APP-BP1 inhibits Abeta42 levels by interacting with Presenilin-1. Chen, Y; Bodles, AM; McPhie, DL; Neve, RL; Mrak, RE; Griffin, WS Molecular neurodegeneration
2
3
2007
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The beta-amyloid precursor protein (APP) is sequentially cleaved by the beta- and then gamma-secretase to generate the amyloid beta-peptides Abeta40 and Abeta42. Increased Abeta42/Abeta40 ratios trigger amyloid plaque formations in Alzheimer's disease (AD). APP binds to APP-BP1, but the biological consequence is not well understood.We report that when the endogenous APP-BP1 was suppressed by small interfering RNAs (siRNAs), cell-associated Abeta42 was dramatically increased in APP695 expressing primary neurons. The accumulation of Abeta42 was accompanied by significant increases in APP and APP-CTF in APP-BP1 siRNA expressing neurons. In contrast, APP-BP1 overexpression in primary neurons significantly decreased the levels of Abeta and endogenous APP but not APLPs. We also investigated the potential mechanism of APP-BP1-mediated APP processing. APP-BP1 co-precipitated with Presenilin-1 (PS1) in native rat brain extracts, co-migrated with the gamma-secretase components in brain membrane extracts in glycerol gradient centrifugation, and colocalized in primary neurons. Further, the endogenous PS1-CTF was significantly downregulated by APP-BP1 expression.Our data suggest that APP-BP1 may inhibit Abeta42 production by interacting with PS1 under physiological conditions. Testo completo dell'articolo | | 17286867
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The extreme C terminus of presenilin 1 is essential for gamma-secretase complex assembly and activity. Bergman, A; Laudon, H; Winblad, B; Lundkvist, J; Näslund, J The Journal of biological chemistry
279
45564-72
2004
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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. | | 15322123
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Presenilin-1 and its N-terminal and C-terminal fragments are transported in the sciatic nerve of rat. P Kasa, H Papp, M Pakaski Brain research
909
159-69
2001
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The axonal transport of presenilin-1 was investigated in a spinal cord-sciatic nerve-neuromuscular junction model system in the rat. The technique of unilateral sciatic nerve ligation, using double ligatures, was combined with immunohistochemical staining and Western blotting to examine the axonal transport of the protein. Immunohistochemical studies involving the use of polyclonal antibodies for either the N-terminal or the C-terminal domain of presenilin-1 furnished evidence that both fragments may be present not only in the neuronal cell bodies, but also in the motoric and sensory axons and the motoric axon terminals at the neuromuscular junctions. After double ligation of the sciatic nerve for 6, 12 or 24 h, progressive immunostaining of presenilin-1 occurred above the upper ligature and to a lesser extent below the lower ligature. Double staining of the sciatic nerve for presenilin-1 and for amyloid precursor protein revealed overlapping immunoreactivity. Western blotting confirmed the accumulation of the approximately 20-kDa C-terminal and approximately 25-kDa N-terminal fragments and the full-length 45-kDa holoprotein of presenilin-1 both above and below the ligature. It is concluded that besides the larger amounts of C-terminal and N-terminal fragments, a smaller quantity of intact presenilin-1 may be present and conveyed bidirectionally in the sciatic nerve of the rat. These results lend further support to the suggestion that presenilin-1 may leave the trans-Golgi network and be found in the axons and axon terminals of the various neurons. | Rat | 11478932
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