Abstract
Abundant biochemical and genetic evidence suggests that presenilins are catalytic components of gamma-secretase, the protease responsible for generating the Alzheimer amyloid beta-protein. However, the differential localization of presenilins to early secretory compartments and gamma-secretase substrates to late secretory compartments and the plasma membrane (the "spatial paradox") argues against this view. We investigated this issue by studying the localization of nicastrin, another putative gamma-secretase component, and its association with presenilin-1 into proteolytically active complexes. Glycosidase digests revealed that nicastrin exists in multiple glycoforms and is terminally sialylated, a modification often associated with the trans-Golgi network. Trafficking of nicastrin to the trans-Golgi network was confirmed by density gradient fractionation and immunofluorescence microscopy. In presenilin-deficient cells, however, nicastrin trafficking and maturation were abnormal, as the protein was restricted to early secretory compartments and failed to be sialylated. Mature sialylated nicastrin in trans-Golgi network fractions was complexed quantitatively with N- and C-terminal fragments of presenilin-1, whereas immature nicastrin present in early secretory compartments was not. Additionally, trans-Golgi network fractions contained the gamma-secretase substrate beta-amyloid precursor protein C83 and were enriched in presenilin-dependent gamma-secretase proteolytic activity. The results resolve the apparent spatial paradox by demonstrating that presenilin-nicastrin complexes and presenilin-dependent gamma-secretase activity are co-localized to a late secretory compartment. The findings provide further evidence that presenilin-containing complexes are the gamma-secretase, and indicate that presenilins also regulate gamma-secretase assembly.
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