A multifactorial model of pathology for age of onset heterogeneity in familial Alzheimer’s disease

Diego Sepulveda-Falla; Lucia Chavez-Gutierrez; Erik Portelius; Jorge I. Vélez; Simon Dujardin; Alvaro Barrera-Ocampo; Felix Dinkel; Christian Hagel; Berta Puig; Claudio Mastronardi; Francisco Lopera; Bradley T. Hyman; Kaj Blennow; Mauricio Arcos-Burgos; Bart de Strooper; Markus Glatzel

doi:10.1007/s00401-020-02249-0

A multifactorial model of pathology for age of onset heterogeneity in familial Alzheimer’s disease

Diego Sepulveda-Falla^*, Lucia Chavez-Gutierrez, Erik Portelius, Jorge I. Vélez, Simon Dujardin, Alvaro Barrera-Ocampo, Felix Dinkel, Christian Hagel, Berta Puig, Claudio Mastronardi, Francisco Lopera, Bradley T. Hyman, Kaj Blennow, Mauricio Arcos-Burgos, Bart de Strooper, Markus Glatzel^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

39 Citations (Scopus)

Abstract

Presenilin-1 (PSEN1) mutations cause familial Alzheimer’s disease (FAD) characterized by early age of onset (AoO). Examination of a large kindred harboring the PSEN1-E280A mutation reveals a range of AoO spanning 30 years. The pathophysiological drivers and clinical impact of AoO variation in this population are unknown. We examined brains of 23 patients focusing on generation and deposition of beta-amyloid (Aβ) and Tau pathology profile. In 14 patients distributed at the extremes of AoO, we performed whole-exome capture to identify genotype–phenotype correlations. We also studied kinome activity, proteasome activity, and protein polyubiquitination in brain tissue, associating it with Tau phosphorylation profiles. PSEN1-E280A patients showed a bimodal distribution for AoO. Besides AoO, there were no clinical differences between analyzed groups. Despite the effect of mutant PSEN1 on production of Aβ, there were no relevant differences between groups in generation and deposition of Aβ. However, differences were found in hyperphosphorylated Tau (pTau) pathology, where early onset patients showed severe pathology with diffuse aggregation pattern associated with increased activation of stress kinases. In contrast, late-onset patients showed lesser pTau pathology and a distinctive kinase activity. Furthermore, we identified new protective genetic variants affecting ubiquitin–proteasome function in early onset patients, resulting in higher ubiquitin-dependent degradation of differentially phosphorylated Tau. In PSEN1-E280A carriers, altered γ-secretase activity and resulting Aβ accumulation are prerequisites for early AoO. However, Tau hyperphosphorylation pattern, and its degradation by the proteasome, drastically influences disease onset in individuals with otherwise similar Aβ pathology, hinting toward a multifactorial model of disease for FAD. In sporadic AD (SAD), a wide range of heterogeneity, also influenced by Tau pathology, has been identified. Thus, Tau-induced heterogeneity is a common feature in both AD variants, suggesting that a multi-target therapeutic approach should be used to treat AD.

Original language	English
Pages (from-to)	217-233
Number of pages	17
Journal	Acta Neuropathologica
Volume	141
Issue number	2
DOIs	https://doi.org/10.1007/s00401-020-02249-0
Publication status	Published - Feb 2021

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Sepulveda-Falla, D., Chavez-Gutierrez, L., Portelius, E., Vélez, J. I., Dujardin, S., Barrera-Ocampo, A., Dinkel, F., Hagel, C., Puig, B., Mastronardi, C., Lopera, F., Hyman, B. T., Blennow, K., Arcos-Burgos, M., de Strooper, B., & Glatzel, M. (2021). A multifactorial model of pathology for age of onset heterogeneity in familial Alzheimer’s disease. Acta Neuropathologica, 141(2), 217-233. https://doi.org/10.1007/s00401-020-02249-0

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title = "A multifactorial model of pathology for age of onset heterogeneity in familial Alzheimer{\textquoteright}s disease",

abstract = "Presenilin-1 (PSEN1) mutations cause familial Alzheimer{\textquoteright}s disease (FAD) characterized by early age of onset (AoO). Examination of a large kindred harboring the PSEN1-E280A mutation reveals a range of AoO spanning 30 years. The pathophysiological drivers and clinical impact of AoO variation in this population are unknown. We examined brains of 23 patients focusing on generation and deposition of beta-amyloid (Aβ) and Tau pathology profile. In 14 patients distributed at the extremes of AoO, we performed whole-exome capture to identify genotype–phenotype correlations. We also studied kinome activity, proteasome activity, and protein polyubiquitination in brain tissue, associating it with Tau phosphorylation profiles. PSEN1-E280A patients showed a bimodal distribution for AoO. Besides AoO, there were no clinical differences between analyzed groups. Despite the effect of mutant PSEN1 on production of Aβ, there were no relevant differences between groups in generation and deposition of Aβ. However, differences were found in hyperphosphorylated Tau (pTau) pathology, where early onset patients showed severe pathology with diffuse aggregation pattern associated with increased activation of stress kinases. In contrast, late-onset patients showed lesser pTau pathology and a distinctive kinase activity. Furthermore, we identified new protective genetic variants affecting ubiquitin–proteasome function in early onset patients, resulting in higher ubiquitin-dependent degradation of differentially phosphorylated Tau. In PSEN1-E280A carriers, altered γ-secretase activity and resulting Aβ accumulation are prerequisites for early AoO. However, Tau hyperphosphorylation pattern, and its degradation by the proteasome, drastically influences disease onset in individuals with otherwise similar Aβ pathology, hinting toward a multifactorial model of disease for FAD. In sporadic AD (SAD), a wide range of heterogeneity, also influenced by Tau pathology, has been identified. Thus, Tau-induced heterogeneity is a common feature in both AD variants, suggesting that a multi-target therapeutic approach should be used to treat AD.",

author = "Diego Sepulveda-Falla and Lucia Chavez-Gutierrez and Erik Portelius and V{\'e}lez, {Jorge I.} and Simon Dujardin and Alvaro Barrera-Ocampo and Felix Dinkel and Christian Hagel and Berta Puig and Claudio Mastronardi and Francisco Lopera and Hyman, {Bradley T.} and Kaj Blennow and Mauricio Arcos-Burgos and {de Strooper}, Bart and Markus Glatzel",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s).",

year = "2021",

month = feb,

doi = "10.1007/s00401-020-02249-0",

language = "English",

volume = "141",

pages = "217--233",

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Sepulveda-Falla, D, Chavez-Gutierrez, L, Portelius, E, Vélez, JI, Dujardin, S, Barrera-Ocampo, A, Dinkel, F, Hagel, C, Puig, B, Mastronardi, C, Lopera, F, Hyman, BT, Blennow, K, Arcos-Burgos, M, de Strooper, B & Glatzel, M 2021, 'A multifactorial model of pathology for age of onset heterogeneity in familial Alzheimer’s disease', Acta Neuropathologica, vol. 141, no. 2, pp. 217-233. https://doi.org/10.1007/s00401-020-02249-0

TY - JOUR

T1 - A multifactorial model of pathology for age of onset heterogeneity in familial Alzheimer’s disease

AU - Sepulveda-Falla, Diego

AU - Chavez-Gutierrez, Lucia

AU - Portelius, Erik

AU - Vélez, Jorge I.

AU - Dujardin, Simon

AU - Barrera-Ocampo, Alvaro

AU - Dinkel, Felix

AU - Hagel, Christian

AU - Puig, Berta

AU - Mastronardi, Claudio

AU - Lopera, Francisco

AU - Hyman, Bradley T.

AU - Blennow, Kaj

AU - Arcos-Burgos, Mauricio

AU - de Strooper, Bart

AU - Glatzel, Markus

PY - 2021/2

Y1 - 2021/2

N2 - Presenilin-1 (PSEN1) mutations cause familial Alzheimer’s disease (FAD) characterized by early age of onset (AoO). Examination of a large kindred harboring the PSEN1-E280A mutation reveals a range of AoO spanning 30 years. The pathophysiological drivers and clinical impact of AoO variation in this population are unknown. We examined brains of 23 patients focusing on generation and deposition of beta-amyloid (Aβ) and Tau pathology profile. In 14 patients distributed at the extremes of AoO, we performed whole-exome capture to identify genotype–phenotype correlations. We also studied kinome activity, proteasome activity, and protein polyubiquitination in brain tissue, associating it with Tau phosphorylation profiles. PSEN1-E280A patients showed a bimodal distribution for AoO. Besides AoO, there were no clinical differences between analyzed groups. Despite the effect of mutant PSEN1 on production of Aβ, there were no relevant differences between groups in generation and deposition of Aβ. However, differences were found in hyperphosphorylated Tau (pTau) pathology, where early onset patients showed severe pathology with diffuse aggregation pattern associated with increased activation of stress kinases. In contrast, late-onset patients showed lesser pTau pathology and a distinctive kinase activity. Furthermore, we identified new protective genetic variants affecting ubiquitin–proteasome function in early onset patients, resulting in higher ubiquitin-dependent degradation of differentially phosphorylated Tau. In PSEN1-E280A carriers, altered γ-secretase activity and resulting Aβ accumulation are prerequisites for early AoO. However, Tau hyperphosphorylation pattern, and its degradation by the proteasome, drastically influences disease onset in individuals with otherwise similar Aβ pathology, hinting toward a multifactorial model of disease for FAD. In sporadic AD (SAD), a wide range of heterogeneity, also influenced by Tau pathology, has been identified. Thus, Tau-induced heterogeneity is a common feature in both AD variants, suggesting that a multi-target therapeutic approach should be used to treat AD.

AB - Presenilin-1 (PSEN1) mutations cause familial Alzheimer’s disease (FAD) characterized by early age of onset (AoO). Examination of a large kindred harboring the PSEN1-E280A mutation reveals a range of AoO spanning 30 years. The pathophysiological drivers and clinical impact of AoO variation in this population are unknown. We examined brains of 23 patients focusing on generation and deposition of beta-amyloid (Aβ) and Tau pathology profile. In 14 patients distributed at the extremes of AoO, we performed whole-exome capture to identify genotype–phenotype correlations. We also studied kinome activity, proteasome activity, and protein polyubiquitination in brain tissue, associating it with Tau phosphorylation profiles. PSEN1-E280A patients showed a bimodal distribution for AoO. Besides AoO, there were no clinical differences between analyzed groups. Despite the effect of mutant PSEN1 on production of Aβ, there were no relevant differences between groups in generation and deposition of Aβ. However, differences were found in hyperphosphorylated Tau (pTau) pathology, where early onset patients showed severe pathology with diffuse aggregation pattern associated with increased activation of stress kinases. In contrast, late-onset patients showed lesser pTau pathology and a distinctive kinase activity. Furthermore, we identified new protective genetic variants affecting ubiquitin–proteasome function in early onset patients, resulting in higher ubiquitin-dependent degradation of differentially phosphorylated Tau. In PSEN1-E280A carriers, altered γ-secretase activity and resulting Aβ accumulation are prerequisites for early AoO. However, Tau hyperphosphorylation pattern, and its degradation by the proteasome, drastically influences disease onset in individuals with otherwise similar Aβ pathology, hinting toward a multifactorial model of disease for FAD. In sporadic AD (SAD), a wide range of heterogeneity, also influenced by Tau pathology, has been identified. Thus, Tau-induced heterogeneity is a common feature in both AD variants, suggesting that a multi-target therapeutic approach should be used to treat AD.

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U2 - 10.1007/s00401-020-02249-0

DO - 10.1007/s00401-020-02249-0

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JO - Acta Neuropathologica

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ER -

A multifactorial model of pathology for age of onset heterogeneity in familial Alzheimer’s disease

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