Readthrough Acetylcholinesterase Expression Remains Minor After Stress or Exposure to Inhibitors

Abstract

The gene of mammalian acetylcholinesterase (AChE) generates multiple molecular forms, by alternative splicing of its transcripts and association of the tailed variant (AChET) with structural proteins. In the mammalian brain, the major AChE species consists of AChET tetramers anchored to the cell membrane of neurons by the PRiMA protein (Perrier et al., 2002). Stress and anticholinesterase inhibitors have been reported to induce rapid and long-lasting expression of the readthrough variant (AChER) in the mouse brain (Kaufer et al., 1998). In the readthrough transcript, there is no splicing after the last exon encoding the catalytic domain, so that the entire alternatively spliced 3' region is maintained. It encodes a C-terminal peptide with no specific interaction properties: COS cells transfected with AChER produce a soluble, nonamphiphilic monomeric form. We quantified AChER and total AChE expression in the mouse brain after an immobilization stress and after heat shock in neuroblastoma cells, and compared the observed effects with those induced by irreversible AChE inhibition (Perrier et al., 2005).