau in the marmoset brain has been understudied. The purpose of the present studies was to comprehensively examine 3R and 4R tau isoform expression in the marmoset brain.MethodsThe mRNA expression in the marmoset brain was confirmed by RT‐PCR. The total mRNA was isolated from frozen tissue of various age groups and reverse transcribed to cDNA, which was used for RT‐PCR. The sequence of each fragment was confirmed by the Sanger sequencing method. The tau protein expression in Sarkosyl soluble and insoluble fractions was examined by western blot using tau‐specific antibodies, and expression levels of 3R/4R were quantified by Dot blot. Synaptic tau expression was analyzed from crude synaptosome extractions of the frontal cortex. Pathological tau aggregates in cryo‐slices of a 10‐year‐old marmoset brain were visualized by immunohistochemistry.Results3R and 4R tau were expressed in the marmoset brain, with 3R tau predominately expressed in neonatal brains and 4R tau in adult/aged brains. 3R and 4R tau were also localized in synaptic regions of the frontal cortex. The Sarkosyl soluble tau was phosphorylated on T181, T217, and T231 sites with evidence of oligomers. Insoluble tau was phosphorylated on S396/S404 and S202/S205 sites and contained high molecular weight aggregates comprising 3R and 4R tau. Moreover, a 10‐year‐old marmoset brain case study demonstrated a paired helical filament structure in the hippocampus and intracellular 3R and 4R tau accumulation.ConclusionsOur results reveal physiological and pathological 3R/4R tau distributions in the frontal and temporal cortex of the marmoset brain, confirming the presence of 3R tau and AD‐like pathological tau in aging marmosets. These data support the utility of common marmosets as appropriate models for studying AD and neurodegenerative disorders.