Huprine-tacrine heterodimers as anti-amyloidogenic compounds of potential interest against Alzheimer's and prion diseases

Carles Galdeano; Elisabet Viayna; Irene Sola; Xavier Formosa; Pelayo Camps; Albert Badia; M. Victòria Clos; Júlia Relat; Míriam Ratia; Manuela Bartolini; Francesca Mancini; Vincenza Andrisano; Mario Salmona; Cristina Minguillón; Gema C. González-Muñoz; M. Isabel Rodríguez-Franco; Axel Bidon-Chanal; F. Javier Luque; Diego Muñoz-Torrero

doi:https://doi.org/10.1021/jm200840c

Huprine-tacrine heterodimers as anti-amyloidogenic compounds of potential interest against Alzheimer's and prion diseases

Carles Galdeano, Elisabet Viayna, Irene Sola, Xavier Formosa, Pelayo Camps, Albert Badia, M. Victòria Clos, Júlia Relat, Míriam Ratia, Manuela Bartolini, Francesca Mancini, Vincenza Andrisano, Mario Salmona, Cristina Minguillón, Gema C. González-Muñoz, M. Isabel Rodríguez-Franco, Axel Bidon-Chanal, F. Javier Luque, Diego Muñoz-Torrero

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Abstract

A family of huprine-tacrine heterodimers has been developed to simultaneously block the active and peripheral sites of acetylcholinesterase (AChE). Their dual site binding for AChE, supported by kinetic and molecular modeling studies, results in a highly potent inhibition of the catalytic activity of human AChE and, more importantly, in the in vitro neutralization of the pathological chaperoning effect of AChE toward the aggregation of both the β-amyloid peptide (Aβ) and a prion peptide with a key role in the aggregation of the prion protein. Huprine-tacrine heterodimers take on added value in that they display a potent in vitro inhibitory activity toward human butyrylcholinesterase, self-induced Aβ aggregation, and β-secretase. Finally, they are able to cross the blood-brain barrier, as predicted in an artificial membrane model assay and demonstrated in ex vivo experiments with OF1 mice, reaching their multiple biological targets in the central nervous system. Overall, these compounds are promising lead compounds for the treatment of Alzheimer's and prion diseases. © 2011 American Chemical Society.

Original language	English
Pages (from-to)	661-669
Journal	Journal of Medicinal Chemistry
Volume	55
DOIs	https://doi.org/10.1021/jm200840c
Publication status	Published - 26 Jan 2012

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Galdeano, C., Viayna, E., Sola, I., Formosa, X., Camps, P., Badia, A., Clos, M. V., Relat, J., Ratia, M., Bartolini, M., Mancini, F., Andrisano, V., Salmona, M., Minguillón, C., González-Muñoz, G. C., Rodríguez-Franco, M. I., Bidon-Chanal, A., Luque, F. J., & Muñoz-Torrero, D. (2012). Huprine-tacrine heterodimers as anti-amyloidogenic compounds of potential interest against Alzheimer's and prion diseases. Journal of Medicinal Chemistry, 55, 661-669. https://doi.org/10.1021/jm200840c

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title = "Huprine-tacrine heterodimers as anti-amyloidogenic compounds of potential interest against Alzheimer's and prion diseases",

abstract = "A family of huprine-tacrine heterodimers has been developed to simultaneously block the active and peripheral sites of acetylcholinesterase (AChE). Their dual site binding for AChE, supported by kinetic and molecular modeling studies, results in a highly potent inhibition of the catalytic activity of human AChE and, more importantly, in the in vitro neutralization of the pathological chaperoning effect of AChE toward the aggregation of both the β-amyloid peptide (Aβ) and a prion peptide with a key role in the aggregation of the prion protein. Huprine-tacrine heterodimers take on added value in that they display a potent in vitro inhibitory activity toward human butyrylcholinesterase, self-induced Aβ aggregation, and β-secretase. Finally, they are able to cross the blood-brain barrier, as predicted in an artificial membrane model assay and demonstrated in ex vivo experiments with OF1 mice, reaching their multiple biological targets in the central nervous system. Overall, these compounds are promising lead compounds for the treatment of Alzheimer's and prion diseases. {\textcopyright} 2011 American Chemical Society.",

author = "Carles Galdeano and Elisabet Viayna and Irene Sola and Xavier Formosa and Pelayo Camps and Albert Badia and Clos, {M. Vict{\`o}ria} and J{\'u}lia Relat and M{\'i}riam Ratia and Manuela Bartolini and Francesca Mancini and Vincenza Andrisano and Mario Salmona and Cristina Minguill{\'o}n and Gonz{\'a}lez-Mu{\~n}oz, {Gema C.} and Rodr{\'i}guez-Franco, {M. Isabel} and Axel Bidon-Chanal and Luque, {F. Javier} and Diego Mu{\~n}oz-Torrero",

year = "2012",

month = jan,

day = "26",

doi = "https://doi.org/10.1021/jm200840c",

language = "English",

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Galdeano, C, Viayna, E, Sola, I, Formosa, X, Camps, P, Badia, A, Clos, MV, Relat, J, Ratia, M, Bartolini, M, Mancini, F, Andrisano, V, Salmona, M, Minguillón, C, González-Muñoz, GC, Rodríguez-Franco, MI, Bidon-Chanal, A, Luque, FJ & Muñoz-Torrero, D 2012, 'Huprine-tacrine heterodimers as anti-amyloidogenic compounds of potential interest against Alzheimer's and prion diseases', Journal of Medicinal Chemistry, vol. 55, pp. 661-669. https://doi.org/10.1021/jm200840c

TY - JOUR

T1 - Huprine-tacrine heterodimers as anti-amyloidogenic compounds of potential interest against Alzheimer's and prion diseases

AU - Galdeano, Carles

AU - Viayna, Elisabet

AU - Sola, Irene

AU - Formosa, Xavier

AU - Camps, Pelayo

AU - Badia, Albert

AU - Clos, M. Victòria

AU - Relat, Júlia

AU - Ratia, Míriam

AU - Bartolini, Manuela

AU - Mancini, Francesca

AU - Andrisano, Vincenza

AU - Salmona, Mario

AU - Minguillón, Cristina

AU - González-Muñoz, Gema C.

AU - Rodríguez-Franco, M. Isabel

AU - Bidon-Chanal, Axel

AU - Luque, F. Javier

AU - Muñoz-Torrero, Diego

PY - 2012/1/26

Y1 - 2012/1/26

N2 - A family of huprine-tacrine heterodimers has been developed to simultaneously block the active and peripheral sites of acetylcholinesterase (AChE). Their dual site binding for AChE, supported by kinetic and molecular modeling studies, results in a highly potent inhibition of the catalytic activity of human AChE and, more importantly, in the in vitro neutralization of the pathological chaperoning effect of AChE toward the aggregation of both the β-amyloid peptide (Aβ) and a prion peptide with a key role in the aggregation of the prion protein. Huprine-tacrine heterodimers take on added value in that they display a potent in vitro inhibitory activity toward human butyrylcholinesterase, self-induced Aβ aggregation, and β-secretase. Finally, they are able to cross the blood-brain barrier, as predicted in an artificial membrane model assay and demonstrated in ex vivo experiments with OF1 mice, reaching their multiple biological targets in the central nervous system. Overall, these compounds are promising lead compounds for the treatment of Alzheimer's and prion diseases. © 2011 American Chemical Society.

AB - A family of huprine-tacrine heterodimers has been developed to simultaneously block the active and peripheral sites of acetylcholinesterase (AChE). Their dual site binding for AChE, supported by kinetic and molecular modeling studies, results in a highly potent inhibition of the catalytic activity of human AChE and, more importantly, in the in vitro neutralization of the pathological chaperoning effect of AChE toward the aggregation of both the β-amyloid peptide (Aβ) and a prion peptide with a key role in the aggregation of the prion protein. Huprine-tacrine heterodimers take on added value in that they display a potent in vitro inhibitory activity toward human butyrylcholinesterase, self-induced Aβ aggregation, and β-secretase. Finally, they are able to cross the blood-brain barrier, as predicted in an artificial membrane model assay and demonstrated in ex vivo experiments with OF1 mice, reaching their multiple biological targets in the central nervous system. Overall, these compounds are promising lead compounds for the treatment of Alzheimer's and prion diseases. © 2011 American Chemical Society.

U2 - https://doi.org/10.1021/jm200840c

DO - https://doi.org/10.1021/jm200840c

M3 - Article

VL - 55

SP - 661

EP - 669

ER -

Huprine-tacrine heterodimers as anti-amyloidogenic compounds of potential interest against Alzheimer's and prion diseases

Abstract

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