The nonconserved hydrophilic loop domain of presenilin (PS) is not required for PS endoproteolysis or enhanced A beta 42 production mediated by familial early onset Alzheimer's disease-linked PS variants

Presenilin 1 (PS1) and presenilin 2 (PS2) are polytopic membrane proteins t hat are mutated in the majority of early onset familial Alzheimer's disease (FAD) cases. Two lines of evidence establish a critical role for PS in the production of beta-amyloid peptides (A beta). FAD-linked PS mutations elev ate the levels of highly amyloidogenic A beta ending at residue 42 (A beta 42), and cells with ablated PS1 alleles secrete low levels of A beta. Sever al recent reports have shown that the hydrophilic loop (HL) domain, located between transmembrane domains 6 and 7, contains sites for phosphorylation, caspase cleavage, and sequences that bind several PS-interacting proteins. In the present report, we examined the metabolism of PS polypeptides lacki ng the HL domain and the influence of these molecules on A beta production. We report that the deletion of the HL domain does not have a deleterious e ffect on the regulated endoproteolysis of PS, saturable accumulation of PS fragments, or the self-association of PS fragments. A beta production was n ot significantly altered in cells expressing HL-deleted PS polypeptides com pared with cells expressing full-length PS. Importantly, deletion of the HL domain did not affect FAD mutation-mediated elevation in the production of A beta 42. Furthermore, the deletion of the HL domain did not impair the r ole of PS1 or PS2 in facilitating Notch processing. Thus, our results argue against a biologically or pathologically relevant role for the HL domain p hosphorylation and caspase cleavage and the association of PS HL domain-int eracting proteins, in amyloid precursor protein metabolism and A beta produ ction or Notch cleavage.