AD-causing variants that affect PSEN1 transmembrane domains are associated with faster neurodegeneration and cognitive decline compared to those affecting cytoplasmic domains.

Stephanie A. Schultz; Ricardo Francisco Allegri; Aaron P. Schultz; Alison Goate; Allan I. Levey; Anne M. Fagan; Bernard J. Hanseeuw; Robert A. Koeppe; Brian A. Gordon; Carlos Cruchaga; Celeste M. Karch; Charles D. Chen; Chengjie Xiong; Clifford R. Jack; Colleen D. Fitzpatrick; Eric McDade; Helena C. Chui; Hiroshi Mori; Jae Hong Lee; James M. Noble; Jason J. Hassenstab; Johannes Levin; John C. Morris; Keith A. Johnson; Lei Liu; Martin R. Farlow; Mathias Jucker; Michelle E. Farrell; Neill R. Graff-Radford; Nelly Joseph-Mathurin; Nick C. Fox; Peter R. Schofield; Ralph N. Martins; Raquel Sanchez-Valle; Richard J. Perrin; Sarah Berman; Stephen P. Salloway; Zahra Shirzadi; Pedro Rosa-Neto; Tammie L.S. Benzinger; Randall J. Bateman; Reisa A. Sperling; Jasmeer P. Chhatwal

doi:10.1002/alz.068221

AD-causing variants that affect PSEN1 transmembrane domains are associated with faster neurodegeneration and cognitive decline compared to those affecting cytoplasmic domains.

Stephanie A. Schultz, Ricardo Francisco Allegri, Aaron P. Schultz, Alison Goate, Allan I. Levey, Anne M. Fagan, Bernard J. Hanseeuw, Robert A. Koeppe, Brian A. Gordon, Carlos Cruchaga, Celeste M. Karch, Charles D. Chen, Chengjie Xiong, Clifford R. Jack, Colleen D. Fitzpatrick, Eric McDade, Helena C. Chui, Hiroshi Mori, Jae Hong Lee, James M. NobleJason J. Hassenstab, Johannes Levin, John C. Morris, Keith A. Johnson, Lei Liu, Martin R. Farlow, Mathias Jucker, Michelle E. Farrell, Neill R. Graff-Radford, Nelly Joseph-Mathurin, Nick C. Fox, Peter R. Schofield, Ralph N. Martins, Raquel Sanchez-Valle, Richard J. Perrin, Sarah Berman, Stephen P. Salloway, Zahra Shirzadi, Pedro Rosa-Neto, Tammie L.S. Benzinger, Randall J. Bateman, Reisa A. Sperling, Jasmeer P. Chhatwal

Research output: Contribution to journal › Comment/debate › peer-review

Abstract

Background: Rates of cognitive and biomarker change in Autosomal Dominant Alzheimer disease (ADAD) vary substantially across individuals. Prior cross-sectional work suggests that the location of the pathogenic variant within PSEN1, specifically whether the underlying variant affects transmembrane (TM) or cytoplasmic (CY) domains in PSEN1, may be a key determinant in these differential rates of progression. Here we use longitudinal data from the Dominantly Inherited Alzheimer Network observational study (DIAN-Obs) to examine whether variants affecting TM versus CY domains in PSEN1 have differential rates of change in key cognitive and neurodegenerative markers, and whether these differences are relevant to ADAD clinical trials. Methods: Using longitudinal clinical, cognitive, and MRI data from PSEN1 pathogenic variant carriers [TM group N=76 and CY group N=44; Table 1], we assessed rates of change in Mini-Mental State Exam (MMSE), Clinical Dementia Rating^® Sum of Boxes (CDR^®-SOB), and hippocampal volume (HV) using linear mixed effects models accounting for disease stage (estimated years to symptom onset [EYO]). We further assessed how PSEN1 mutation location (TM versus CY) impacts sample size and detectable effect size in a potential ADAD clinical trial (modeled as a 4-year trial with annual assessments; 80% power; α = 0.05). Results: PSEN1 TM and PSEN1 CY groups did not differ on baseline age, EYO, or CDR^®. The PSEN1 TM group had significantly greater rates of change on MMSE (B[SE] = -0.42[0.1], p=0.002), CDR^®-SOB (B[SE] = 0.23[0.1], p=0.001), and HV atrophy (B[SE] = -58.93[14.3], p=0.0006 compared to the PSEN1 CY group (Fig.1). Consistent with these differential rates of change, power analyses indicated the required sample size to detect a 30% treatment effect on MMSE or HV would be reduced by 59.6% for MMSE and 91.0% for HV for a trial population comprised of PSEN1 TM versus CY carriers (Fig.2). Conclusions: Individuals who had a variant affecting the transmembrane domains of PSEN1 had greater rates of cognitive decline and neurodegeneration compared to those with variants affecting cytoplasmic domains. In addition to having implications for ADAD pathophysiology, these results suggest that incorporating information regarding the location of PSEN1 variants may be beneficial in analyzing and designing stratification approaches for ADAD trials.

Original language	English (US)
Article number	e068221
Journal	Alzheimer's and Dementia
Volume	18
Issue number	S1
DOIs	https://doi.org/10.1002/alz.068221
State	Published - Dec 2022

ASJC Scopus subject areas

Epidemiology
Health Policy
Developmental Neuroscience
Clinical Neurology
Geriatrics and Gerontology
Cellular and Molecular Neuroscience
Psychiatry and Mental health

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10.1002/alz.068221

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Schultz, S. A., Allegri, R. F., Schultz, A. P., Goate, A., Levey, A. I., Fagan, A. M., Hanseeuw, B. J., Koeppe, R. A., Gordon, B. A., Cruchaga, C., Karch, C. M., Chen, C. D., Xiong, C., Jack, C. R., Fitzpatrick, C. D., McDade, E., Chui, H. C., Mori, H., Lee, J. H., ... Chhatwal, J. P. (2022). AD-causing variants that affect PSEN1 transmembrane domains are associated with faster neurodegeneration and cognitive decline compared to those affecting cytoplasmic domains. Alzheimer's and Dementia, 18(S1), Article e068221. https://doi.org/10.1002/alz.068221

AD-causing variants that affect PSEN1 transmembrane domains are associated with faster neurodegeneration and cognitive decline compared to those affecting cytoplasmic domains. / Schultz, Stephanie A.; Allegri, Ricardo Francisco; Schultz, Aaron P. et al.
In: Alzheimer's and Dementia, Vol. 18, No. S1, e068221, 12.2022.

Research output: Contribution to journal › Comment/debate › peer-review

Schultz, SA, Allegri, RF, Schultz, AP, Goate, A, Levey, AI, Fagan, AM, Hanseeuw, BJ, Koeppe, RA, Gordon, BA, Cruchaga, C, Karch, CM, Chen, CD, Xiong, C, Jack, CR, Fitzpatrick, CD, McDade, E, Chui, HC, Mori, H, Lee, JH, Noble, JM, Hassenstab, JJ, Levin, J, Morris, JC, Johnson, KA, Liu, L, Farlow, MR, Jucker, M, Farrell, ME, Graff-Radford, NR, Joseph-Mathurin, N, Fox, NC, Schofield, PR, Martins, RN, Sanchez-Valle, R, Perrin, RJ, Berman, S, Salloway, SP, Shirzadi, Z, Rosa-Neto, P, Benzinger, TLS, Bateman, RJ, Sperling, RA & Chhatwal, JP 2022, 'AD-causing variants that affect PSEN1 transmembrane domains are associated with faster neurodegeneration and cognitive decline compared to those affecting cytoplasmic domains.', Alzheimer's and Dementia, vol. 18, no. S1, e068221. https://doi.org/10.1002/alz.068221

@article{13a45c84227a4c6e908c73e69d1a945c,

title = "AD-causing variants that affect PSEN1 transmembrane domains are associated with faster neurodegeneration and cognitive decline compared to those affecting cytoplasmic domains.",

abstract = "Background: Rates of cognitive and biomarker change in Autosomal Dominant Alzheimer disease (ADAD) vary substantially across individuals. Prior cross-sectional work suggests that the location of the pathogenic variant within PSEN1, specifically whether the underlying variant affects transmembrane (TM) or cytoplasmic (CY) domains in PSEN1, may be a key determinant in these differential rates of progression. Here we use longitudinal data from the Dominantly Inherited Alzheimer Network observational study (DIAN-Obs) to examine whether variants affecting TM versus CY domains in PSEN1 have differential rates of change in key cognitive and neurodegenerative markers, and whether these differences are relevant to ADAD clinical trials. Methods: Using longitudinal clinical, cognitive, and MRI data from PSEN1 pathogenic variant carriers [TM group N=76 and CY group N=44; Table 1], we assessed rates of change in Mini-Mental State Exam (MMSE), Clinical Dementia Rating{\textregistered} Sum of Boxes (CDR{\textregistered}-SOB), and hippocampal volume (HV) using linear mixed effects models accounting for disease stage (estimated years to symptom onset [EYO]). We further assessed how PSEN1 mutation location (TM versus CY) impacts sample size and detectable effect size in a potential ADAD clinical trial (modeled as a 4-year trial with annual assessments; 80% power; α = 0.05). Results: PSEN1 TM and PSEN1 CY groups did not differ on baseline age, EYO, or CDR{\textregistered}. The PSEN1 TM group had significantly greater rates of change on MMSE (B[SE] = -0.42[0.1], p=0.002), CDR{\textregistered}-SOB (B[SE] = 0.23[0.1], p=0.001), and HV atrophy (B[SE] = -58.93[14.3], p=0.0006 compared to the PSEN1 CY group (Fig.1). Consistent with these differential rates of change, power analyses indicated the required sample size to detect a 30% treatment effect on MMSE or HV would be reduced by 59.6% for MMSE and 91.0% for HV for a trial population comprised of PSEN1 TM versus CY carriers (Fig.2). Conclusions: Individuals who had a variant affecting the transmembrane domains of PSEN1 had greater rates of cognitive decline and neurodegeneration compared to those with variants affecting cytoplasmic domains. In addition to having implications for ADAD pathophysiology, these results suggest that incorporating information regarding the location of PSEN1 variants may be beneficial in analyzing and designing stratification approaches for ADAD trials.",

author = "Schultz, {Stephanie A.} and Allegri, {Ricardo Francisco} and Schultz, {Aaron P.} and Alison Goate and Levey, {Allan I.} and Fagan, {Anne M.} and Hanseeuw, {Bernard J.} and Koeppe, {Robert A.} and Gordon, {Brian A.} and Carlos Cruchaga and Karch, {Celeste M.} and Chen, {Charles D.} and Chengjie Xiong and Jack, {Clifford R.} and Fitzpatrick, {Colleen D.} and Eric McDade and Chui, {Helena C.} and Hiroshi Mori and Lee, {Jae Hong} and Noble, {James M.} and Hassenstab, {Jason J.} and Johannes Levin and Morris, {John C.} and Johnson, {Keith A.} and Lei Liu and Farlow, {Martin R.} and Mathias Jucker and Farrell, {Michelle E.} and Graff-Radford, {Neill R.} and Nelly Joseph-Mathurin and Fox, {Nick C.} and Schofield, {Peter R.} and Martins, {Ralph N.} and Raquel Sanchez-Valle and Perrin, {Richard J.} and Sarah Berman and Salloway, {Stephen P.} and Zahra Shirzadi and Pedro Rosa-Neto and Benzinger, {Tammie L.S.} and Bateman, {Randall J.} and Sperling, {Reisa A.} and Chhatwal, {Jasmeer P.}",

note = "Publisher Copyright: {\textcopyright} 2022 the Alzheimer's Association.",

year = "2022",

month = dec,

doi = "10.1002/alz.068221",

language = "English (US)",

volume = "18",

journal = "Alzheimer's and Dementia",

issn = "1552-5260",

publisher = "Elsevier Inc.",

number = "S1",

}

TY - JOUR

T1 - AD-causing variants that affect PSEN1 transmembrane domains are associated with faster neurodegeneration and cognitive decline compared to those affecting cytoplasmic domains.

AU - Schultz, Stephanie A.

AU - Allegri, Ricardo Francisco

AU - Schultz, Aaron P.

AU - Goate, Alison

AU - Levey, Allan I.

AU - Fagan, Anne M.

AU - Hanseeuw, Bernard J.

AU - Koeppe, Robert A.

AU - Gordon, Brian A.

AU - Cruchaga, Carlos

AU - Karch, Celeste M.

AU - Chen, Charles D.

AU - Xiong, Chengjie

AU - Jack, Clifford R.

AU - Fitzpatrick, Colleen D.

AU - McDade, Eric

AU - Chui, Helena C.

AU - Mori, Hiroshi

AU - Lee, Jae Hong

AU - Noble, James M.

AU - Hassenstab, Jason J.

AU - Levin, Johannes

AU - Morris, John C.

AU - Johnson, Keith A.

AU - Liu, Lei

AU - Farlow, Martin R.

AU - Jucker, Mathias

AU - Farrell, Michelle E.

AU - Graff-Radford, Neill R.

AU - Joseph-Mathurin, Nelly

AU - Fox, Nick C.

AU - Schofield, Peter R.

AU - Martins, Ralph N.

AU - Sanchez-Valle, Raquel

AU - Perrin, Richard J.

AU - Berman, Sarah

AU - Salloway, Stephen P.

AU - Shirzadi, Zahra

AU - Rosa-Neto, Pedro

AU - Benzinger, Tammie L.S.

AU - Bateman, Randall J.

AU - Sperling, Reisa A.

AU - Chhatwal, Jasmeer P.

PY - 2022/12

Y1 - 2022/12

N2 - Background: Rates of cognitive and biomarker change in Autosomal Dominant Alzheimer disease (ADAD) vary substantially across individuals. Prior cross-sectional work suggests that the location of the pathogenic variant within PSEN1, specifically whether the underlying variant affects transmembrane (TM) or cytoplasmic (CY) domains in PSEN1, may be a key determinant in these differential rates of progression. Here we use longitudinal data from the Dominantly Inherited Alzheimer Network observational study (DIAN-Obs) to examine whether variants affecting TM versus CY domains in PSEN1 have differential rates of change in key cognitive and neurodegenerative markers, and whether these differences are relevant to ADAD clinical trials. Methods: Using longitudinal clinical, cognitive, and MRI data from PSEN1 pathogenic variant carriers [TM group N=76 and CY group N=44; Table 1], we assessed rates of change in Mini-Mental State Exam (MMSE), Clinical Dementia Rating® Sum of Boxes (CDR®-SOB), and hippocampal volume (HV) using linear mixed effects models accounting for disease stage (estimated years to symptom onset [EYO]). We further assessed how PSEN1 mutation location (TM versus CY) impacts sample size and detectable effect size in a potential ADAD clinical trial (modeled as a 4-year trial with annual assessments; 80% power; α = 0.05). Results: PSEN1 TM and PSEN1 CY groups did not differ on baseline age, EYO, or CDR®. The PSEN1 TM group had significantly greater rates of change on MMSE (B[SE] = -0.42[0.1], p=0.002), CDR®-SOB (B[SE] = 0.23[0.1], p=0.001), and HV atrophy (B[SE] = -58.93[14.3], p=0.0006 compared to the PSEN1 CY group (Fig.1). Consistent with these differential rates of change, power analyses indicated the required sample size to detect a 30% treatment effect on MMSE or HV would be reduced by 59.6% for MMSE and 91.0% for HV for a trial population comprised of PSEN1 TM versus CY carriers (Fig.2). Conclusions: Individuals who had a variant affecting the transmembrane domains of PSEN1 had greater rates of cognitive decline and neurodegeneration compared to those with variants affecting cytoplasmic domains. In addition to having implications for ADAD pathophysiology, these results suggest that incorporating information regarding the location of PSEN1 variants may be beneficial in analyzing and designing stratification approaches for ADAD trials.

AB - Background: Rates of cognitive and biomarker change in Autosomal Dominant Alzheimer disease (ADAD) vary substantially across individuals. Prior cross-sectional work suggests that the location of the pathogenic variant within PSEN1, specifically whether the underlying variant affects transmembrane (TM) or cytoplasmic (CY) domains in PSEN1, may be a key determinant in these differential rates of progression. Here we use longitudinal data from the Dominantly Inherited Alzheimer Network observational study (DIAN-Obs) to examine whether variants affecting TM versus CY domains in PSEN1 have differential rates of change in key cognitive and neurodegenerative markers, and whether these differences are relevant to ADAD clinical trials. Methods: Using longitudinal clinical, cognitive, and MRI data from PSEN1 pathogenic variant carriers [TM group N=76 and CY group N=44; Table 1], we assessed rates of change in Mini-Mental State Exam (MMSE), Clinical Dementia Rating® Sum of Boxes (CDR®-SOB), and hippocampal volume (HV) using linear mixed effects models accounting for disease stage (estimated years to symptom onset [EYO]). We further assessed how PSEN1 mutation location (TM versus CY) impacts sample size and detectable effect size in a potential ADAD clinical trial (modeled as a 4-year trial with annual assessments; 80% power; α = 0.05). Results: PSEN1 TM and PSEN1 CY groups did not differ on baseline age, EYO, or CDR®. The PSEN1 TM group had significantly greater rates of change on MMSE (B[SE] = -0.42[0.1], p=0.002), CDR®-SOB (B[SE] = 0.23[0.1], p=0.001), and HV atrophy (B[SE] = -58.93[14.3], p=0.0006 compared to the PSEN1 CY group (Fig.1). Consistent with these differential rates of change, power analyses indicated the required sample size to detect a 30% treatment effect on MMSE or HV would be reduced by 59.6% for MMSE and 91.0% for HV for a trial population comprised of PSEN1 TM versus CY carriers (Fig.2). Conclusions: Individuals who had a variant affecting the transmembrane domains of PSEN1 had greater rates of cognitive decline and neurodegeneration compared to those with variants affecting cytoplasmic domains. In addition to having implications for ADAD pathophysiology, these results suggest that incorporating information regarding the location of PSEN1 variants may be beneficial in analyzing and designing stratification approaches for ADAD trials.

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UR - http://www.scopus.com/inward/citedby.url?scp=85144467612&partnerID=8YFLogxK

U2 - 10.1002/alz.068221

DO - 10.1002/alz.068221

M3 - Comment/debate

AN - SCOPUS:85144467612

SN - 1552-5260

VL - 18

JO - Alzheimer's and Dementia

JF - Alzheimer's and Dementia

IS - S1

M1 - e068221

ER -

AD-causing variants that affect PSEN1 transmembrane domains are associated with faster neurodegeneration and cognitive decline compared to those affecting cytoplasmic domains.

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