Blood-based protein predictors of dementia severity as measured by δ: Replication across biofluids and cohorts

Donald R. Royall; Ram J. Bishnoi; Raymond F. Palmer; Valory Pavlik; Paul Massman; Eveleen Darby; Monica Rodriguear; Aisha Khaleeq Ansari; John C. DeToledo; Hemachandra Reddy; Henrick Wilms; Kim Johnson; Victoria Perez; Thomas Fairchild; Janice Knebl; Sid E. O'Bryant; James R. Hall; Leigh Johnson; Robert C. Barber; Douglas Mains; Lisa Alvarez; Munro Cullum; Roger Rosenberg; Benjamin Williams; Mary Quiceno; Joan Reisch; Linda S. Hynan; Ryan Huebinger; Janet Smith; Trung Nguyen; Donald Royall; Raymond Palmer; Marsha Polk; Alan Stevens; Marcia Ory; David Paydarfar; John Bertelson; Martin Woon; Gayle Ayres; Alyssa Aguirre; Kirk C. Wilhelmsen; Jeffrey L. Tilson

doi:10.1016/j.dadm.2019.09.002

Blood-based protein predictors of dementia severity as measured by δ: Replication across biofluids and cohorts

Donald R. Royall, Ram J. Bishnoi, Raymond F. Palmer, Valory Pavlik, Paul Massman, Eveleen Darby, Monica Rodriguear, Aisha Khaleeq Ansari, John C. DeToledo, Hemachandra Reddy, Henrick Wilms, Kim Johnson, Victoria Perez, Thomas Fairchild, Janice Knebl, Sid E. O'Bryant, James R. Hall, Leigh Johnson, Robert C. Barber, Douglas MainsLisa Alvarez, Munro Cullum, Roger Rosenberg, Benjamin Williams, Mary Quiceno, Joan Reisch, Linda S. Hynan, Ryan Huebinger, Janet Smith, Trung Nguyen, Donald Royall, Raymond Palmer, Marsha Polk, Alan Stevens, Marcia Ory, David Paydarfar, John Bertelson, Martin Woon, Gayle Ayres, Alyssa Aguirre, Kirk C. Wilhelmsen, Jeffrey L. Tilson

Psy and Hlth Beh-GDBH and DD

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

4 Scopus citations

Abstract

Introduction: Dementia severity can be empirically described by the latent dementia phenotype “δ” and its various composite “homologs”. We have explored δ's blood-based protein biomarkers in the Texas Alzheimer's Research and Care Consortium (TARCC) study. However, it would be convenient to replicate those associations in the Alzheimer's Disease Neuroimaging Initiative (ADNI). To this end, we recently engineered a δ homolog from observed cognitive performance measures common to both projects (i.e., “dT2A”). Methods: We used nine rationally chosen peripheral blood-based protein biomarkers as indicators of a latent variable “INFLAMMATION”. We then associated that construct with dT2A in structural equation models adjusted for age, gender, depressive symptoms, and apolipoprotein E (APOE) ε4 allelic burden. Significant factor loadings and INFLAMMATION's association with dT2A were confirmed in random splits of TARCC's relatively large sample, and across biofluids in the ADNI. Results: Nine proteins measured in serum (TARCC) or plasma (ADNI) explained ≅10% of dT2A's variance in both samples, independently of age, APOE, education, and gender. All loaded significantly on INFLAMMATION, and positively or negatively, depending on their known roles are PRO- or ANTI-inflammatory proteins, respectively. The parameters of interest were confirmed across random 50% splits of the TARCC's sample, and replicated across biofluids in the ADNI. Discussion: These results suggest that SEM can be used to replicate biomarker findings across samples and biofluids, and that a substantial fraction of dementia's variance is attributable to peripheral blood-based protein levels.

Original language	English (US)
Pages (from-to)	763-774
Number of pages	12
Journal	Alzheimer's and Dementia: Diagnosis, Assessment and Disease Monitoring
Volume	11
DOIs	https://doi.org/10.1016/j.dadm.2019.09.002
State	Published - Dec 2019

Keywords

ADNI
Aging
Cognition
Dementia
Intelligence
TARCC
g

ASJC Scopus subject areas

Clinical Neurology
Psychiatry and Mental health

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.dadm.2019.09.002

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Royall, D. R., Bishnoi, R. J., Palmer, R. F., Pavlik, V., Massman, P., Darby, E., Rodriguear, M., Ansari, A. K., DeToledo, J. C., Reddy, H., Wilms, H., Johnson, K., Perez, V., Fairchild, T., Knebl, J., O'Bryant, S. E., Hall, J. R., Johnson, L., Barber, R. C., ... Tilson, J. L. (2019). Blood-based protein predictors of dementia severity as measured by δ: Replication across biofluids and cohorts. Alzheimer's and Dementia: Diagnosis, Assessment and Disease Monitoring, 11, 763-774. https://doi.org/10.1016/j.dadm.2019.09.002

Royall, DR, Bishnoi, RJ, Palmer, RF, Pavlik, V, Massman, P, Darby, E, Rodriguear, M, Ansari, AK, DeToledo, JC, Reddy, H, Wilms, H, Johnson, K, Perez, V, Fairchild, T, Knebl, J, O'Bryant, SE, Hall, JR, Johnson, L, Barber, RC, Mains, D, Alvarez, L, Cullum, M, Rosenberg, R, Williams, B, Quiceno, M, Reisch, J, Hynan, LS, Huebinger, R, Smith, J, Nguyen, T, Royall, D, Palmer, R, Polk, M, Stevens, A, Ory, M, Paydarfar, D, Bertelson, J, Woon, M, Ayres, G, Aguirre, A, Wilhelmsen, KC & Tilson, JL 2019, 'Blood-based protein predictors of dementia severity as measured by δ: Replication across biofluids and cohorts', Alzheimer's and Dementia: Diagnosis, Assessment and Disease Monitoring, vol. 11, pp. 763-774. https://doi.org/10.1016/j.dadm.2019.09.002

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title = "Blood-based protein predictors of dementia severity as measured by δ: Replication across biofluids and cohorts",

abstract = "Introduction: Dementia severity can be empirically described by the latent dementia phenotype “δ” and its various composite “homologs”. We have explored δ's blood-based protein biomarkers in the Texas Alzheimer's Research and Care Consortium (TARCC) study. However, it would be convenient to replicate those associations in the Alzheimer's Disease Neuroimaging Initiative (ADNI). To this end, we recently engineered a δ homolog from observed cognitive performance measures common to both projects (i.e., “dT2A”). Methods: We used nine rationally chosen peripheral blood-based protein biomarkers as indicators of a latent variable “INFLAMMATION”. We then associated that construct with dT2A in structural equation models adjusted for age, gender, depressive symptoms, and apolipoprotein E (APOE) ε4 allelic burden. Significant factor loadings and INFLAMMATION's association with dT2A were confirmed in random splits of TARCC's relatively large sample, and across biofluids in the ADNI. Results: Nine proteins measured in serum (TARCC) or plasma (ADNI) explained ≅10% of dT2A's variance in both samples, independently of age, APOE, education, and gender. All loaded significantly on INFLAMMATION, and positively or negatively, depending on their known roles are PRO- or ANTI-inflammatory proteins, respectively. The parameters of interest were confirmed across random 50% splits of the TARCC's sample, and replicated across biofluids in the ADNI. Discussion: These results suggest that SEM can be used to replicate biomarker findings across samples and biofluids, and that a substantial fraction of dementia's variance is attributable to peripheral blood-based protein levels.",

keywords = "ADNI, Aging, Cognition, Dementia, Intelligence, TARCC, g",

author = "Royall, {Donald R.} and Bishnoi, {Ram J.} and Palmer, {Raymond F.} and Valory Pavlik and Paul Massman and Eveleen Darby and Monica Rodriguear and Ansari, {Aisha Khaleeq} and DeToledo, {John C.} and Hemachandra Reddy and Henrick Wilms and Kim Johnson and Victoria Perez and Thomas Fairchild and Janice Knebl and O'Bryant, {Sid E.} and Hall, {James R.} and Leigh Johnson and Barber, {Robert C.} and Douglas Mains and Lisa Alvarez and Munro Cullum and Roger Rosenberg and Benjamin Williams and Mary Quiceno and Joan Reisch and Hynan, {Linda S.} and Ryan Huebinger and Janet Smith and Trung Nguyen and Donald Royall and Raymond Palmer and Marsha Polk and Alan Stevens and Marcia Ory and David Paydarfar and John Bertelson and Martin Woon and Gayle Ayres and Alyssa Aguirre and Wilhelmsen, {Kirk C.} and Tilson, {Jeffrey L.}",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors",

year = "2019",

month = dec,

doi = "10.1016/j.dadm.2019.09.002",

language = "English (US)",

volume = "11",

pages = "763--774",

journal = "Alzheimer's and Dementia: Diagnosis, Assessment and Disease Monitoring",

issn = "2352-8729",

publisher = "Elsevier BV",

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TY - JOUR

T1 - Blood-based protein predictors of dementia severity as measured by δ

T2 - Replication across biofluids and cohorts

AU - Royall, Donald R.

AU - Bishnoi, Ram J.

AU - Palmer, Raymond F.

AU - Pavlik, Valory

AU - Massman, Paul

AU - Darby, Eveleen

AU - Rodriguear, Monica

AU - Ansari, Aisha Khaleeq

AU - DeToledo, John C.

AU - Reddy, Hemachandra

AU - Wilms, Henrick

AU - Johnson, Kim

AU - Perez, Victoria

AU - Fairchild, Thomas

AU - Knebl, Janice

AU - O'Bryant, Sid E.

AU - Hall, James R.

AU - Johnson, Leigh

AU - Barber, Robert C.

AU - Mains, Douglas

AU - Alvarez, Lisa

AU - Cullum, Munro

AU - Rosenberg, Roger

AU - Williams, Benjamin

AU - Quiceno, Mary

AU - Reisch, Joan

AU - Hynan, Linda S.

AU - Huebinger, Ryan

AU - Smith, Janet

AU - Nguyen, Trung

AU - Royall, Donald

AU - Palmer, Raymond

AU - Polk, Marsha

AU - Stevens, Alan

AU - Ory, Marcia

AU - Paydarfar, David

AU - Bertelson, John

AU - Woon, Martin

AU - Ayres, Gayle

AU - Aguirre, Alyssa

AU - Wilhelmsen, Kirk C.

AU - Tilson, Jeffrey L.

PY - 2019/12

Y1 - 2019/12

N2 - Introduction: Dementia severity can be empirically described by the latent dementia phenotype “δ” and its various composite “homologs”. We have explored δ's blood-based protein biomarkers in the Texas Alzheimer's Research and Care Consortium (TARCC) study. However, it would be convenient to replicate those associations in the Alzheimer's Disease Neuroimaging Initiative (ADNI). To this end, we recently engineered a δ homolog from observed cognitive performance measures common to both projects (i.e., “dT2A”). Methods: We used nine rationally chosen peripheral blood-based protein biomarkers as indicators of a latent variable “INFLAMMATION”. We then associated that construct with dT2A in structural equation models adjusted for age, gender, depressive symptoms, and apolipoprotein E (APOE) ε4 allelic burden. Significant factor loadings and INFLAMMATION's association with dT2A were confirmed in random splits of TARCC's relatively large sample, and across biofluids in the ADNI. Results: Nine proteins measured in serum (TARCC) or plasma (ADNI) explained ≅10% of dT2A's variance in both samples, independently of age, APOE, education, and gender. All loaded significantly on INFLAMMATION, and positively or negatively, depending on their known roles are PRO- or ANTI-inflammatory proteins, respectively. The parameters of interest were confirmed across random 50% splits of the TARCC's sample, and replicated across biofluids in the ADNI. Discussion: These results suggest that SEM can be used to replicate biomarker findings across samples and biofluids, and that a substantial fraction of dementia's variance is attributable to peripheral blood-based protein levels.

AB - Introduction: Dementia severity can be empirically described by the latent dementia phenotype “δ” and its various composite “homologs”. We have explored δ's blood-based protein biomarkers in the Texas Alzheimer's Research and Care Consortium (TARCC) study. However, it would be convenient to replicate those associations in the Alzheimer's Disease Neuroimaging Initiative (ADNI). To this end, we recently engineered a δ homolog from observed cognitive performance measures common to both projects (i.e., “dT2A”). Methods: We used nine rationally chosen peripheral blood-based protein biomarkers as indicators of a latent variable “INFLAMMATION”. We then associated that construct with dT2A in structural equation models adjusted for age, gender, depressive symptoms, and apolipoprotein E (APOE) ε4 allelic burden. Significant factor loadings and INFLAMMATION's association with dT2A were confirmed in random splits of TARCC's relatively large sample, and across biofluids in the ADNI. Results: Nine proteins measured in serum (TARCC) or plasma (ADNI) explained ≅10% of dT2A's variance in both samples, independently of age, APOE, education, and gender. All loaded significantly on INFLAMMATION, and positively or negatively, depending on their known roles are PRO- or ANTI-inflammatory proteins, respectively. The parameters of interest were confirmed across random 50% splits of the TARCC's sample, and replicated across biofluids in the ADNI. Discussion: These results suggest that SEM can be used to replicate biomarker findings across samples and biofluids, and that a substantial fraction of dementia's variance is attributable to peripheral blood-based protein levels.

KW - ADNI

KW - Aging

KW - Cognition

KW - Dementia

KW - Intelligence

KW - TARCC

KW - g

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DO - 10.1016/j.dadm.2019.09.002

M3 - Article

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SN - 2352-8729

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JO - Alzheimer's and Dementia: Diagnosis, Assessment and Disease Monitoring

JF - Alzheimer's and Dementia: Diagnosis, Assessment and Disease Monitoring

ER -

Blood-based protein predictors of dementia severity as measured by δ: Replication across biofluids and cohorts

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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