Presenilin mutations associated with Alzheimer disease cause defective intracellular trafficking of β-catenin, a component of the presenilin protein complex

M. Nishimura; G. Yu; G. Levesque; D. M. Zhang; L. Ruel; F. Chen; P. Milman; E. Holmes; Y. Liang; T. Kawakai; E. Jo; A. Supala; E. Rogaeva; D. M. Xu; C. Janus; L. Levesque; Q. Bi; M. Duthie; R. Rozmahel; K. Mattila; L. Lannfelt; D. Westaway; H. T J Mount; J. Woodgett; P. E. Fraser; P. St. George-Hyslop

doi:10.1038/5526

Presenilin mutations associated with Alzheimer disease cause defective intracellular trafficking of β-catenin, a component of the presenilin protein complex

M. Nishimura, G. Yu, G. Levesque, D. M. Zhang, L. Ruel, F. Chen, P. Milman, E. Holmes, Y. Liang, T. Kawakai, E. Jo, A. Supala, E. Rogaeva, D. M. Xu, C. Janus, L. Levesque, Q. Bi, M. Duthie, R. Rozmahel, K. MattilaL. Lannfelt, D. Westaway, H. T J Mount, J. Woodgett, P. E. Fraser, P. St. George-Hyslop

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Abstract

The presenilin proteins are components of high-molecular-weight protein complexes in the endoplasmic reticulum and Golgi apparatus that also contain β-catenin. We report here that presenilin mutations associated with familial Alzheimer disease (but not the non-pathogenic Glu318Gly polymorphism) alter the intracellular trafficking of β-catenin after activation of the Wnt/β- catenin signal transduction pathway. As with their effect on βAPP processing, the effect of PS1 mutations on trafficking of β-catenin arises from a dominant 'gain of aberrant function' activity. These results indicate that mistrafficking of selected presenilin ligands is a candidate mechanism for the genesis of Alzheimer disease associated with presenilin mutations, and that dysfunction in the presenilin-β-catenin protein complexes is central to this process.

Original language	English (US)
Pages (from-to)	164-169
Number of pages	6
Journal	Nature medicine
Volume	5
Issue number	2
DOIs	https://doi.org/10.1038/5526
State	Published - Feb 1999

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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Nishimura, M., Yu, G., Levesque, G., Zhang, D. M., Ruel, L., Chen, F., Milman, P., Holmes, E., Liang, Y., Kawakai, T., Jo, E., Supala, A., Rogaeva, E., Xu, D. M., Janus, C., Levesque, L., Bi, Q., Duthie, M., Rozmahel, R., ... St. George-Hyslop, P. (1999). Presenilin mutations associated with Alzheimer disease cause defective intracellular trafficking of β-catenin, a component of the presenilin protein complex. Nature medicine, 5(2), 164-169. https://doi.org/10.1038/5526

Nishimura, M, Yu, G, Levesque, G, Zhang, DM, Ruel, L, Chen, F, Milman, P, Holmes, E, Liang, Y, Kawakai, T, Jo, E, Supala, A, Rogaeva, E, Xu, DM, Janus, C, Levesque, L, Bi, Q, Duthie, M, Rozmahel, R, Mattila, K, Lannfelt, L, Westaway, D, Mount, HTJ, Woodgett, J, Fraser, PE & St. George-Hyslop, P 1999, 'Presenilin mutations associated with Alzheimer disease cause defective intracellular trafficking of β-catenin, a component of the presenilin protein complex', Nature medicine, vol. 5, no. 2, pp. 164-169. https://doi.org/10.1038/5526

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title = "Presenilin mutations associated with Alzheimer disease cause defective intracellular trafficking of β-catenin, a component of the presenilin protein complex",

abstract = "The presenilin proteins are components of high-molecular-weight protein complexes in the endoplasmic reticulum and Golgi apparatus that also contain β-catenin. We report here that presenilin mutations associated with familial Alzheimer disease (but not the non-pathogenic Glu318Gly polymorphism) alter the intracellular trafficking of β-catenin after activation of the Wnt/β- catenin signal transduction pathway. As with their effect on βAPP processing, the effect of PS1 mutations on trafficking of β-catenin arises from a dominant 'gain of aberrant function' activity. These results indicate that mistrafficking of selected presenilin ligands is a candidate mechanism for the genesis of Alzheimer disease associated with presenilin mutations, and that dysfunction in the presenilin-β-catenin protein complexes is central to this process.",

author = "M. Nishimura and G. Yu and G. Levesque and Zhang, {D. M.} and L. Ruel and F. Chen and P. Milman and E. Holmes and Y. Liang and T. Kawakai and E. Jo and A. Supala and E. Rogaeva and Xu, {D. M.} and C. Janus and L. Levesque and Q. Bi and M. Duthie and R. Rozmahel and K. Mattila and L. Lannfelt and D. Westaway and Mount, {H. T J} and J. Woodgett and Fraser, {P. E.} and {St. George-Hyslop}, P.",

note = "Funding Information: Acknowledgments This work was supported by grants from the Medical Research Council of Canada, Alzheimer Association of Ontario, EJLB Foundation, Howard Hughes Medical Research Foundation, The Canadian Genetic Disease Network, Scottish Rite Charitable Foundation, the Helen B. Hunter Fellowship (G.Y.), the Peterborough-Burgess Fellowship (E.A.R.), and the University of Toronto Department of Medicine Postgraduate Fellowship (M.N.).",

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AU - Yu, G.

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AU - Zhang, D. M.

AU - Ruel, L.

AU - Chen, F.

AU - Milman, P.

AU - Holmes, E.

AU - Liang, Y.

AU - Kawakai, T.

AU - Jo, E.

AU - Supala, A.

AU - Rogaeva, E.

AU - Xu, D. M.

AU - Janus, C.

AU - Levesque, L.

AU - Bi, Q.

AU - Duthie, M.

AU - Rozmahel, R.

AU - Mattila, K.

AU - Lannfelt, L.

AU - Westaway, D.

AU - Mount, H. T J

AU - Woodgett, J.

AU - Fraser, P. E.

AU - St. George-Hyslop, P.

N1 - Funding Information: Acknowledgments This work was supported by grants from the Medical Research Council of Canada, Alzheimer Association of Ontario, EJLB Foundation, Howard Hughes Medical Research Foundation, The Canadian Genetic Disease Network, Scottish Rite Charitable Foundation, the Helen B. Hunter Fellowship (G.Y.), the Peterborough-Burgess Fellowship (E.A.R.), and the University of Toronto Department of Medicine Postgraduate Fellowship (M.N.).

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N2 - The presenilin proteins are components of high-molecular-weight protein complexes in the endoplasmic reticulum and Golgi apparatus that also contain β-catenin. We report here that presenilin mutations associated with familial Alzheimer disease (but not the non-pathogenic Glu318Gly polymorphism) alter the intracellular trafficking of β-catenin after activation of the Wnt/β- catenin signal transduction pathway. As with their effect on βAPP processing, the effect of PS1 mutations on trafficking of β-catenin arises from a dominant 'gain of aberrant function' activity. These results indicate that mistrafficking of selected presenilin ligands is a candidate mechanism for the genesis of Alzheimer disease associated with presenilin mutations, and that dysfunction in the presenilin-β-catenin protein complexes is central to this process.

AB - The presenilin proteins are components of high-molecular-weight protein complexes in the endoplasmic reticulum and Golgi apparatus that also contain β-catenin. We report here that presenilin mutations associated with familial Alzheimer disease (but not the non-pathogenic Glu318Gly polymorphism) alter the intracellular trafficking of β-catenin after activation of the Wnt/β- catenin signal transduction pathway. As with their effect on βAPP processing, the effect of PS1 mutations on trafficking of β-catenin arises from a dominant 'gain of aberrant function' activity. These results indicate that mistrafficking of selected presenilin ligands is a candidate mechanism for the genesis of Alzheimer disease associated with presenilin mutations, and that dysfunction in the presenilin-β-catenin protein complexes is central to this process.

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Presenilin mutations associated with Alzheimer disease cause defective intracellular trafficking of β-catenin, a component of the presenilin protein complex

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