Abstract
The gamma-secretase complex catalyzes the cleavage of the amyloid precursor protein in its transmembrane domain resulting in the formation of the amyloid beta-peptide and the cytoplasmic APP intracellular domain. The active gamma-secretase complex is composed of at least four subunits: presenilin (PS), nicastrin, Aph-1, and Pen-2, where the presence of all components is critically required for gamma-cleavage to occur. The PS proteins are themselves subjected to endoproteolytic cleavage resulting in the generation of an N-terminal and a C-terminal fragment that remain stably associated as a heterodimer. Here we investigated the effects of modifications on the C terminus of PS1 on PS1 endoproteolysis, gamma-secretase complex assembly, and activity in cells devoid of endogenous PS. We report that certain mutations and, in particular, deletions of the PS1 C terminus decrease gamma-secretase activity, PS1 endoproteolysis, and gamma-secretase complex formation. We demonstrate that the N- and C-terminal PS1 fragments can associate with each other in mutants having C-terminal truncations that cause loss of interaction with nicastrin and Aph-1. In addition, we show that the C-terminal fragment of PS1 alone can mediate interaction with nicastrin and Aph-1 in PS null cells expressing only the C-terminal fragment of PS1. Taken together, these data suggest that the PS1 N- and C-terminal fragment intermolecular interactions are independent of an association with nicastrin and Aph-1, and that nicastrin and Aph-1 interact with the C-terminal part of PS1 in the absence of an association with full-length PS1 or the N-terminal fragment.
Highlights
The formation and aggregation of the 40 – 42-residue amyloid -peptide (A)1 in brain are implicated in Alzheimer’s disease (AD) [1]
In transiently transfected PS null cells neither the I467R mutant nor the H463A and A461F mutants had an appreciable effect on ␥-secretase activity or endoproteolysis compared with wild-type PS1 (Fig. 1, A and B, and not shown)
The invasive triple-Glu mutant was more deficient in rescuing ␥-secretase activity and endoproteolysis in PS null cells than the single point mutations; the integrity of the PS1 C terminus appears to be important for PS1 function
Summary
A, amyloid -peptide; APP, amyloid precursor protein; AICD, APP intracellular domain; PS, presenilin; RIP, regulated intramembrane proteolysis; NTF, N-terminal fragment; CTF, C-terminal fragment; BD8 cells, blastocyst-derived embryonic stem cells; Ab, antibody; CHAPSO, 3-[(3-cholamidopropyl)dimethylammonio]-2-hydroxy-1-propanesulfonic acid; Tricine, N-[2-hydroxy-1,1bis(hydroxymethyl)ethyl]glycine; ANOVA, analysis of variance. The N terminus of AICD is located 7–9 residues C-terminal to the site predicted by the ␥-secretase cleavages generating A40 and A42 [6]. This cleavage site, occurring between Leu-49 and Val-50 (A numbering), has been termed the ⑀ site. Accumulating evidence suggests that the NTF and CTF heterodimer is the active form of PS and provides the catalytic core of the ␥-secretase complex. We investigated the importance of the C-terminal domain of PS1 for ␥-secretase complex activity and endoproteolysis. We report that deletions of the PS1 C terminus affect PS1 endoproteolysis, ␥-secretase complex assembly, and activity when expressed in PS-deficient cells. We show that CTF alone interacts with immature nicastrin and Aph-1 in cells that express CTF on a PS null background
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