Your search keyword '"Lee, Annie J."' showing total 23 results

1. CD33 and SHP-1/ PTPN6 Interaction in Alzheimer's Disease.

Author

Beckers, Lien, Rashid, Mamunur, Lee, Annie J., Chatila, Zena K., Tamucci, Kirstin A., Talcoff, Ryan C., Hall, Jennifer L., Bennett, David A., Vardarajan, Badri N., and Bradshaw, Elizabeth M.

Subjects

ALZHEIMER'S disease, PROTEIN-tyrosine phosphatase, MYELOID cells, PHOSPHOPROTEIN phosphatases, GENETIC variation

Abstract

Large-scale genetic studies have identified numerous genetic risk factors that suggest a central role for innate immune cells in susceptibility to Alzheimer's disease (AD). CD33, an immunomodulatory transmembrane sialic acid binding protein expressed on myeloid cells, was identified as one such genetic risk factor associated with Alzheimer's disease. Several studies explored the molecular outcomes of genetic variation at the CD33 locus. It has been determined that the risk variant associated with AD increases the expression of the large isoform of CD33 (CD33M) in innate immune cells and alters its biological functions. CD33 is thought to signal via the interaction of its ITIM motif and the protein tyrosine phosphatase, SHP-1. Here, we utilize different molecular and computational approaches to investigate how AD-associated genetic variation in CD33 affects its interaction with SHP-1 in human microglia and microglia-like cells. Our findings demonstrate a genotype-dependent interaction between CD33 and SHP-1, which may functionally contribute to the AD risk associated with this CD33 variant. We also found that CD33-PTPN6 (SHP-1) gene–gene interactions impact AD-related traits, while CD33-PTPN11 (SHP-2) interactions do not. [ABSTRACT FROM AUTHOR]

Published

2024

2. Gliovascular transcriptional perturbations in Alzheimer's disease reveal molecular mechanisms of blood brain barrier dysfunction.

Author

İş, Özkan, Wang, Xue, Reddy, Joseph S., Min, Yuhao, Yilmaz, Elanur, Bhattarai, Prabesh, Patel, Tulsi, Bergman, Jeremiah, Quicksall, Zachary, Heckman, Michael G., Tutor-New, Frederick Q., Can Demirdogen, Birsen, White, Launia, Koga, Shunsuke, Krause, Vincent, Inoue, Yasuteru, Kanekiyo, Takahisa, Cosacak, Mehmet Ilyas, Nelson, Nastasia, and Lee, Annie J.

Subjects

ALZHEIMER'S disease, BLOOD-brain barrier, DRUG target, RNA sequencing, LIGANDS (Biochemistry)

Abstract

To uncover molecular changes underlying blood-brain-barrier dysfunction in Alzheimer's disease, we performed single nucleus RNA sequencing in 24 Alzheimer's disease and control brains and focused on vascular and astrocyte clusters as main cell types of blood-brain-barrier gliovascular-unit. The majority of the vascular transcriptional changes were in pericytes. Of the vascular molecular targets predicted to interact with astrocytic ligands, SMAD3, upregulated in Alzheimer's disease pericytes, has the highest number of ligands including VEGFA, downregulated in Alzheimer's disease astrocytes. We validated these findings with external datasets comprising 4,730 pericyte and 150,664 astrocyte nuclei. Blood SMAD3 levels are associated with Alzheimer's disease-related neuroimaging outcomes. We determined inverse relationships between pericytic SMAD3 and astrocytic VEGFA in human iPSC and zebrafish models. Here, we detect vast transcriptome changes in Alzheimer's disease at the gliovascular-unit, prioritize perturbed pericytic SMAD3-astrocytic VEGFA interactions, and validate these in cross-species models to provide a molecular mechanism of blood-brain-barrier disintegrity in Alzheimer's disease. Systematic studies are needed to discover molecular determinants of blood brain barrier dysfunction in Alzheimer's disease. This study identifies perturbed pericytic SMAD3-astrocytic VEGFA interactions as a potential driver of this dysfunction. [ABSTRACT FROM AUTHOR]

Published

2024

3. ZCCHC17 Modulates Neuronal RNA Splicing and Supports Cognitive Resilience in Alzheimer's Disease.

Author

Bartosch, Anne Marie W., Youth, Elliot H. H., Hansen, Shania, Yiyang Wu, Buchanan, Heather M., Kaufman, Maria E., Xiao, Harrison, So Yeon Koo, Ashok, Archana, Sivakumar, Sharanya, Soni, Rajesh K., Dumitrescu, Logan C., Lam, Tiffany G., Ropri, Ali S., Lee, Annie J., Klein, Hans-Ulrich, Vardarajan, Badri N., Bennett, David A., Young-Pearse, Tracy L., and De Jager, Philip L.

Abstract

ZCCHC17 is a putativemaster regulator of synaptic gene dysfunction in Alzheimer's disease (AD), and ZCCHC17 protein declines early in AD brain tissue, before significant gliosis or neuronal loss. Here, we investigate the function of ZCCHC17 and its role in AD pathogenesis using data fromhuman autopsy tissue (consisting of males and females) and female human cell lines. Co-immunoprecipitation (co-IP) of ZCCHC17 followed by mass spectrometry analysis in human iPSC-derived neurons reveals that ZCCHC17's binding partners are enriched for RNA-splicing proteins. ZCCHC17 knockdown results in widespread RNA-splicing changes that significantly overlap with splicing changes found in AD brain tissue, with synaptic genes commonly affected. ZCCHC17 expression correlates with cognitive resilience in AD patients, and we uncover an APOE4-dependent negative correlation of ZCCHC17 expression with tangle burden. Furthermore, amajority of ZCCHC17 interactors also co-IP with known tau interactors, and we find a significant overlap between alternatively spliced genes in ZCCHC17 knockdown and tau overexpression neurons. These results demonstrate ZCCHC17's role in neuronal RNA processing and its interaction with pathology and cognitive resilience in AD, and suggest that the maintenance of ZCCHC17 function may be a therapeutic strategy for preserving cognitive function in the setting of AD pathology. [ABSTRACT FROM AUTHOR]

Published

2024

4. Reliability and Validity of Self-Reported Vascular Risk Factors: Hypertension, Diabetes, and Heart Disease, in a Multi-Ethnic Community Based Study of Aging and Dementia.

Author

Lee, Annie J., Sanchez, Didi, Reyes-Dumeyer, Dolly, Brickman, Adam M., Lantigua, Rafael A., Vardarajan, Badri N., and Mayeux, Richard

Subjects

HYPERTENSION risk factors, HEART diseases, VASCULAR dementia, CARDIOVASCULAR diseases risk factors, DEMENTIA, BLOOD pressure

Abstract

Background: Queries for the presence of cardiovascular and cerebrovascular risk factors are typically assessed through self-report. However, the reliability and validity of self-reported cardiovascular and cerebrovascular risk factors remain inconsistent in aging research. Objective: To determine the reliability and validity of the most frequently self-reported vascular risk factors: hypertension, diabetes, and heart disease. Methods: 1,870 individuals aged 65 years or older among African Americans, Caribbean Hispanics, and white non-Hispanic individuals were recruited as part of a community study of aging and dementia. We assessed the reliability, validity, sensitivity, specificity, and percent agreement of self-reported hypertension, diabetes, and heart disease, in comparison with direct measures of blood pressure, hemoglobin A1c (HbA1c), and medication use. The analyses were subsequently stratified by age, sex, education, and ethnic group. Results: Reliability of self-reported hypertension, diabetes, and heart disease was excellent. Agreement between self-reports and clinical measures was moderate for hypertension (kappa: 0.58), good for diabetes (kappa: 0.76–0.79), and moderate for heart disease (kappa: 0.45) differing slightly by age, sex, education, and ethnic group. Sensitivity and specificity for hypertension was 88.6% –78.1%, for diabetes was 87.7% –92.0% (HbA1c ≥6.5%) or 92.7% –92.8% (HbA1c ≥7%), and for heart disease was 85.8% –75.5%. Percent agreement of self-reported was 87.0% for hypertension, 91.6% –92.6% for diabetes, and 77.4% for heart disease. Conclusion: Ascertainment of self-reported histories of hypertension, diabetes, and heart disease are reliable and valid compared to direct measurements or medication use. [ABSTRACT FROM AUTHOR]

Published

2023

5. Nerve growth factor receptor (Ngfr) induces neurogenic plasticity by suppressing reactive astroglial Lcn2/Slc22a17 signaling in Alzheimer's disease.

Author

Siddiqui, Tohid, Cosacak, Mehmet Ilyas, Popova, Stanislava, Bhattarai, Prabesh, Yilmaz, Elanur, Lee, Annie J., Min, Yuhao, Wang, Xue, Allen, Mariet, İş, Özkan, Atasavum, Zeynep Tansu, Rodriguez-Muela, Natalia, Vardarajan, Badri N., Flaherty, Delaney, Teich, Andrew F., Santa-Maria, Ismael, Freudenberg, Uwe, Werner, Carsten, Tosto, Giuseppe, and Mayeux, Richard

Subjects

NERVE growth factor, ALZHEIMER'S disease, GENE regulatory networks, AMYLOID plaque, GENE expression

Abstract

Neurogenesis, crucial for brain resilience, is reduced in Alzheimer's disease (AD) that induces astroglial reactivity at the expense of the pro-neurogenic potential, and restoring neurogenesis could counteract neurodegenerative pathology. However, the molecular mechanisms promoting pro-neurogenic astroglial fate despite AD pathology are unknown. In this study, we used APP/PS1dE9 mouse model and induced Nerve growth factor receptor (Ngfr) expression in the hippocampus. Ngfr, which promotes neurogenic fate of astroglia during the amyloid pathology-induced neuroregeneration in zebrafish brain, stimulated proliferative and neurogenic outcomes. Histological analyses of the changes in proliferation and neurogenesis, single-cell transcriptomics, spatial proteomics, and functional knockdown studies showed that the induced expression of Ngfr reduced the reactive astrocyte marker Lipocalin-2 (Lcn2), which we found was sufficient to reduce neurogenesis in astroglia. Anti-neurogenic effects of Lcn2 was mediated by Slc22a17, blockage of which recapitulated the pro-neurogenicity by Ngfr. Long-term Ngfr expression reduced amyloid plaques and Tau phosphorylation. Postmortem human AD hippocampi and 3D human astroglial cultures showed elevated LCN2 levels correlate with reactive gliosis and reduced neurogenesis. Comparing transcriptional changes in mouse, zebrafish, and human AD brains for cell intrinsic differential gene expression and weighted gene co-expression networks revealed common altered downstream effectors of NGFR signaling, such as PFKP, which can enhance proliferation and neurogenesis in vitro when blocked. Our study suggests that the reactive non-neurogenic astroglia in AD can be coaxed to a pro-neurogenic fate and AD pathology can be alleviated with Ngfr. We suggest that enhancing pro-neurogenic astroglial fate may have therapeutic ramifications in AD. [ABSTRACT FROM AUTHOR]

Published

2023

6. Polygenic risk score penetrance & recurrence risk in familial Alzheimer disease.

Author

Qiao, Min, Lee, Annie J., Reyes‐Dumeyer, Dolly, Tosto, Giuseppe, Faber, Kelley, Goate, Alison, Renton, Alan, Chao, Michael, Boeve, Brad, Cruchaga, Carlos, Pericak‐Vance, Margaret, Haines, Jonathan L., Rosenberg, Roger, Tsuang, Debby, Sweet, Robert A., Bennett, David A., Wilson, Robert S., Foroud, Tatiana, Mayeux, Richard, and Vardarajan, Badri N.

Subjects

DISEASE risk factors, MONOGENIC & polygenic inheritance (Genetics), GENETIC disorders, APOLIPOPROTEIN E4, ALZHEIMER'S disease, AGE of onset

Abstract

Objective: To compute penetrance and recurrence risk using a genome‐wide PRS (including and excluding the APOE region) in families with Alzheimer's disease. Methods: Genotypes from the National Institute on Aging Late‐Onset Alzheimer's Disease Family‐Based Study and a study of familial Alzheimer's disease in Caribbean Hispanics were used to compute PRS with and without variants in the 2 MB region flanking APOE. PRS was calculated in using clumping/thresholding and Bayesian methods and was assessed for association with Alzheimer's disease and age at onset. Penetrance and recurrence risk for carriers in highest and lowest PRS quintiles were compared separately within APOE‐ε4 carriers and non‐carriers. Results: PRS excluding the APOE region was strongly associated with clinical and neuropathological diagnosis of AD. PRS association with AD was similar in participants who did not carry an APOE‐ε4 allele (OR = 1.74 [1.53–1.91]) compared with APOE‐ε4 carriers (1.53 [1.4–1.68]). Compared to the lowest quintile, the highest PRS quintile had a 10% higher penetrance at age 70 (p = 0.0006) and a 20% higher penetrance at age 80 (p < 10e‐05). Stratifying by APOE‐ε4 allele, PRS in the highest quintile was significantly more penetrant than the lowest quintile, both, within APOE‐ε4 carriers (14.5% higher at age 80, p = 0.002) and non‐carriers (26% higher at 80, p < 10e‐05). Recurrence risk for siblings conferred by a co‐sibling in the highest PRS quintile increased from 4% between the ages of 65–74 years to 39% at age 85 and older. Interpretation: PRS can be used to estimate penetrance and recurrence risk in familial Alzheimer's disease among carriers and non‐carries of APOE‐ε4. [ABSTRACT FROM AUTHOR]

Published

2023

7. Tools for communicating risk for Parkinson's disease.

Author

Cook, Lola, Schulze, Jeanine, Uhlmann, Wendy R., Verbrugge, Jennifer, Marder, Karen, Lee, Annie J., Wang, Yuanjia, Alcalay, Roy N., Nance, Martha, and Beck, James C.

Published

2022

8. FMNL2 regulates gliovascular interactions and is associated with vascular risk factors and cerebrovascular pathology in Alzheimer's disease.

Author

Lee, Annie J., Raghavan, Neha S., Bhattarai, Prabesh, Siddiqui, Tohid, Sariya, Sanjeev, Reyes-Dumeyer, Dolly, Flowers, Xena E., Cardoso, Sarah A. L., De Jager, Philip L., Bennett, David A., Schneider, Julie A., Menon, Vilas, Wang, Yanling, Lantigua, Rafael A., Medrano, Martin, Rivera, Diones, Jiménez-Velázquez, Ivonne Z., Kukull, Walter A., Brickman, Adam M., and Manly, Jennifer J.

Subjects

ALZHEIMER'S disease, AMYLOID plaque, CARDIOVASCULAR diseases risk factors, PATHOLOGY, GENETIC variation, MIDDLE age

Abstract

Alzheimer's disease (AD) has been associated with cardiovascular and cerebrovascular risk factors (CVRFs) during middle age and later and is frequently accompanied by cerebrovascular pathology at death. An interaction between CVRFs and genetic variants might explain the pathogenesis. Genome-wide, gene by CVRF interaction analyses for AD, in 6568 patients and 8101 controls identified FMNL2 (p = 6.6 × 10–7). A significant increase in FMNL2 expression was observed in the brains of patients with brain infarcts and AD pathology and was associated with amyloid and phosphorylated tau deposition. FMNL2 was also prominent in astroglia in AD among those with cerebrovascular pathology. Amyloid toxicity in zebrafish increased fmnl2a expression in astroglia with detachment of astroglial end feet from blood vessels. Knockdown of fmnl2a prevented gliovascular remodeling, reduced microglial activity and enhanced amyloidosis. APP/PS1dE9 AD mice also displayed increased Fmnl2 expression and reduced the gliovascular contacts independent of the gliotic response. Based on this work, we propose that FMNL2 regulates pathology-dependent plasticity of the blood–brain-barrier by controlling gliovascular interactions and stimulating the clearance of extracellular aggregates. Therefore, in AD cerebrovascular risk factors promote cerebrovascular pathology which in turn, interacts with FMNL2 altering the normal astroglial-vascular mechanisms underlying the clearance of amyloid and tau increasing their deposition in brain. [ABSTRACT FROM AUTHOR]

Published

2022

9. Characterization of mitochondrial DNA quantity and quality in the human aged and Alzheimer's disease brain.

Author

Klein, Hans-Ulrich, Trumpff, Caroline, Yang, Hyun-Sik, Lee, Annie J., Picard, Martin, Bennett, David A., and De Jager, Philip L.

Subjects

MITOCHONDRIAL DNA, ALZHEIMER'S disease, BRAIN diseases, CINGULATE cortex, COGNITIVE ability, NEUROFIBRILLARY tangles, OLDER people

Abstract

Background: Mitochondrial dysfunction is a feature of neurodegenerative diseases, including Alzheimer's disease (AD). Changes in the mitochondrial DNA copy number (mtDNAcn) and increased mitochondrial DNA mutation burden have both been associated with neurodegenerative diseases and cognitive decline. This study aims to systematically identify which common brain pathologies in the aged human brain are associated with mitochondrial recalibrations and to disentangle the relationship between these pathologies, mtDNAcn, mtDNA heteroplasmy, aging, neuronal loss, and cognitive function. Methods: Whole-genome sequencing data from n = 1361 human brain samples from 5 different regions were used to quantify mtDNAcn as well as heteroplasmic mtDNA point mutations and small indels. Brain samples were assessed for 10 common pathologies. Annual cognitive test results were used to assess cognitive function proximal to death. For a subset of samples, neuronal proportions were estimated from RNA-seq profiles, and mass spectrometry was used to quantify the mitochondrial protein content of the tissue. Results: mtDNAcn was 7–14% lower in AD relative to control participants. When accounting for all 10 common neuropathologies, only tau was significantly associated with lower mtDNAcn in the dorsolateral prefrontal cortex. In the posterior cingulate cortex, TDP-43 pathology demonstrated a distinct association with mtDNAcn. No changes were observed in the cerebellum, which is affected late by pathologies. Neither age nor gender was associated with mtDNAcn in the studied brain regions when adjusting for pathologies. Mitochondrial content and mtDNAcn independently explained variance in cognitive function unaccounted by pathologies, implicating complex mitochondrial recalibrations in cognitive decline. In contrast, mtDNA heteroplasmy levels increased by 1.5% per year of life in the cortical regions, but displayed no association with any of the pathologies or cognitive function. Conclusions: We studied mtDNA quantity and quality in relation to mixed pathologies of aging and showed that tau and not amyloid-β is primarily associated with reduced mtDNAcn. In the posterior cingulate cortex, the association of TDP-43 with low mtDNAcn points to a vulnerability of this region in limbic-predominant age-related TDP-43 encephalopathy. While we found low mtDNAcn in brain regions affected by pathologies, the absence of associations with mtDNA heteroplasmy burden indicates that mtDNA point mutations and small indels are unlikely to be involved in the pathogenesis of late-onset neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published

2021

10. Multi‐cohort genome‐wide association study on flortaucipir PET identifies novel risk loci associated with tau deposition and its role in AD pathology.

Author

Gunasekaran, Tamil Iniyan, Lee, Annie J, Dumitrescu, Logan C, Mormino, Elizabeth C., Sperling, Reisa A., Saykin, Andrew J., Hohman, Timothy J., and Vardarajan, Badri N

Published

2023

11. Functional investigation of the gliovascular niche‐related genes and their relevance to Alzheimer's disease pathomechanisms in zebrafish.

Author

Bhattarai, Prabesh, Cosacak, Mehmet I., Lee, Annie J, Yilmaz, Elanur, Is, Ozkan, Wang, Xue, Vardarajan, Badri N, Ertekin‐Taner, Nilufer, Mayeux, Richard, and Kizil, Caghan

Published

2023

12. Gliovascular molecular alterations in Alzheimer's disease: a cross‐tissue, cross‐species study.

Author

Is, Ozkan, Wang, Xue, Reddy, Joseph S., Patel, Tulsi, Min, Yuhao, Quicksall, Zachary, Heckman, Michael G., Gao, Junli, Bergman, Jeremiah, Da Mesquita, Sandro Gabriel Ferreira, Kizil, Caghan, Bhattarai, Prabesh, Cosacak, Mehmet I., Lee, Annie J, Vardarajan, Badri N, Mayeux, Richard, Koga, Shunsuke, Kanekiyo, Takahisa, White, Launia J, and Kouri, Naomi

Published

2023

13. Interaction of genetic and cardiovascular risk factors identifies pathways involved in Alzheimer's Disease.

Author

Lee, Annie J, Raghavan, Neha S, Bhattarai, Prabesh, Reyes‐Dumeyer, Dolly, De Jager, Philip L, Bennett, David A. A, Schneider, Julie A, Menon, Vilas, Wang, Yanling, Lantigua, Rafael A, Medrano, Martin, Mejia, Diones Rivera, Jiménez‐Velázquez, Ivonne Z., Kukull, Walter A., Brickman, Adam M., Manly, Jennifer J., Tosto, Giuseppe, Mayeux, Richard, Kizil, Caghan, and Vardarajan, Badri N

Published

2023

14. Multi‐ethnic genome‐wide, gene‐based study identifies genes that interact with vascular risk factors in Alzheimer's Disease (AD).

Author

Lee, Annie J, Reyes‐Dumeyer, Dolly, De Jager, Philip L, Bennett, David A. A, Schneider, Julie A, Menon, Vilas, Wang, Yanling, Lantigua, Rafael A., Medrano, Martin, Mejia, Diones Rivera, Jiménez‐Velázquez, Ivonne Z., Kukull, Walter A., Brickman, Adam M., Manly, Jennifer J., Tosto, Giuseppe, Kizil, Caghan, Farrer, Lindsay A., Mez, Jesse B., Chung, Jaeyoon, and Vardarajan, Badri N

Published

2023

15. Multi‐ethnic genome‐wide, gene‐based study identifies genes that interact with vascular risk factors in Alzheimer's Disease (AD).

Author

Lee, Annie J, Reyes‐Dumeyer, Dolly, De Jager, Philip L, Bennett, David A. A, Schneider, Julie A, Menon, Vilas, Wang, Yanling, Lantigua, Rafael A., Medrano, Martin, Mejia, Diones Rivera, Jiménez‐Velázquez, Ivonne Z., Kukull, Walter A., Brickman, Adam M., Manly, Jennifer J., Tosto, Giuseppe, Kizil, Caghan, Farrer, Lindsay A., Mez, Jesse B., Chung, Jaeyoon, and Vardarajan, Badri N

Published

2023

16. Association Between Common Variants in RBFOX1, an RNA-Binding Protein, and Brain Amyloidosis in Early and Preclinical Alzheimer Disease.

Author

Raghavan, Neha S., Dumitrescu, Logan, Mormino, Elizabeth, Mahoney, Emily R., Lee, Annie J., Gao, Yizhe, Bilgel, Murat, Goldstein, David, Harrison, Theresa, Engelman, Corinne D., Saykin, Andrew J., Whelan, Christopher D., Liu, Jimmy Z., Jagust, William, Albert, Marilyn, Johnson, Sterling C., Yang, Hyun-Sik, Johnson, Keith, Aisen, Paul, and Resnick, Susan M.

Published

2020

17. Exposomics for Characterization of Environmental Drivers of AD.

Author

Miller, Gary W, Kalia, Vrinda, Lai, Yunjia, Honig, Lawrence S., Mayeux, Richard, Vardarajan, Badri N, Lantigua, Rafael A., Lee, Annie J, Manly, Jennifer J., and Nandakumar, Renu

Published

2023

18. Metabolites correlate with plasma biomarkers and clinical diagnosis of Alzheimer's Disease.

Author

Kalia, Vrinda, Reyes‐Dumeyer, Dolly, Dubey, Saurabh, Nandakumar, Renu, Lee, Annie J, Lantigua, Rafael A., Medrano, Martin, Mejia, Diones Rivera, Recio, Patricia, Honig, Lawrence S., Mayeux, Richard, Miller, Gary W, and Vardarajan, Badri N

Published

2023

19. Penetrance estimate of LRRK2 p.G2019S mutation in individuals of non-Ashkenazi Jewish ancestry.

Author

Lee, Annie J., Wang, Yuanjia, Alcalay, Roy N., Mejia‐Santana, Helen, Saunders‐Pullman, Rachel, Bressman, Susan, Corvol, Jean‐Christophe, Brice, Alexis, Lesage, Suzanne, Mangone, Graziella, Tolosa, Eduardo, Pont‐Sunyer, Claustre, Vilas, Dolores, Schüle, Birgitt, Kausar, Farah, Foroud, Tatiana, Berg, Daniela, Brockmann, Kathrin, Goldwurm, Stefano, and Siri, Chiara

Subjects

DISEASE susceptibility, FAMILY health, GENES, GLYCINE, JEWS, LONGITUDINAL method, GENETIC mutation, PARKINSON'S disease, PHENOTYPES, GENETIC testing, SERINE

Abstract

Background: Penetrance estimates of the leucine-rich repeat kinase 2 (LRRK2) p.G2019S mutation for PD vary widely (24%-100%). The p.G2019S penetrance in individuals of Ashkenazi Jewish ancestry has been estimated as 25%, adjusted for multiple covariates. It is unknown whether penetrance varies among different ethnic groups. The objective of this study was to estimate the penetrance of p.G2019S in individuals of non-Ashkenazi Jewish ancestry and compare penetrance between Ashkenazi Jews and non-Ashkenazi Jews to age 80.Methods: The kin-cohort method was used to estimate penetrance in 474 first-degree relatives of 69 non-Ashkenazi Jewish LRRK2 p.G2019S carrier probands at 8 sites from the Michael J. Fox LRRK2 Cohort Consortium. An identical validated family history interview was administered to assess age at onset of PD, current age, or age at death for relatives in different ethnic groups at each site. Neurological examination and LRRK2 genotype of relatives were included when available.Results: Risk of PD in non-Ashkenazi Jewish relatives who carry a LRRK2 p.G2019S mutation was 42.5% (95% confidence interval [CI]: 26.3%-65.8%) to age 80, which is not significantly higher than the previously estimated 25% (95% CI: 16.7%-34.2%) in Ashkenazi Jewish carrier relatives. The penetrance of PD to age 80 in LRRK2 p.G2019S mutation carrier relatives was significantly higher than the noncarrier relatives, as seen in Ashkenazi Jewish relatives.Conclusions: The similar penetrance of LRRK2 p.G2019S estimated in Ashkenazi Jewish carriers and non-Ashkenazi Jewish carriers confirms that p.G2019S penetrance is 25% to 42.5% at age 80 in all populations analyzed. © 2017 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published

2017

20. Estimation of genetic risk function with covariates in the presence of missing genotypes.

Author

Lee, Annie J., Marder, Karen, Alcalay, Roy N., Mejia‐Santana, Helen, Orr‐Urtreger, Avi, Giladi, Nir, Bressman, Susan, Wang, Yuanjia, Mejia-Santana, Helen, and Orr-Urtreger, Avi

Subjects

BIOLOGICAL models, COMPUTER simulation, DISEASE susceptibility, FAMILIES, GENETIC mutation, PARKINSON'S disease, PROBABILITY theory, REGRESSION analysis, RISK assessment, PHENOTYPES, PROPORTIONAL hazards models, STATISTICAL models, GENOTYPES

Abstract

In genetic epidemiological studies, family history data are collected on relatives of study participants and used to estimate the age-specific risk of disease for individuals who carry a causal mutation. However, a family member's genotype data may not be collected because of the high cost of in-person interview to obtain blood sample or death of a relative. Previously, efficient nonparametric genotype-specific risk estimation in censored mixture data has been proposed without considering covariates. With multiple predictive risk factors available, risk estimation requires a multivariate model to account for additional covariates that may affect disease risk simultaneously. Therefore, it is important to consider the role of covariates in genotype-specific distribution estimation using family history data. We propose an estimation method that permits more precise risk prediction by controlling for individual characteristics and incorporating interaction effects with missing genotypes in relatives, and thus, gene-gene interactions and gene-environment interactions can be handled within the framework of a single model. We examine performance of the proposed methods by simulations and apply them to estimate the age-specific cumulative risk of Parkinson's disease (PD) in carriers of the LRRK2 G2019S mutation using first-degree relatives who are at genetic risk for PD. The utility of estimated carrier risk is demonstrated through designing a future clinical trial under various assumptions. Such sample size estimation is seen in the Huntington's disease literature using the length of abnormal expansion of a CAG repeat in the HTT gene but is less common in the PD literature. Copyright © 2017 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2017

21. Association of short tandem repeats with neuropathological features in late‐onset of Alzheimer's disease brains.

Author

Lee, Annie J, Klein, Hans‐Ulrich, Schneider, Julie A, Bennett, David A, De Jager, Philip L, Narzisi, Giuseppe, Zody, Michael, and Vardarajan, Badri N

Published

2023

22. Evaluation of Plasma Biomarkers for A/T/N Classification of Alzheimer Disease Among Adults of Caribbean Hispanic Ethnicity.

Author

Honig, Lawrence S., Kang, Min Suk, Lee, Annie J., Reyes-Dumeyer, Dolly, Piriz, Angel, Soriano, Belisa, Franco, Yahaira, Coronado, Zoraida Dominguez, Recio, Patricia, Mejía, Diones Rivera, Medrano, Martin, Lantigua, Rafael A., Teich, Andrew F., Dage, Jeffrey L., and Mayeux, Richard

Published

2023

23. Multi‐region brain transcriptomes uncover two subtypes of aging individuals with differences in the impact of APOEe4.

Author

Lee, Annie J, Ma, Yiyi, Yu, Lei, Dawe, Robert J, Arfanakis, Konstantinos, Mayeux, Richard, Bennett, David A., Klein, Hans‐Ulrich, and De Jager, Philip L

Published

2021