Your search keyword '"Ethan G. Geier"' showing total 45 results

1. Single-cell RNA-seq reveals alterations in peripheral CX3CR1 and nonclassical monocytes in familial tauopathy

Author

Daniel W. Sirkis, Caroline Warly Solsberg, Taylor P. Johnson, Luke W. Bonham, Virginia E. Sturm, Suzee E. Lee, Katherine P. Rankin, Howard J. Rosen, Adam L. Boxer, William W. Seeley, Bruce L. Miller, Ethan G. Geier, and Jennifer S. Yokoyama

Subjects

Tau, Tauopathy, MAPT, CX3CR1, Dementia, Neurodegeneration, Medicine, Genetics, QH426-470

Abstract

Abstract Background Emerging evidence from mouse models is beginning to elucidate the brain’s immune response to tau pathology, but little is known about the nature of this response in humans. In addition, it remains unclear to what extent tau pathology and the local inflammatory response within the brain influence the broader immune system. Methods To address these questions, we performed single-cell RNA sequencing (scRNA-seq) of peripheral blood mononuclear cells (PBMCs) from carriers of pathogenic variants in MAPT, the gene encoding tau (n = 8), and healthy non-carrier controls (n = 8). Primary findings from our scRNA-seq analyses were confirmed and extended via flow cytometry, droplet digital (dd)PCR, and secondary analyses of publicly available transcriptomics datasets. Results Analysis of ~ 181,000 individual PBMC transcriptomes demonstrated striking differential expression in monocytes and natural killer (NK) cells in MAPT pathogenic variant carriers. In particular, we observed a marked reduction in the expression of CX3CR1—the gene encoding the fractalkine receptor that is known to modulate tau pathology in mouse models—in monocytes and NK cells. We also observed a significant reduction in the abundance of nonclassical monocytes and dysregulated expression of nonclassical monocyte marker genes, including FCGR3A. Finally, we identified reductions in TMEM176A and TMEM176B, genes thought to be involved in the inflammatory response in human microglia but with unclear function in peripheral monocytes. We confirmed the reduction in nonclassical monocytes by flow cytometry and the differential expression of select biologically relevant genes dysregulated in our scRNA-seq data using ddPCR. Conclusions Our results suggest that human peripheral immune cell expression and abundance are modulated by tau-associated pathophysiologic changes. CX3CR1 and nonclassical monocytes in particular will be a focus of future work exploring the role of these peripheral signals in additional tau-associated neurodegenerative diseases.

Published

2023

2. Early‐onset Alzheimer's disease explained by polygenic risk of late‐onset disease?

Author

William G. Mantyh, J. Nicholas Cochran, Jared W. Taylor, Iris J. Broce, Ethan G. Geier, Luke W. Bonham, Ashlyn G. Anderson, Daniel W. Sirkis, Renaud La Joie, Leonardo Iaccarino, Kiran Chaudhary, Lauren Edwards, Amelia Strom, Harli Grant, Isabel E. Allen, Zachary A. Miller, Marilu L. Gorno‐Tempini, Joel H. Kramer, Bruce L. Miller, Rahul S. Desikan, Gil D. Rabinovici, and Jennifer S. Yokoyama

Subjects

age of onset, biomarkers, early‐onset Alzheimer's disease, late‐onset Alzheimer's disease, polygenic risk, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6

Abstract

Abstract Early‐onset Alzheimer's disease (AD) is highly heritable, yet only 10% of cases are associated with known pathogenic mutations. For early‐onset AD patients without an identified autosomal dominant cause, we hypothesized that their early‐onset disease reflects further enrichment of the common risk‐conferring single nucleotide polymorphisms associated with late‐onset AD. We applied a previously validated polygenic hazard score for late‐onset AD to 193 consecutive patients diagnosed at our tertiary dementia referral center with symptomatic early‐onset AD. For comparison, we included 179 participants with late‐onset AD and 70 healthy controls. Polygenic hazard scores were similar in early‐ versus late‐onset AD. The polygenic hazard score was not associated with age‐of‐onset or disease biomarkers within early‐onset AD. Early‐onset AD does not represent an extreme enrichment of the common single nucleotide polymorphisms associated with late‐onset AD. Further exploration of novel genetic risk factors of this highly heritable disease is warranted. Highlights There is a unique genetic architecture of early‐ versus late‐onset Alzheimer's disease (AD). Late‐onset AD polygenic risk is not an explanation for early‐onset AD. Polygenic risk of late‐onset AD does not predict early‐onset AD biology. Unique genetic architecture of early‐ versus late‐onset AD parallels AD heterogeneity.

Published

2023

3. SVIP is a molecular determinant of lysosomal dynamic stability, neurodegeneration and lifespan

Author

Alyssa E. Johnson, Brian O. Orr, Richard D. Fetter, Armen J. Moughamian, Logan A. Primeaux, Ethan G. Geier, Jennifer S. Yokoyama, Bruce L. Miller, and Graeme W. Davis

Subjects

Science

Abstract

Valosin-Containing Protein (VCP) is linked to diverse degenerative diseases. Here, the authors show that Small VCP Interacting Protein (SVIP) recruits VCP to lysosomes, with gain and loss of SVIP muscle expression modifying neural degeneration, animal behaviour and lifespan.

Published

2021

4. Genetic Variation in the Androgen Receptor and Measures of Plasma Testosterone Levels Suggest Androgen Dysfunction in Alzheimer’s Disease

Author

Jessie S. Carr, Luke W. Bonham, Alicia K. Morgans, Charles J. Ryan, Jennifer S. Yokoyama, Ethan G. Geier, and Alzheimer’s Disease Neuroimaging Initiative

Subjects

Alzheimer’s disease, androgen receptor, testosterone, steroid, biomarker, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Alzheimer’s disease (AD) prevalence varies by sex, suggesting that sex chromosomes, sex hormones and/or their signaling could potentially modulate AD risk and progression. Low testosterone levels are reported in men with AD. Further, variation in the androgen receptor (AR) gene has been associated with AD risk and cognitive impairment. We assessed measures of plasma testosterone levels as a biomarker of AD in male participants from the Alzheimer’s Disease Neuroimaging Initiative (ADNI) cohort. Baseline testosterone levels were significantly different between clinical diagnosis groups [cognitively normal controls, mild cognitive impairment (MCI), or AD], with the lowest testosterone levels in men with AD. Lower baseline testosterone levels were associated with higher baseline clinical severity. Change in testosterone levels between baseline and 1-year follow-up varied by diagnosis; MCI had the greatest decreases in testosterone levels between baseline and 1-year follow-up. Despite differences by clinical diagnosis, there was no association between plasma testosterone and CSF biomarkers of AD pathology. We also tested single nucleotide polymorphisms (SNPs) in AR for association with AD risk in a separate cohort from ADNI and found 26 SNPs associated with risk for AD. The top associated SNP is predicted to be an expression quantitative trait locus for AR in multiple tissues, including brain, with the AD-associated risk allele predicted to confer lower AR expression. Our findings suggest a link between the androgen pathway and AD through Aβ/tau independent pathways. These effects may be most pronounced during conversion from MCI to dementia.

Published

2018

5. Insulin-Like Growth Factor Binding Protein 2 Is Associated With Biomarkers of Alzheimer’s Disease Pathology and Shows Differential Expression in Transgenic Mice

Author

Luke W. Bonham, Ethan G. Geier, Natasha Z. R. Steele, Dominic Holland, Bruce L. Miller, Anders M. Dale, Rahul S. Desikan, Jennifer S. Yokoyama, and Alzheimer’s Disease Neuroimaging Initiative

Subjects

IGFBP-2, Alzheimer’s disease, CSF, neuroimaging, tau, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

There is increasing evidence that metabolic dysfunction plays an important role in Alzheimer’s disease (AD). Brain insulin resistance and subsequent impairment of insulin and insulin-like growth factor (IGF) signaling are associated with the neurodegenerative and clinical features of AD. Nevertheless, how the brain insulin/IGF signaling system is altered in AD and the effects of these changes on AD pathobiology are not well understood. IGF binding protein 2 (IGFBP-2) is an abundant cerebral IGF signaling protein and there is early evidence suggesting it associates with AD biomarkers. We evaluated the relationship between protein levels of IGFBP-2 with cerebrospinal fluid (CSF) biomarkers and neuroimaging markers of AD progression in 300 individuals from across the AD spectrum. CSF IGFBP-2 levels were correlated with CSF tau levels and brain atrophy in non-hippocampal regions. To further explore the role of IGFBP2 in tau pathobiology, we evaluated the expression of IGFBP2 in different human and mouse brain cell types and brain tissue from two transgenic mouse models: the P301L-tau model of tauopathy and TASTPM model of AD. We observed significant differential expression of IGFBP2 in both transgenic mouse models relative to wild-type mice in cortex but not in hippocampus. In both humans and mice, IGFBP2 is most highly expressed in astrocytes. Taken together, our findings suggest that IGFBP-2 may be linked to tau pathology and provides further evidence for a relationship between metabolic dysregulation and neurodegeneration. Our results also raise the possibility that this relationship may extend beyond neurons.

Published

2018

6. Radiogenomics ofC9orf72Expansion Carriers Reveals Global Transposable Element Derepression and Enables Prediction of Thalamic Atrophy and Clinical Impairment

Author

Luke W. Bonham, Ethan G. Geier, Daniel W. Sirkis, Josiah K. Leong, Eliana Marisa Ramos, Qing Wang, Anna Karydas, Suzee E. Lee, Virginia E. Sturm, Russell P. Sawyer, Adit Friedberg, Justin K. Ichida, Aaron D. Gitler, Leo Sugrue, Michael Cordingley, Walter Bee, Eckard Weber, Joel H. Kramer, Katherine P. Rankin, Howard J. Rosen, Adam L. Boxer, William W. Seeley, John Ravits, Bruce L. Miller, and Jennifer S. Yokoyama

Subjects

General Neuroscience

Abstract

Hexanucleotide repeat expansion (HRE) withinC9orf72is the most common genetic cause of frontotemporal dementia (FTD). Thalamic atrophy occurs in both sporadic and familial FTD but is thought to distinctly affect HRE carriers. Separately, emerging evidence suggests widespread derepression of transposable elements (TEs) in the brain in several neurodegenerative diseases, includingC9orf72HRE-mediated FTD (C9-FTD). Whether TE activation can be measured in peripheral blood and how the reduction in peripheralC9orf72expression observed in HRE carriers relates to atrophy and clinical impairment remain unknown. We used FreeSurfer software to assess the effects ofC9orf72HRE and clinical diagnosis (n= 78 individuals, male and female) on atrophy of thalamic nuclei. We also generated a novel, human, whole-blood RNA-sequencing dataset to determine the relationships among peripheralC9orf72expression, TE activation, thalamic atrophy, and clinical severity (n= 114 individuals, male and female). We confirmed global thalamic atrophy and reducedC9orf72expression in HRE carriers. Moreover, we identified disproportionate atrophy of the right mediodorsal lateral nucleus in HRE carriers and showed thatC9orf72expression associated with clinical severity, independent of thalamic atrophy. Strikingly, we found global peripheral activation of TEs, including the human endogenous LINE-1 elementL1HS.L1HSlevels were associated with atrophy of multiple pulvinar nuclei, a thalamic region implicated in C9-FTD. Integration of peripheral transcriptomic and neuroimaging data from human HRE carriers revealed atrophy of specific thalamic nuclei, demonstrated thatC9orf72levels relate to clinical severity, and identified marked derepression of TEs, includingL1HS, which predicted atrophy of FTD-relevant thalamic nuclei.SIGNIFICANCE STATEMENTPathogenic repeat expansion inC9orf72is the most frequent genetic cause of FTD and amyotrophic lateral sclerosis (ALS; C9-FTD/ALS). The clinical, neuroimaging, and pathologic features of C9-FTD/ALS are well characterized, whereas the intersections of transcriptomic dysregulation and brain structure remain largely unexplored. Herein, we used a novel radiogenomic approach to examine the relationship between peripheral blood transcriptomics and thalamic atrophy, a neuroimaging feature disproportionately impacted in C9-FTD/ALS. We confirmed reduction ofC9orf72in blood and found broad dysregulation of transposable elements—genetic elements typically repressed in the human genome—in symptomaticC9orf72expansion carriers, which associated with atrophy of thalamic nuclei relevant to FTD.C9orf72expression was also associated with clinical severity, suggesting that peripheralC9orf72levels capture disease-relevant information.

Published

2022

7. Supplementary Figures S1-S6 from Vorinostat Increases Expression of Functional Norepinephrine Transporter in Neuroblastoma In Vitro and In Vivo Model Systems

Author

Kathleen M. Giacomini, Katherine K. Matthay, Steven G. DuBois, Daphne A. Haas-Kogan, Sabine Mueller, William A. Weiss, Henry F. VanBrocklin, Youngho Seo, Michelle K. Tadano, Ethan G. Geier, Xiaodong Yang, Melissa Itsara, and Swati S. More

Abstract

Supplementary Figures S1-S6.

Published

2023

8. Data from Vorinostat Increases Expression of Functional Norepinephrine Transporter in Neuroblastoma In Vitro and In Vivo Model Systems

Author

Kathleen M. Giacomini, Katherine K. Matthay, Steven G. DuBois, Daphne A. Haas-Kogan, Sabine Mueller, William A. Weiss, Henry F. VanBrocklin, Youngho Seo, Michelle K. Tadano, Ethan G. Geier, Xiaodong Yang, Melissa Itsara, and Swati S. More

Abstract

Purpose: Histone deacetylase (HDAC) inhibition causes transcriptional activation or repression of several genes that in turn can influence the biodistribution of other chemotherapeutic agents. Here, we hypothesize that the combination of vorinostat, a HDAC inhibitor, with 131I-meta-iodobenzylguanidine (MIBG) would lead to preferential accumulation of the latter in neuroblastoma (NB) tumors via increased expression of the human norepinephrine transporter (NET).Experimental Design:In vitro and in vivo experiments examined the effect of vorinostat on the expression of NET, an uptake transporter for 131I-MIBG. Human NB cell lines (Kelly and SH-SY-5Y) and NB1691-luc mouse xenografts were employed. The upregulated NET protein was characterized for its effect on 123I-MIBG biodistribution.Results: Preincubation of NB cell lines, Kelly, and SH-SY-5Y, with vorinostat caused dose-dependent increases in NET mRNA and protein levels. Accompanying this was a corresponding dose-dependent increase in MIBG uptake in NB cell lines. Four- and 2.5-fold increases were observed in Kelly and SH-SY-5Y cells, respectively, pretreated with vorinostat in comparison to untreated cells. Similarly, NB xenografts, created by intravenous tail vein injection of NB1691-luc, and harvested from nude mice livers treated with vorinostat (150 mg/kg i.p.) showed substantial increases in NET protein expression. Maximal effect of vorinostat pretreatment in NB xenografts on 123I-MIBG biodistribution was observed in tumors that exhibited enhanced uptake in vorinostat-treated [0.062 ± 0.011 μCi/(mg tissue-dose injected)] vs. -untreated mice [0.022 ± 0.003 μCi/(mg tissue-dose injected); P < 0.05].Conclusions: The results of our study provide preclinical evidence that vorinostat treatment can enhance NB therapy with 131I-MIBG. Clin Cancer Res; 17(8); 2339–49. ©2011 AACR.

Published

2023

9. Radiogenomics of C9orf72 Expansion Carriers Reveals Global Transposable Element Derepression and Enables Prediction of Thalamic Atrophy and Clinical Impairment

Author

Luke W. Bonham, Ethan G. Geier, Daniel W. Sirkis, Josiah K. Leong, Eliana Marisa Ramos, Qing Wang, Anna Karydas, Suzee E. Lee, Virginia E. Sturm, Russell P. Sawyer, Adit Friedberg, Justin K. Ichida, Aaron D. Gitler, Leo Sugrue, Michael Cordingley, Walter Bee, Eckard Weber, Joel Kramer, Katherine P. Rankin, Howard J. Rosen, Adam L. Boxer, William W. Seeley, John Ravits, Bruce L. Miller, and Jennifer S. Yokoyama

Subjects

Male, radiogenomics, Neurodegenerative, Medical and Health Sciences, Rare Diseases, Clinical Research, thalamus, C9orf72, Acquired Cognitive Impairment, Genetics, Humans, 2.1 Biological and endogenous factors, Aetiology, Alzheimer's Disease Related Dementias (ADRD), Neurology & Neurosurgery, C9orf72 Protein, Amyotrophic Lateral Sclerosis, Human Genome, Psychology and Cognitive Sciences, neurodegeneration, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Brain Disorders, Frontotemporal Dementia (FTD), Frontotemporal Dementia, Neurological, DNA Transposable Elements, Female, Dementia, Atrophy, transposable elements, ALS

Abstract

Hexanucleotide repeat expansion (HRE) within C9orf72 is the most common genetic cause of frontotemporal dementia (FTD). Thalamic atrophy occurs in both sporadic and familial FTD but is thought to distinctly affect HRE carriers. Separately, emerging evidence suggests widespread de-repression of transposable elements (TEs) in the brain in several neurodegenerative diseases, including C9orf72 HRE-mediated FTD (C9-FTD). Whether TE activation can be measured in peripheral blood and how the reduction in peripheral C9orf72 expression observed in HRE carriers relates to atrophy and clinical impairment remain unknown. We used the FreeSurfer pipeline and its extensions to assess the effects of C9orf72 HRE and clinical diagnosis (n = 78) on atrophy of thalamic nuclei. We also generated a novel, whole-blood RNA-seq dataset to determine the relationships between peripheral C9orf72 expression, TE activation, thalamic atrophy, and clinical severity (n = 114). We confirmed global thalamic atrophy and reduced C9orf72 expression in HRE carriers. Moreover, we identified disproportionate atrophy of the right mediodorsal lateral nucleus in HRE carriers and showed that C9orf72 expression associated with clinical severity, independent of thalamic atrophy. Strikingly, we found global peripheral activation of TEs, including the human endogenous LINE-1 element, L1HS. L1HS levels were associated with atrophy of multiple pulvinar nuclei, a thalamic region implicated in C9-FTD. Integration of peripheral transcriptomic and neuroimaging data from HRE carriers revealed atrophy of specific thalamic nuclei; demonstrated that C9orf72 levels relate to clinical severity; and identified marked de-repression of TEs, including L1HS, which predicted atrophy of FTD-relevant thalamic nuclei.Significance StatementPathogenic repeat expansion in C9orf72 is the most frequent genetic cause of frontotemporal dementia and amyotrophic lateral sclerosis (C9-FTD/ALS). The clinical, neuroimaging, and pathological features of C9-FTD/ALS are well-characterized, whereas the intersections of transcriptomic dysregulation and brain structure remain largely unexplored. Herein, we utilized a novel radiogenomic approach to examine the relationship between peripheral blood transcriptomics and thalamic atrophy, a neuroimaging feature disproportionately impacted in C9-FTD/ALS. We confirmed reduction of C9orf72 in blood and found broad dysregulation of transposable elements—genetic elements typically repressed in the human genome—in symptomatic C9orf72 expansion carriers, which associated with atrophy of thalamic nuclei relevant to FTD. C9orf72 expression was also associated with clinical severity, suggesting that peripheral C9orf72 levels capture disease-relevant information.

Published

2023

10. Single-cell RNA-seq reveals alterations in peripheralCX3CR1and nonclassical monocytes in familial tauopathy

Author

Daniel W. Sirkis, Caroline Warly Solsberg, Taylor P. Johnson, Luke W. Bonham, Virginia E. Sturm, Suzee E. Lee, Katherine P. Rankin, Howard J. Rosen, Adam L. Boxer, William W. Seeley, Bruce L. Miller, Ethan G. Geier, and Jennifer S. Yokoyama

Abstract

BackgroundEmerging evidence from mouse models is beginning to elucidate the brain’s immune response to tau pathology, but little is known about the nature of this response in humans. In addition, it remains unclear to what extent tau pathology and the local inflammatory response within the brain influence the broader immune system.MethodsTo address these questions, we performed single-cell RNA sequencing (scRNA-seq) of peripheral blood mononuclear cells (PBMCs) from carriers of pathogenic variants inMAPT, the gene encoding tau.ResultsAnalysis of ∼181,000 individual PBMC transcriptomes fromMAPTpathogenic variant carriers (n= 8) and healthy non-carrier controls (n= 8) demonstrated striking differential expression in monocytes and natural killer (NK) cells. We observed a marked reduction in the expression ofCX3CR1– the gene encoding the fractalkine receptor that is known to modulate tau pathology in mouse models – in monocytes and NK cells. We also observed a significant reduction in the abundance of nonclassical monocytes and dysregulated expression of nonclassical monocyte marker genes, includingFCGR3A. Finally, we identified reductions inTMEM176AandTMEM176B, genes thought to be involved in the inflammatory response in human microglia. We confirmed differential expression of select biologically relevant genes dysregulated in our scRNA-seq data using droplet digital PCR as an orthogonal technique for quantitative validation.ConclusionsOur results suggest that human peripheral immune cell expression and abundance are modulated by tau-associated pathophysiologic changes.CX3CR1and nonclassical monocytes in particular will be a focus of future work exploring the role of these peripheral signals in additional tau-associated neurodegenerative diseases.

Published

2022

11. Radiogenomics of

Author

Luke W, Bonham, Ethan G, Geier, Daniel W, Sirkis, Josiah K, Leong, Eliana Marisa, Ramos, Qing, Wang, Anna, Karydas, Suzee E, Lee, Virginia E, Sturm, Russell P, Sawyer, Adit, Friedberg, Justin K, Ichida, Aaron D, Gitler, Leo, Sugrue, Michael, Cordingley, Walter, Bee, Eckard, Weber, Joel, Kramer, Katherine P, Rankin, Howard J, Rosen, Adam L, Boxer, William W, Seeley, John, Ravits, Bruce L, Miller, and Jennifer S, Yokoyama

Abstract

Hexanucleotide repeat expansion (HRE) within

Published

2022

12. Genetic pleiotropy and the shared pathological features of corticobasal degeneration and progressive supranuclear palsy: a case report and a review of the literature

Author

James Rini, Jennifer S. Yokoyama, Salvatore Spina, Joel H. Kramer, Bruce L. Miller, Ethan G. Geier, Adam L. Boxer, Breton M Asken, and Katherine P. Rankin

Subjects

05 social sciences, Neuropathology, Biology, medicine.disease, eye diseases, 050105 experimental psychology, Progressive supranuclear palsy, 03 medical and health sciences, 0302 clinical medicine, Pleiotropy (drugs), Arts and Humanities (miscellaneous), medicine, Genetic Pleiotropy, Corticobasal degeneration, 0501 psychology and cognitive sciences, Neurology (clinical), Neuroscience, Pathological, 030217 neurology & neurosurgery, Frontotemporal dementia

Abstract

Though distinct pathological entities, corticobasal degeneration (CBD) and progressive supranuclear palsy (PSP) share multiple biochemical and genetic features suggesting overlapping pathophysiolog...

Published

2021

13. TSC1 loss increases risk for tauopathy by inducing tau acetylation and preventing tau clearance via chaperone-mediated autophagy

Author

Dennis W. Dickson, Jennifer S. Yokoyama, Alma L. Burlingame, Eliana Marisa Ramos, Carolina Alquezar, Gerard D. Schellenberg, Beth A. Dombroski, Ana Maria Cuervo, Kathleen M. Schoch, Aimee W. Kao, Aurora Scrivo, Elisabeth E. Mlynarski, Ethan G. Geier, Michael DeTure, Bruce L. Miller, Andrea R. Argouarch, Kathy H. Li, and Timothy M. Miller

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, Mutation, Multidisciplinary, Chemistry, SciAdv r-articles, medicine.disease, medicine.disease_cause, Cell biology, medicine.anatomical_structure, Chaperone-mediated autophagy, Acetylation, Cellular Neuroscience, mental disorders, medicine, TSC1, Tauopathy, Gene, Intracellular, Research Article, Neuroscience

Abstract

Description, TSC1/hamartin haploinsufficiency increases risk for tauopathy by promoting tau acetylation and accumulation., Age-associated neurodegenerative disorders demonstrating tau-laden intracellular inclusions are known as tauopathies. We previously linked a loss-of-function mutation in the TSC1 gene to tau accumulation and frontotemporal lobar degeneration. Now, we have identified genetic variants in TSC1 that decrease TSC1/hamartin levels and predispose to tauopathies such as Alzheimer’s disease and progressive supranuclear palsy. Cellular and murine models of TSC1 haploinsufficiency, as well as human brains carrying a TSC1 risk variant, accumulated tau protein that exhibited aberrant acetylation. This acetylation hindered tau degradation via chaperone-mediated autophagy, thereby leading to its accumulation. Aberrant tau acetylation in TSC1 haploinsufficiency resulted from the dysregulation of both p300 acetyltransferase and SIRT1 deacetylase. Pharmacological modulation of either enzyme restored tau levels. This study substantiates TSC1 as a novel tauopathy risk gene and includes TSC1 haploinsufficiency as a genetic model for tauopathies. In addition, these findings promote tau acetylation as a rational target for tauopathy therapeutics and diagnostic.

Published

2021

14. Genetic origin of a large family with a novel PSEN1 mutation (Ile416Thr)

Author

Lucia Madrigal, Margarita Giraldo, Ana Baena, Kenneth S. Kosik, J. Nicholas Cochran, Yakeel T. Quiroz, G. Garcia, Amanda Saldarriaga, Richard M. Myers, Daniel Camilo Aguirre-Acevedo, Ethan G. Geier, David Aguillon, Juliana Acosta-Uribe, Laura Ramirez Aguilar, Francisco Lopera, Jennifer S. Yokoyama, Rosario Cuastumal, Alexander Navarro, Sonia Moreno, and Diana Alzate

Subjects

Male, 0301 basic medicine, Aging, Epidemiology, Neurodegenerative, Alzheimer's Disease, Genetic analysis, Admixture in Latin America, 0302 clinical medicine, PSEN1, 2.1 Biological and endogenous factors, Missense mutation, Aetiology, Age of Onset, Autosomal dominant Alzheimer's disease, Genetics, education.field_of_study, Presenilin 1, Health Policy, Founder effect, Genetic Bottleneck, Middle Aged, Psychiatry and Mental health, Phenotype, Neurological, Mutation (genetic algorithm), Female, Adult, Clinical Sciences, Population, Mutation, Missense, Colombia, Biology, Article, 03 medical and health sciences, Cellular and Molecular Neuroscience, Developmental Neuroscience, Genetic drift, Alzheimer Disease, Acquired Cognitive Impairment, Presenilin-1, Humans, education, Whole Genome Sequencing, Human Genome, Haplotype, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Brain Disorders, 030104 developmental biology, Phenotype genotype correlation, Geriatrics, Mutation, Dementia, Neurology (clinical), Missense, Geriatrics and Gerontology, 030217 neurology & neurosurgery

Abstract

Introduction A small percentage of Alzheimer's disease (AD) cases are caused by genetic mutations with autosomal dominant inheritance. We report a family with a novel variant in PSEN1. Methods We performed clinical and genetic evaluation of 93 related individuals from a Colombian admixed population. 31 individuals had whole-genome sequencing. Results Genetic analysis revealed a missense variant in PSEN1 (NM_000021.3: c.1247T>C p.Ile416Thr), which originated on an African haplotype and segregated with AD logarithm of the odds score of 6. Their clinical phenotype is similar to sporadic AD except for earlier age at onset: the mean age at onset for mild cognitive impairment was 47.6 years (standard deviation 5.83) and for dementia 51.6 years (standard deviation 5.03). Discussion Ile416Thr is a novel pathogenic variant that causes AD in the sixth decade of life. The history of the region that included slave importation and admixtures within a confined geographic locale represents a "mini-population bottleneck" and subsequent emergence of a rare dominant mutation.

Published

2019

15. Recent Advances in the Genetics of Frontotemporal Dementia

Author

Ethan G. Geier, Jennifer S. Yokoyama, Luke W. Bonham, Daniel W. Sirkis, and Celeste M. Karch

Subjects

0301 basic medicine, autophagy, leukodystrophy, Aging, Disease, Neurodegenerative, 030105 genetics & heredity, Biology, Frontotemporal lobar degeneration, Article, 03 medical and health sciences, lysosomes, Rare Diseases, C9orf72, mental disorders, Genetic variation, Genetics, Acquired Cognitive Impairment, medicine, Genetic Pleiotropy, 2.1 Biological and endogenous factors, Genetic Testing, Aetiology, Alzheimer's Disease Related Dementias (ADRD), Inflammation, TREM2, Prevention, Human Genome, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), nutritional and metabolic diseases, General Medicine, medicine.disease, Human genetics, Brain Disorders, nervous system diseases, Frontotemporal Dementia (FTD), 030104 developmental biology, Neurological, Dementia, Frontotemporal dementia

Abstract

PURPOSE OF REVIEW: In this review we highlight recent advances in the human genetics of frontotemporal dementia (FTD). In addition to providing a broad survey of genes implicated in FTD in the last several years, we also discuss variation in genes implicated in both hereditary leukodystrophies and risk for FTD (e.g., TREM2, TMEM106B, CSF1R, AARS2, NOTCH3). RECENT FINDINGS: Over the past five years, genetic variation in approximately 50 genes has been confirmed or suggested to cause or influence risk for FTD and FTD-spectrum disorders. We first give background and discuss recent findings related to C9ORF72, GRN and MAPT, the genes most commonly implicated in FTD. We then provide a broad overview of other FTD-associated genes and go on to discuss new findings in FTD genetics in East Asian populations, including pathogenic variation in CHCHD10, which may represent a frequent cause of disease in Chinese populations. Finally, we consider recent insights gleaned from genome-wide association and genetic pleiotropy studies. SUMMARY: Recent genetic discoveries highlight cellular pathways involving autophagy, the endolysosomal system and neuroinflammation, and reveal an intriguing overlap between genes that confer risk for leukodystrophy and FTD.

Published

2019

16. TSC1 loss-of-function increases risk for tauopathy by inducing tau acetylation and preventing autophagy-mediated tau clearance

Author

Jennifer S. Yokoyama, Ka Wan Li, Elisabeth E. Mlynarski, Aurora Scrivo, Ethan G. Geier, Aimee W. Kao, Alma L. Burlingame, Bruce L. Miller, Ana Maria Cuervo, Carolina Alquezar, Schellenberg Gd, Kathleen M. Schoch, Eliana Marisa Ramos, Timothy M. Miller, Beth A. Dombroski, and Andrea R. Argouarch

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, biology, Tau protein, Autophagy, Frontotemporal lobar degeneration, medicine.disease, Progressive supranuclear palsy, Cell biology, medicine.anatomical_structure, mental disorders, Genetic model, biology.protein, medicine, TSC1, Tauopathy, Haploinsufficiency

Abstract

Age-associated neurodegenerative disorders demonstrating tau-laden intracellular inclusions, including Alzheimer’s disease (AD), frontotemporal lobar degeneration (FTLD) and progressive supranuclear palsy (PSP), are collectively known as tauopathies. The vast majority of human tauopathies accumulate non-mutant tau rather than mutant forms of the protein, yet cell and animal models for non-mutant tauopathies are lacking. We previously linked a monoallelic mutation in the TSC1 gene to tau accumulation and FTLD. Now, we have identified new variants in TSC1 that predisposed to other tauopathies such as AD and PSP. These new TSC1 risk variants significantly decreased the half-life of TSC1/hamartin in vitro. Cellular and murine models of TSC1 haploinsufficiency (TSC1+/-) accumulated tau protein that exhibited aberrant acetylation on six lysine residues. Tau acetylation hindered its lysosomal degradation via chaperone-mediated autophagy leading to neuronal tau accumulation. Enhanced tau acetylation in TSC1+/- models was achieved through both an increase in p300 acetyltransferase activity and a decrease in SIRT1 deacetylase levels. Pharmacological modulation of either enzyme restored tau levels. Together, these studies substantiate TSC1 as a novel tauopathy risk gene and advance TSC1 haploinsufficiency as a new genetic model for tauopathy. In addition, these results promote acetylated tau as a rational target for diagnostic and therapeutic modalities in multiple tauopathies.

Published

2020

17. SVIP is a molecular determinant of lysosomal dynamic stability, neurodegeneration and lifespan

Author

Brian O. Orr, Graeme W. Davis, Armen J. Moughamian, Bruce L. Miller, Alyssa E. Johnson, Ethan G. Geier, Richard D. Fetter, Jennifer S. Yokoyama, and Logan A. Primeaux

Subjects

0301 basic medicine, Aging, General Physics and Astronomy, Neurodegenerative, medicine.disease_cause, Muscular Dystrophies, Animals, Genetically Modified, Limb-Girdle, 0302 clinical medicine, Valosin Containing Protein, Missense mutation, 2.1 Biological and endogenous factors, Drosophila Proteins, Amyotrophic lateral sclerosis, Muscular dystrophy, Aetiology, Mutation, Multidisciplinary, Neurodegeneration, Neurodegenerative Diseases, Cell biology, Drosophila melanogaster, Mechanisms of disease, Frontotemporal Dementia, Neurological, Protein Binding, Science, Longevity, Context (language use), Genetically Modified, Biology, General Biochemistry, Genetics and Molecular Biology, Inclusion Body, Article, Myositis, Inclusion Body, 03 medical and health sciences, Rare Diseases, medicine, Animals, Humans, Myositis, Animal, Amyotrophic Lateral Sclerosis, Neurosciences, Membrane Proteins, General Chemistry, Phosphate-Binding Proteins, medicine.disease, Pathogenicity, Osteitis Deformans, Disease Models, Animal, 030104 developmental biology, Muscular Dystrophies, Limb-Girdle, Musculoskeletal, Disease Models, Generic health relevance, Lysosomes, 030217 neurology & neurosurgery, Intracellular organelles

Abstract

Missense mutations in Valosin-Containing Protein (VCP) are linked to diverse degenerative diseases including IBMPFD, amyotrophic lateral sclerosis (ALS), muscular dystrophy and Parkinson’s disease. Here, we characterize a VCP-binding co-factor (SVIP) that specifically recruits VCP to lysosomes. SVIP is essential for lysosomal dynamic stability and autophagosomal–lysosomal fusion. SVIP mutations cause muscle wasting and neuromuscular degeneration while muscle-specific SVIP over-expression increases lysosomal abundance and is sufficient to extend lifespan in a context, stress-dependent manner. We also establish multiple links between SVIP and VCP-dependent disease in our Drosophila model system. A biochemical screen identifies a disease-causing VCP mutation that prevents SVIP binding. Conversely, over-expression of an SVIP mutation that prevents VCP binding is deleterious. Finally, we identify a human SVIP mutation and confirm the pathogenicity of this mutation in our Drosophila model. We propose a model for VCP disease based on the differential, co-factor-dependent recruitment of VCP to intracellular organelles., Valosin-Containing Protein (VCP) is linked to diverse degenerative diseases. Here, the authors show that Small VCP Interacting Protein (SVIP) recruits VCP to lysosomes, with gain and loss of SVIP muscle expression modifying neural degeneration, animal behaviour and lifespan.

Published

2020

18. Expression and splicing of ABC and SLC transporters in the human blood-brain barrier measured with RNAseq

Author

Ethan G. Geier, Wolfgang Sadee, Audrey C. Papp, Adam Suhy, and Amy Webb

Subjects

0301 basic medicine, SLC47A1, Abcg2, Gene Expression, Pharmaceutical Science, ATP-binding cassette transporter, Polymerase Chain Reaction, Transcriptome, 03 medical and health sciences, Gene expression, Humans, Protein Isoforms, RNA, Messenger, Solute Carrier Proteins, biology, Alternative splicing, Brain, Endothelial Cells, Membrane Transport Proteins, RNA, Transporter, Molecular biology, Alternative Splicing, 030104 developmental biology, Blood-Brain Barrier, Microvessels, cardiovascular system, biology.protein, ATP-Binding Cassette Transporters

Abstract

The blood-brain barrier (BBB) expresses numerous membrane transporters that supply needed nutrients to the central nervous system (CNS), consisting mostly of solute carriers (SLC transporters), or remove unwanted substrates via extrusion pumps through the action of ATP binding cassette (ABC) transporters. Previous work has identified many BBB transporters using hybridization arrays or qRT-PCR, using targeted probes. Here we have performed next-generation sequencing of the transcriptome (RNAseq) extracted from cerebral cortex tissues and brain microvessel endothelial cells (BMEC) obtained from two donors. The same RNA samples had previously been measured for transporter expression using qRT-PCR (Geier et al., 2013), yielding similar expression levels for overlapping mRNAs (R=0.66, p

Published

2017

19. Non-coding and Loss-of-Function Coding Variants in TET2 are Associated with Multiple Neurodegenerative Diseases

Author

Erik D. Roberson, Michelle L. Thompson, Ethan G. Geier, Bruce L. Miller, Brittany N. Lasseigne, Michelle D. Amaral, Anna Karydas, Richard M. Myers, Gil D. Rabinovici, Luke W. Bonham, J Scott Newberry, Alzheimer’s Disease Neuroimaging Initiative, Jennifer S. Yokoyama, Gregory M. Cooper, and J. Nicholas Cochran

Subjects

0301 basic medicine, Male, amyotrophic lateral sclerosis, Aging, Disease, Neurodegenerative, Alzheimer's Disease, frontotemporal dementia, Medical and Health Sciences, Mice, 0302 clinical medicine, Cognition, Loss of Function Mutation, 80 and over, 2.1 Biological and endogenous factors, Amyotrophic lateral sclerosis, Aetiology, Genetics (clinical), Genetics, Genetics & Heredity, Aged, 80 and over, 0303 health sciences, Neurodegeneration, FTD, Neurodegenerative Diseases, Biological Sciences, 3. Good health, genome sequencing, DNA-Binding Proteins, Frontotemporal Dementia, DNA methylation, Neurological, Female, Frontotemporal dementia, Biology, DNA sequencing, Article, Dioxygenases, 03 medical and health sciences, Alzheimer Disease, Proto-Oncogene Proteins, medicine, Acquired Cognitive Impairment, non-coding, Animals, Humans, Letters to the Editor, Loss function, 030304 developmental biology, Aged, TET2, Prevention, Human Genome, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), AD, Odds ratio, Alzheimer’s Disease Neuroimaging Initiative, medicine.disease, Brain Disorders, 030104 developmental biology, Alzheimer, Dementia, ALS, 030217 neurology & neurosurgery

Abstract

We conducted genome sequencing to search for rare variation contributing to early onset Alzheimer’s disease (EOAD) and frontotemporal dementia (FTD). Discovery analysis was conducted on 493 cases and 671 controls of European ancestry. Burden testing for rare variation associated with disease was conducted using filters based on variant rarity (less than 1 in 10,000 or private), computational prediction of deleteriousness (CADD 10 or 15 thresholds), and molecular function (protein loss-of-function only, coding alteration only, or coding plus non-coding variants in experimentally predicted regulatory regions).Replication analysis was conducted on 16,871 independent cases and 15,941 independent controls. Rare variants in TET2 were enriched in the discovery combined EOAD and FTD cohort (p=6.5×10−8, genome-wide corrected p=0.0037). Most of these variants were canonical loss-of-function or non-coding in predicted regulatory regions. This enrichment replicated across several cohorts of AD and FTD (replication only p=0.0071). The combined analysis odds ratio was 2.2 (95% CI 1.5–3.2) for AD and FTD. The odds ratio for qualifying non-coding variants considered independently from coding variants was 2.1 (95% CI 1.2–3.9). For loss-of-function variants, the combined odds ratio (for AD, FTD, and amyotrophic lateral sclerosis, which shares clinicopathological overlap with FTD) was 3.2 (95% CI 2.0–5.3). TET2 catalyzes DNA demethylation. Given well-defined changes in DNA methylation that occur during aging, rare variation in TET2 may confer risk for neurodegeneration by altering the homeostasis of key aging-related processes. Additionally, our study emphasizes the relevance of non-coding variation in genetic studies of complex disease.

Published

2019

20. Genome sequencing for early-onset dementia: high diagnostic yield and frequent observation of multiple contributory alleles

Author

Gregory M. Cooper, Michelle L. Thompson, Bryan A. Moyers, Jennifer S. Yokoyama, Michelle D. Amaral, David S. Geldmacher, Elizabeth A. Worthey, Emily C. McKinley, Brittany N. Lasseigne, Meagan Cochran, J. Scott Newberry, Erik D. Roberson, Marissa Natelson Love, Richard M. Myers, J. Nicholas Cochran, Ethan G. Geier, James M.J. Lawlor, David E. Gray, James Holt, and Jeremy W. Prokop

Subjects

Genetics, 0303 health sciences, medicine.medical_specialty, business.industry, medicine.disease, Penetrance, DNA sequencing, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, C9orf72, medicine, Medical genetics, Dementia, Family history, Allele, business, 030217 neurology & neurosurgery, 030304 developmental biology, Frontotemporal dementia

Abstract

We assessed the utility of genome sequencing for early-onset dementia. Participants were selected from a memory disorders clinic. Genome sequencing was performed along withC9orf72repeat expansion testing. All returned sequencing results were Sanger validated clinically. Prior clinical diagnoses included Alzheimer’s disease, frontotemporal dementia, and unspecified dementia. The mean age-of-onset was 54 (41–76). 50% of patients had a strong family history, 37.5% had some, and 12.5% had no known family history. Nine of 32 patients (28%) had a variant defined as pathogenic or likely pathogenic (P/LP) by American College of Medical Genetics standards, including variants inAPP,C9orf72,CSF1R, andMAPT. Nine patients (including three with P/LP variants) harbored established risk alleles with moderate penetrance (odds ratios of about 2–5) inABCA7,AKAP9,GBA,PLD3,SORL1, andTREM2. All six patients harboring these moderate penetrance variants but not P/LP variants also had one or twoAPOEε4 alleles. One patient had twoAPOEε4 alleles with no other established contributors. In total, 16 patients (50%) harbored one or more genetic variants likely to explain symptoms. We identified variants of uncertain significance (VUSs) inABI3, ADAM10, ARSA, GRID2IP, MME, NOTCH3, PLCD1, PSEN1, TM2D3, TNK1, TTC3, and VPS13C, also often along with other variants. In summary, genome sequencing for early-onset dementia demonstrated high utility, with particular advantages where targeted testing may fail such as atypical variant-disease associations or presence of multiple moderate impact alleles. One or more established contributory alleles is often present in early-onset dementia, supporting an oligogenic model.

Published

2019

21. Genome-wide analyses as part of the international FTLD-TDP whole-genome sequencing consortium reveals novel disease risk factors and increases support for immune dysfunction in FTLD

Author

Nigel J. Cairns, Merel O. Mol, Gregory D. Jenkins, Leonard Petrucelli, Nilufer Ertekin-Taner, Stuart Pickering-Brown, Carlos Cruchaga, Edward B. Lee, Jonathan D. Glass, John C. van Swieten, Jonathan D. Rohrer, Keith A. Josephs, Patrizia Rizzu, Johannes Prudlo, Edward D. Huey, Cristina T. Vicente, Shulan Tian, Claire Troakes, Ging-Yuek Robin Hsiung, Julie S. Snowden, Lawrence S. Honig, Jean Paul G. Vonsattel, Yan W. Asmann, Matthis Synofzik, Sigrun Roeber, Jeroen van Rooij, Ralph B. Perkerson, Eric M. Reiman, Charles L. White, Ethan G. Geier, Billie J. Matchett, Robert A. Rissman, Julia Keith, David J. Irwin, Manuela Neumann, Dieter Edbauer, M.-Marsel Mesulam, Jochen Herms, Vivianna M. Van Deerlin, Jordan Grafman, Melissa E. Murray, Oscar L. Lopez, Bernardino Ghetti, Rosa Rademakers, Bradley F. Boeve, Ekaterina Rogaeva, Sara Rollinson, Marla Gearing, Geoffrey L. Ahern, Zachary C. Fogarty, Peter Heutink, Yingxue Ren, Javier Simón-Sánchez, David G. Mann, Bryan K. Woodruff, Ryan J. Uitti, Martin R. Farlow, Lea T. Grinberg, Murray Grossman, Julia Kofler, Ian R. A. Mackenzie, Jennifer S. Yokoyama, Lorne Zinman, Matt Baker, John Q. Trojanowski, Zbigniew K. Wszolek, Cyril Pottier, Changiz Geula, Thomas Arzberger, Dennis W. Dickson, Joanna M. Biernacka, William W. Seeley, Caroline Graff, Olivier Piguet, John B.J. Kwok, Joseph E. Parisi, Safa Al-Sarraj, Harro Seelaar, Elizabeth Christopher, Ronald C. Petersen, Linn Öijerstedt, Anna Karydas, Salvatore Spina, Carlo Wilke, Marka van Blitterswijk, Simon Mead, Janine Diehl-Schmid, Bret M. Evers, David S. Knopman, Kevin F. Bieniek, John R. Hodges, Anthony Batzler, Mariely DeJesus-Hernandez, Elizabeth Finger, Thomas G. Beach, EunRan Suh, Maria Carmela Tartaglia, Sandra Weintraub, Shannon K. McDonnell, Bruce L. Miller, Glenda M. Halliday, Andy King, Eileen H. Bigio, Neill R. Graff-Radford, Richard J. Caselli, and Neurology

Subjects

Male, 0301 basic medicine, Potassium Channels, genetics [Dipeptidyl-Peptidases and Tripeptidyl-Peptidases], genetics [Progranulins], Progranulins, 0302 clinical medicine, Loss of Function Mutation, Risk Factors, genetics [Nerve Tissue Proteins], Genetics, DNA Repeat Expansion, genetics [Potassium Channels], Intracellular Signaling Peptides and Proteins, physiology [Protein Serine-Threonine Kinases], Middle Aged, Frontal Lobe, physiology [Progranulins], metabolism [Frontal Lobe], Frontotemporal Dementia, Female, physiology [Nerve Tissue Proteins], genetics [Frontotemporal Lobar Degeneration], immunology [TDP-43 Proteinopathies], Societies, Scientific, genetics [White People], Nerve Tissue Proteins, genetics [Protein Serine-Threonine Kinases], Single-nucleotide polymorphism, Locus (genetics), Human leukocyte antigen, Protein Serine-Threonine Kinases, physiology [Proteins], Biology, White People, Article, Pathology and Forensic Medicine, 03 medical and health sciences, Cellular and Molecular Neuroscience, HLA-DQ Antigens, immunology [Frontotemporal Lobar Degeneration], Genetic variation, mental disorders, genetics [HLA-DQ Antigens], Humans, Genetic Predisposition to Disease, RNA, Messenger, ddc:610, Allele, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases, Genotyping, Aged, Whole genome sequencing, C9orf72 Protein, biosynthesis [RNA, Messenger], Sequence Analysis, RNA, genetics [TDP-43 Proteinopathies], Proteins, nutritional and metabolic diseases, genetics [Proteins], nervous system diseases, 030104 developmental biology, Genetic marker, TDP-43 Proteinopathies, Human medicine, Neurology (clinical), Frontotemporal Lobar Degeneration, 030217 neurology & neurosurgery, Genome-Wide Association Study

Abstract

Frontotemporal lobar degeneration with neuronal inclusions of the TAR DNA-binding protein 43 (FTLD-TDP) represents the most common pathological subtype of FTLD. We established the international FTLD-TDP whole-genome sequencing consortium to thoroughly characterize the known genetic causes of FTLD-TDP and identify novel genetic risk factors. Through the study of 1131 unrelated Caucasian patients, we estimated that C9orf72 repeat expansions and GRN loss-of-function mutations account for 25.5% and 13.9% of FTLD-TDP patients, respectively. Mutations in TBK1 (1.5%) and other known FTLD genes (1.4%) were rare, and the disease in 57.7% of FTLD-TDP patients was unexplained by the known FTLD genes. To unravel the contribution of common genetic factors to the FTLD-TDP etiology in these patients, we conducted a two-stage association study comprising the analysis of whole-genome sequencing data from 517 FTLD-TDP patients and 838 controls, followed by targeted genotyping of the most associated genomic loci in 119 additional FTLD-TDP patients and 1653 controls. We identified three genome-wide significant FTLD-TDP risk loci: one new locus at chromosome 7q36 within the DPP6 gene led by rs118113626 (p value = 4.82e - 08, OR = 2.12), and two known loci: UNC13A, led by rs1297319 (p value = 1.27e - 08, OR = 1.50) and HLA-DQA2 led by rs17219281 (p value = 3.22e - 08, OR = 1.98). While HLA represents a locus previously implicated in clinical FTLD and related neurodegenerative disorders, the association signal in our study is independent from previously reported associations. Through inspection of our whole-genome sequence data for genes with an excess of rare loss-of-function variants in FTLD-TDP patients (n >= 3) as compared to controls (n = 0), we further discovered a possible role for genes functioning within the TBK1-related immune pathway (e.g., DHX58, TRIM21, IRF7) in the genetic etiology of FTLD-TDP. Together, our study based on the largest cohort of unrelated FTLD-TDP patients assembled to date provides a comprehensive view of the genetic landscape of FTLD-TDP, nominates novel FTLD-TDP risk loci, and strongly implicates the immune pathway in FTLD-TDP pathogenesis.

Published

2019

22. Rare variants in the neuronal ceroid lipofuscinosis gene MFSD8 are candidate risk factors for frontotemporal dementia

Author

Ethan G. Geier, Mathieu Bourdenx, Jennifer S. Yokoyama, Anna Karydas, Suzee E. Lee, Salvatore Spina, J. Nicholas Cochran, Giovanni Coppola, Lea T. Grinberg, Deepika Dokuru, Ana Maria Cuervo, Ji Hye Hwang, Richard M. Myers, Nadia J. Storm, Victoria Van Berlo, Alissa L. Nana, Yadong Huang, Maureen E. Balestra, Bruce L. Miller, Antonio Diaz, Luke W. Bonham, Daniel W. Sirkis, Eliana Marisa Ramos, Silvia P. Russo, and William W. Seeley

Subjects

0301 basic medicine, Male, Pathology, Aging, Neurodegenerative, Alzheimer's Disease, 0302 clinical medicine, C9orf72, Risk Factors, Medicine, 2.1 Biological and endogenous factors, Aetiology, Alzheimer's Disease Related Dementias (ADRD), Neurodegeneration, Frontotemporal lobar degeneration, Middle Aged, Neuronal ceroid lipofuscinosis, Frontotemporal Dementia (FTD), Frontotemporal Dementia, Neurological, Intercellular Signaling Peptides and Proteins, Female, Frontotemporal dementia, medicine.medical_specialty, Clinical Sciences, Article, Pathology and Forensic Medicine, 03 medical and health sciences, Cellular and Molecular Neuroscience, Rare Diseases, Pick Disease of the Brain, Neuronal Ceroid-Lipofuscinoses, Clinical Research, mental disorders, Autophagy, Genetics, Acquired Cognitive Impairment, Dementia, Humans, Genetic Testing, Allele, Genetic Association Studies, Aged, Neurology & Neurosurgery, business.industry, Prevention, Case-control study, Neurosciences, nutritional and metabolic diseases, Membrane Transport Proteins, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), medicine.disease, nervous system diseases, Brain Disorders, 030104 developmental biology, Mutation, Neurology (clinical), Frontotemporal Lobar Degeneration, business, Lysosomes, 030217 neurology & neurosurgery

Abstract

Pathogenic variation in MAPT, GRN, and C9ORF72 accounts for at most only half of frontotemporal lobar degeneration (FTLD) cases with a family history of neurological disease. This suggests additional variants and genes that remain to be identified as risk factors for FTLD. We conducted a case-control genetic association study comparing pathologically diagnosed FTLD patients (n = 94) to cognitively normal older adults (n = 3541), and found suggestive evidence that gene-wide aggregate rare variant burden in MFSD8 is associated with FTLD risk. Because homozygous mutations in MFSD8 cause neuronal ceroid lipofuscinosis (NCL), similar to homozygous mutations in GRN, we assessed rare variants in MFSD8 for relevance to FTLD through experimental follow-up studies. Using post-mortem tissue from middle frontal gyrus of patients with FTLD and controls, we identified increased MFSD8 protein levels in MFSD8 rare variant carriers relative to non-variant carrier patients with sporadic FTLD and healthy controls. We also observedan increase in lysosomal and autophagy-related proteins in MFSD8 rare variant carrier and sporadic FTLD patients relative to controls. Immunohistochemical analysis revealed that MFSD8 was expressed in neurons and astrocytes across subjects, without clear evidence of abnormal localization in patients. Finally, in vitro studies identified marked disruption of lysosomal function in cells from MFSD8 rare variant carriers, and identified one rare variant that significantly increased the cell surface levels of MFSD8. Considering the growing evidence for altered autophagy in the pathogenesis of neurodegenerative disorders, our findings support a role of NCL genes in FTLD risk and suggest that MFSD8-associated lysosomal dysfunction may contribute to FTLD pathology.

Published

2019

23. Age‐dependent effects of APOE ε4 in preclinical Alzheimer's disease

Author

Josiah K. Leong, Chun Chieh Fan, Ole A. Andreassen, Rahul S. Desikan, Gerard D. Schellenberg, John Kornak, Anders M. Dale, Jennifer S. Yokoyama, Lilah M. Besser, Bruce L. Miller, Walter A. Kukull, Howard J. Rosen, William P. Dillon, Ethan G. Geier, Luke W. Bonham, and Christopher P. Hess

Subjects

0301 basic medicine, Gerontology, business.industry, General Neuroscience, Age dependent, 3. Good health, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Medicine, Neurology (clinical), Theology, business, Research Articles, 030217 neurology & neurosurgery, Research Article

Abstract

Objective The ε4 allele of apolipoprotein E (APOE) is the strongest known common genetic risk factor for Alzheimer's disease (AD) and alters age of onset in retrospective studies. Here, we longitudinally test the effects of APOE ε4 genotype and age during progression from normal cognition to AD. Methods Using data from 5381 cognitively normal older individuals and Cox proportional hazards models, we longitudinally tested the effects of APOE genotype on progression from normal cognition to mild cognitive impairment (MCI) or AD in four age strata (

Published

2016

24. Genome sequencing for early-onset or atypical dementia: high diagnostic yield and frequent observation of multiple contributory alleles

Author

David E. Gray, Brittany N. Lasseigne, James Holt, Bryan A. Moyers, Gregory M. Cooper, Michelle L. Thompson, James M.J. Lawlor, David S. Geldmacher, Jennifer S. Yokoyama, Michelle D. Amaral, J. Scott Newberry, Emily C. McKinley, Erik D. Roberson, Jeremy W. Prokop, Elizabeth A. Worthey, Meagan Cochran, Ethan G. Geier, Marissa Natelson Love, J. Nicholas Cochran, and Richard M. Myers

Subjects

Male, Aging, Apolipoprotein E4, Penetrance, Neurodegenerative, Alzheimer's Disease, frontotemporal dementia, 0302 clinical medicine, Risk Factors, Odds Ratio, 2.1 Biological and endogenous factors, Family history, Genetics, 0303 health sciences, Chromosome Mapping, General Medicine, Middle Aged, 3. Good health, Neurological, Medical genetics, Female, Alzheimer's disease, Research Article, Frontotemporal dementia, medicine.medical_specialty, Genomics, DNA sequencing, 03 medical and health sciences, Alzheimer Disease, Clinical Research, Acquired Cognitive Impairment, medicine, Humans, Dementia, Genetic Predisposition to Disease, Alleles, Genetic Association Studies, Aged, 030304 developmental biology, Base Sequence, Whole Genome Sequencing, C9orf72 Protein, business.industry, Prevention, Human Genome, Neurosciences, Genetic Variation, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), medicine.disease, Brain Disorders, business, 030217 neurology & neurosurgery, Genome-Wide Association Study

Abstract

We assessed the results of genome sequencing for early-onset dementia. Participants were selected from a memory disorders clinic. Genome sequencing was performed along with C9orf72 repeat expansion testing. All returned sequencing results were Sanger-validated. Prior clinical diagnoses included Alzheimer's disease, frontotemporal dementia, and unspecified dementia. The mean age of onset was 54 (41–76). Fifty percent of patients had a strong family history, 37.5% had some, and 12.5% had no known family history. Nine of 32 patients (28%) had a variant defined as pathogenic or likely pathogenic (P/LP) by American College of Medical Genetics and Genomics standards, including variants in APP, C9orf72, CSF1R, and MAPT. Nine patients (including three with P/LP variants) harbored established risk alleles with moderate penetrance (odds ratios of ∼2–5) in ABCA7, AKAP9, GBA, PLD3, SORL1, and TREM2. All six patients harboring these moderate penetrance variants but not P/LP variants also had one or two APOE ε4 alleles. One patient had two APOE ε4 alleles with no other established contributors. In total, 16 patients (50%) harbored one or more genetic variants likely to explain symptoms. We identified variants of uncertain significance (VUSs) in ABI3, ADAM10, ARSA, GRID2IP, MME, NOTCH3, PLCD1, PSEN1, TM2D3, TNK1, TTC3, and VPS13C, also often along with other variants. In summary, genome sequencing for early-onset dementia frequently identified multiple established or possible contributory alleles. These observations add support for an oligogenic model for early-onset dementia.

Published

2019

25. P2‐117: ASSOCIATION OF ALZHEIMER'S DISEASE WITH ANDROGEN RECEPTOR VARIANTS AND PLASMA TESTOSTERONE LEVELS IMPLICATES DECREASED TESTOSTERONE SIGNALING IN NEURODEGENERATION

Author

Jennifer S. Yokoyama, Jessie S. Carr, Charles J. Ryan, Ethan G. Geier, Luke W. Bonham, and Alzheimer’s Disease Neuroimaging Initiative

Subjects

medicine.medical_specialty, Epidemiology, business.industry, Health Policy, Neurodegeneration, Testosterone (patch), Disease, medicine.disease, Decreased testosterone, Androgen receptor, Psychiatry and Mental health, Cellular and Molecular Neuroscience, Endocrinology, Developmental Neuroscience, Internal medicine, medicine, Neurology (clinical), Geriatrics and Gerontology, business

Published

2018

26. P4‐240: STOP‐GAIN VARIANT IN MICROGLIA‐EXPRESSED GENE GMIP IS ASSOCIATED WITH EARLY‐ONSET ALZHEIMER'S DISEASE

Author

Isabel Santana, Carlos Cruchaga, Sven J. van der Lee, Keeley J. Brookes, John Hardy, Adgc, Joshua C. Bis, Adam C. Naj, Jose Bras, Miguel Pereira, Wiesje M. Flier, Lenore J. Launer, Bruce L. Miller, Valerio Napolioni, Susana Carmona, Gerard D. Schellenberg, Tamar Guetta-Baranes, Henne Holstege, Yuning Chen, Joel H. Kramer, Richard H. Myers, Rita Guerreiro, Anna Karydas, Jennifer S. Yokoyama, J. Nicholas Cochran, Michael D. Greicius, Sudha Seshadri, Yongha Kim, James Turton, Sultan Chaudhury, Gil D. Rabinovici, Raiyan R. Khan, Ethan G. Geier, Kevin Morgan, Cornelia M. van Duijn, Simon Mead, Maria Victoria Fernandez, Summer S. Han, Marc Hulsman, Jason A. Chen, Andre Altmann, and Giovanni Coppola

Subjects

Microglia, Epidemiology, business.industry, Health Policy, medicine.disease, Psychiatry and Mental health, Cellular and Molecular Neuroscience, medicine.anatomical_structure, Developmental Neuroscience, Gene expression, Immunology, medicine, Early-onset Alzheimer's disease, Neurology (clinical), Geriatrics and Gerontology, business

Published

2018

27. Phase I Study of Vorinostat as a Radiation Sensitizer with 131I-Metaiodobenzylguanidine (131I-MIBG) for Patients with Relapsed or Refractory Neuroblastoma

Author

Eugene C. Chen, Kathleen M. Giacomini, Fariba Goodarzian, Brian Weiss, Ethan G. Geier, Katherine K. Matthay, Randall A. Hawkins, Hollie A. Jackson, Susan L. Cohn, M. Meaghan Granger, Gregory A. Yanik, Xiaodong Yang, Jesse Courtier, Araz Marachelian, Steven G. DuBois, Denice D. Tsao-Wei, Julie R. Park, Judith G. Villablanca, S. Groshen, Daphne A. Haas-Kogan, Scarlett Czarnecki, and Hiroyuki Shimada

Subjects

Male, Radiation-Sensitizing Agents, Cancer Research, Hydroxamic Acids, 3-Iodobenzylguanidine, Iodine Radioisotopes, Histones, Neuroblastoma, Child, Cancer, Pediatric, Vorinostat, Histone deacetylase inhibitor, Acetylation, Middle Aged, Hypokalemia, Treatment Outcome, Local, Oncology, 6.1 Pharmaceuticals, Female, Drug Monitoring, medicine.symptom, medicine.drug, Adult, medicine.medical_specialty, Adolescent, Pediatric Cancer, medicine.drug_class, Clinical Trials and Supportive Activities, Oncology and Carcinogenesis, Urology, Neutropenia, Young Adult, Rare Diseases, Refractory, Clinical Research, medicine, Humans, Oncology & Carcinogenesis, Preschool, Aged, Norepinephrine Plasma Membrane Transport Proteins, business.industry, Neurosciences, Evaluation of treatments and therapeutic interventions, medicine.disease, Regimen, Neoplasm Recurrence, Nuclear medicine, business

Abstract

Purpose: 131I-metaiodobenzylguanidine (MIBG) is a radiopharmaceutical with activity in neuroblastoma. Vorinostat is a histone deacetylase inhibitor that has radiosensitizing properties. The goal of this phase I study was to determine the MTDs of vorinostat and MIBG in combination. Experimental Design: Patients ≤ 30 years with relapsed/refractory MIBG-avid neuroblastoma were eligible. Patients received oral vorinostat (dose levels 180 and 230 mg/m2) daily days 1 to 14. MIBG (dose levels 8, 12, 15, and 18 mCi/kg) was given on day 3 and peripheral blood stem cells on day 17. Alternating dose escalation of vorinostat and MIBG was performed using a 3+3 design. Results: Twenty-seven patients enrolled to six dose levels, with 23 evaluable for dose escalation. No dose-limiting toxicities (DLT) were seen in the first three dose levels. At dose level 4 (15 mCi/kg MIBG/230 mg/m2 vorinostat), 1 of 6 patients had DLT with grade 4 hypokalemia. At dose level 5 (18 mCi/kg MIBG/230 mg/m2 vorinostat), 2 patients had dose-limiting bleeding (one grade 3 and one grade 5). At dose level 5a (18 mCi/kg MIBG/180 mg/m2 vorinostat), 0 of 6 patients had DLT. The most common toxicities were neutropenia and thrombocytopenia. The response rate was 12% across all dose levels and 17% at dose level 5a. Histone acetylation increased from baseline in peripheral blood mononuclear cells collected on days 3 and 12 to 14. Conclusions: Vorinostat at 180 mg/m2/dose is tolerable with 18 mCi/kg MIBG. A phase II trial comparing this regimen to single-agent MIBG is ongoing. Clin Cancer Res; 21(12); 2715–21. ©2015 AACR.

Published

2015

28. Targeted Disruption of Organic Cation Transporter 3 Attenuates the Pharmacologic Response to Metformin

Author

Ethan G. Geier, Eugene C. Chen, Sook Wah Yee, Kathleen M. Giacomini, Xiaomin Liang, Sophie L. Stocker, and Ligong Chen

Subjects

Male, endocrine system diseases, Adipose tissue, Pharmacology, Mice, AMP-activated protein kinase, Tissue Distribution, Pharmacology & Pharmacy, 3' Untranslated Regions, Mice, Knockout, Tumor, Organic cation transport proteins, biology, Diabetes, Articles, Skeletal, Single Nucleotide, Hep G2 Cells, Pharmacology and Pharmaceutical Sciences, Metformin, Healthy Volunteers, Adipose Tissue, Knockout mouse, Muscle, Molecular Medicine, Injections, Intraperitoneal, medicine.drug, medicine.medical_specialty, Organic Cation Transport Proteins, Knockout, Biological Availability, Polymorphism, Single Nucleotide, SLC22A3, Cell Line, Injections, Pharmacokinetics, Cell Line, Tumor, Internal medicine, medicine, Animals, Humans, Hypoglycemic Agents, Intraperitoneal, Polymorphism, Muscle, Skeletal, Neurosciences, Glucose transporter, nutritional and metabolic diseases, HCT116 Cells, Glucose, Endocrinology, Gene Expression Regulation, biology.protein, Biochemistry and Cell Biology

Abstract

Copyright © 2015 by The American Society for Pharmacology and Experimental Therapeutics. Metformin, the most widely prescribed antidiabetic drug, requires transporters to enter tissues involved in its pharmacologic action, including liver, kidney, and peripheral tissues. Organic cation transporter 3 (OCT3, SLC22A3), expressed ubiquitously, transports metformin, but its in vivo role in metformin response is not known. Using Oct3 knockout mice, the role of the transporter in metformin pharmacokinetics and pharmacodynamics was determined. After an intravenous dose of metformin, a 2-fold decrease in the apparent volume of distribution and clearance was observed in knockout compared with wild-type mice (P < 0.001), indicating an important role of OCT3 in tissue distribution and elimination of the drug. After oral doses, a significantly lower bioavailability was observed in knockout compared with wild-type mice (0.27 versus 0.58, P < 0.001). Importantly, metformin's effect on the plasma glucose concentration-time curve was reduced in knockout compared with wild-type mice (12 versus 30% reduction, respectively, P < 0.05) along with its accumulation in skeletal muscle and adipose tissue (P < 0.05). Furthermore, the effect of metformin on phosphorylation of AMP activated protein kinase, and expression of glucose transporter type 4 was absent in the adipose tissue of Oct3-/-mice. Additional analysis revealed that an OCT3 3′ untranslated region variant was associated with reduced activity in luciferase assays and reduced response to metformin in 57 healthy volunteers. These findings suggest that OCT3 plays an important role in the absorption and elimination of metformin and that the transporter is a critical determinant of metformin bioavailability, clearance, and pharmacologic action.

Published

2015

29. [P2–118]: FINE‐MAPPING OF THE HUMAN LEUKOCYTE ANTIGEN (HLA) LOCUS AS A RISK FACTOR FOR ALZHEIMER'S DISEASE

Author

John S. K. Kauwe, Jill A. Hollenbach, Kevin L. Boehme, Giovanni Coppola, Paul K. Crane, Bruce L. Miller, Shubhabrata Mukherjee, Zachary A. Miller, Rahul S. Desikan, Joel H. Kramer, Jessie S. Carr, Luke W. Bonham, Ethan G. Geier, Jennifer S. Yokoyama, Natasha Z.R. Steele, Vincent Damotte, and Yadong Huang

Subjects

Epidemiology, business.industry, Health Policy, Locus (genetics), Human leukocyte antigen, Disease, Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Immunology, Medicine, Neurology (clinical), Geriatrics and Gerontology, business

Published

2017

30. Fine-mapping of the human leukocyte antigen locus as a risk factor for Alzheimer disease: A case-control study

Author

John S. K. Kauwe, Paul K. Crane, Kevin L. Boehme, Zachary A. Miller, Jessie S. Carr, Rahul S. Desikan, Giovanni Coppola, Bruce L. Miller, Joel H. Kramer, Vincent Damotte, Yadong Huang, Jennifer S. Yokoyama, Natasha Z.R. Steele, Jill A. Hollenbach, Luke W. Bonham, Shubhabrata Mukherjee, Ethan G. Geier, and Brayne, Carol

Subjects

0301 basic medicine, Oncology, Apolipoprotein E, Male, Aging, Heredity, Physiology, Neurodegenerative, Pathology and Laboratory Medicine, Alzheimer's Disease, Biochemistry, Nervous System, Medical and Health Sciences, Major Histocompatibility Complex, 0302 clinical medicine, HLA Antigens, Risk Factors, Medicine and Health Sciences, 80 and over, 2.1 Biological and endogenous factors, Cognitive decline, Aetiology, Immune Response, Cerebrospinal Fluid, Aged, 80 and over, Cognitive Impairment, Cognitive Neurology, Chromosome Mapping, Neurodegenerative Diseases, General Medicine, Middle Aged, Body Fluids, 3. Good health, Genetic Mapping, Neurology, Neurological, Medicine, Biomarker (medicine), Female, Anatomy, Alzheimer's disease, Research Article, medicine.medical_specialty, Cognitive Neuroscience, Immunology, Human leukocyte antigen, 03 medical and health sciences, Signs and Symptoms, Diagnostic Medicine, Alzheimer Disease, Clinical Research, Internal medicine, General & Internal Medicine, Mental Health and Psychiatry, medicine, Acquired Cognitive Impairment, Genetics, Humans, Aged, Inflammation, business.industry, Haplotype, Human Genome, Case-control study, Neurosciences, Biology and Life Sciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Odds ratio, medicine.disease, United States, Brain Disorders, 030104 developmental biology, Haplotypes, Case-Control Studies, Genetics of Disease, Cognitive Science, Clinical Immunology, San Francisco, Dementia, Clinical Medicine, business, Biomarkers, 030217 neurology & neurosurgery, Neuroscience

Abstract

Background Alzheimer disease (AD) is a progressive disorder that affects cognitive function. There is increasing support for the role of neuroinflammation and aberrant immune regulation in the pathophysiology of AD. The immunoregulatory human leukocyte antigen (HLA) complex has been linked to susceptibility for a number of neurodegenerative diseases, including AD; however, studies to date have failed to consistently identify a risk HLA haplotype for AD. Contributing to this difficulty are the complex genetic organization of the HLA region, differences in sequencing and allelic imputation methods, and diversity across ethnic populations. Methods and findings Building on prior work linking the HLA to AD, we used a robust imputation method on two separate case–control cohorts to examine the relationship between HLA haplotypes and AD risk in 309 individuals (191 AD, 118 cognitively normal [CN] controls) from the San Francisco-based University of California, San Francisco (UCSF) Memory and Aging Center (collected between 1999–2015) and 11,381 individuals (5,728 AD, 5,653 CN controls) from the Alzheimer’s Disease Genetics Consortium (ADGC), a National Institute on Aging (NIA)-funded national data repository (reflecting samples collected between 1984–2012). We also examined cerebrospinal fluid (CSF) biomarker measures for patients seen between 2005–2007 and longitudinal cognitive data from the Alzheimer’s Disease Neuroimaging Initiative (n = 346, mean follow-up 3.15 ± 2.04 y in AD individuals) to assess the clinical relevance of identified risk haplotypes. The strongest association with AD risk occurred with major histocompatibility complex (MHC) haplotype A*03:01~B*07:02~DRB1*15:01~DQA1*01:02~DQB1*06:02 (p = 9.6 x 10−4, odds ratio [OR] [95% confidence interval] = 1.21 [1.08–1.37]) in the combined UCSF + ADGC cohort. Secondary analysis suggested that this effect may be driven primarily by individuals who are negative for the established AD genetic risk factor, apolipoprotein E (APOE) ɛ4. Separate analyses of class I and II haplotypes further supported the role of class I haplotype A*03:01~B*07:02 (p = 0.03, OR = 1.11 [1.01–1.23]) and class II haplotype DRB1*15:01- DQA1*01:02- DQB1*06:02 (DR15) (p = 0.03, OR = 1.08 [1.01–1.15]) as risk factors for AD. We followed up these findings in the clinical dataset representing the spectrum of cognitively normal controls, individuals with mild cognitive impairment, and individuals with AD to assess their relevance to disease. Carrying A*03:01~B*07:02 was associated with higher CSF amyloid levels (p = 0.03, β ± standard error = 47.19 ± 21.78). We also found a dose-dependent association between the DR15 haplotype and greater rates of cognitive decline (greater impairment on the 11-item Alzheimer’s Disease Assessment Scale cognitive subscale [ADAS11] over time [p = 0.03, β ± standard error = 0.7 ± 0.3]; worse forgetting score on the Rey Auditory Verbal Learning Test (RAVLT) over time [p = 0.02, β ± standard error = −0.2 ± 0.06]). In a subset of the same cohort, dose of DR15 was also associated with higher baseline levels of chemokine CC-4, a biomarker of inflammation (p = 0.005, β ± standard error = 0.08 ± 0.03). The main study limitations are that the results represent only individuals of European-ancestry and clinically diagnosed individuals, and that our study used imputed genotypes for a subset of HLA genes. Conclusions We provide evidence that variation in the HLA locus—including risk haplotype DR15—contributes to AD risk. DR15 has also been associated with multiple sclerosis, and its component alleles have been implicated in Parkinson disease and narcolepsy. Our findings thus raise the possibility that DR15-associated mechanisms may contribute to pan-neuronal disease vulnerability., In a case–control study, Jennifer Yokoyama and colleagues present fine-mapping of the human leukocyte antigen genetic region to identify haplotypes associated with Alzheimer disease., Author summary Why was this study done? The human leukocyte antigen (HLA) region of the human genome encodes proteins that play an important role for the function of the immune system. Previous large genetic association studies have shown strong links between genes in this region and risk for Alzheimer disease. Although it is clear that the HLA region is linked to Alzheimer disease risk, the specific genes responsible for this have been difficult to determine because of the architecture of this complex genomic region. In addition, the patterns of variability in these genes differ widely in diverse ethnic and geographic populations, further complicating gene-mapping efforts. What did the researchers do and find? We used a large cohort of 11,690 white individuals to compare variants in HLA genes individually and in combination (termed haplotypes) between people who had Alzheimer disease and cognitively normal older adult controls. We found that several haplotypes were significantly associated with Alzheimer disease, including the haplotype A*03:01~B*07:02~DRB1*15:01*DQA1*01:02~DQB1*06:02. The components of this haplotype remained significant when separated into class I (A~B) and class II (DRB1~DQA1~DQB1) haplotypes and were associated with several clinical measures, including increased levels of a pathogenic protein in cerebrospinal fluid and decreased performance on two cognitive tests over time. What do these findings mean? Our results help identify specific variation in genes within the HLA region that may contribute to increased risk of Alzheimer disease. The class II haplotype that was associated with greater risk for Alzheimer disease (DRB1*15:01~DQA1*01:02~DQB1*06:02) in our cohort is also a significant risk factor for multiple sclerosis, suggesting a potential immune-mediated link between Alzheimer disease and other neurodegenerative diseases. Our results must be considered within the limitations that we only analyzed individuals of European ancestry, we included individuals who were only diagnosed with Alzheimer disease on a clinical basis and not confirmed upon autopsy, and we used imputed genetic information as opposed to direct sequencing data (which were unavailable).

Published

2017

31. Evaluation of Organic Anion Transporting Polypeptide 1B1 and 1B3 Humanized Mice as a Translational Model to Study the Pharmacokinetics of Statins

Author

Raymond Evers, Nico Scheer, Anja Rode, Laurent Salphati, Xiaoyan Chu, Robert A.B. van Waterschoot, Jodie Pang, Jashvant D. Unadkat, Jeevan Kunta, Liangfu Chen, Matthew G. Soars, Loic Laplanche, Shannon Dallas, Jocelyn Yabut, Alfred H. Schinkel, Mario Mezler, Bhagwat Prasad, Ethan G. Geier, Jonathan R Kehler, and Donna Mamaril-Fishman

Subjects

Male, Organic anion transporter 1, Organic Anion Transporters, Pharmaceutical Science, Organic Anion Transporters, Sodium-Independent, Pharmacology, Mice, Solute Carrier Organic Anion Transporter Family Member 1B3, In vivo, medicine, Animals, Humans, Drug Interactions, Rosuvastatin, RNA, Messenger, Rosuvastatin Calcium, Pitavastatin, Pravastatin, Sulfonamides, biology, Liver-Specific Organic Anion Transporter 1, Chemistry, In vitro, Fluorobenzenes, Organic anion-transporting polypeptide, Pyrimidines, Liver, Humanized mouse, Hepatocytes, biology.protein, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Drug metabolism, medicine.drug

Abstract

Organic anion transporting polypeptide (Oatp) 1a/1b knockout and OATP1B1 and -1B3 humanized mouse models are promising tools for studying the roles of these transporters in drug disposition. Detailed characterization of these models will help to better understand their utility for predicting clinical outcomes. To advance this approach, we carried out a comprehensive analysis of these mouse lines by evaluating the compensatory changes in mRNA expression, quantifying the amounts of OATP1B1 and -1B3 protein by liquid chromatography-tandem mass spectrometry, and studying the active uptake in isolated hepatocytes and the pharmacokinetics of some prototypical substrates including statins. Major outcomes from these studies were 1) mostly moderate compensatory changes in only a few genes involved in drug metabolism and disposition, 2) a robust hepatic expression of OATP1B1 and -1B3 proteins in the respective humanized mouse models, and 3) functional activities of the human transporters in hepatocytes isolated from the humanized models with several substrates tested in vitro and with pravastatin in vivo. However, the expression of OATP1B1 and -1B3 in the humanized models did not significantly alter liver or plasma concentrations of rosuvastatin and pitavastatin compared with Oatp1a/1b knockout controls under the conditions used in our studies. Hence, although the humanized OATP1B1 and -1B3 mice showed in vitro and/or in vivo functional activity with some statins, further characterization of these models is required to define their potential use and limitations in the prediction of drug disposition and drug-drug interactions in humans.

Published

2014

32. P2-126: LOSS-OF-FUNCTION CODING AND NON-CODING VARIANTS IN TET2 ARE ASSOCIATED WITH NEURODEGENERATIVE DISEASES

Author

Kenneth S. Kosik, Richard M. Myers, Michelle L. Thompson, Luke W. Bonham, Brittany N. Lasseigne, Francisco Lopera, James M.J. Lawlor, Anna Karydas, Bruce L. Miller, Ethan G. Geier, Jennifer S. Yokoyama, Erik D. Roberson, J. Scott Newberry, Gil D. Rabinovici, Gregory M. Cooper, Michelle D. Amaral, Meagan Cochran, Juliana Acosta-Uribe, and J. Nicholas Cochran

Subjects

Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Health Policy, Philosophy, Neurology (clinical), Geriatrics and Gerontology, Theology

Abstract

Author(s): Cochran, J Nicholas; Geier, Ethan G; Acosta-Uribe, Juliana; Thompson, Michelle L; Amaral, Michelle D; Newberry, J Scott; Lawlor, James MJ; Lasseigne, Brittany N; Cochran, Meagan E; Bonham, Luke W; Karydas, Anna M; Roberson, Erik D; Lopera, Francisco; Kosik, Kenneth S; Cooper, Gregory M; Rabinovici, Gil D; Miller, Bruce L; Myers, Richard M; Yokoyama, Jennifer S

Published

2019

33. Profiling Solute Carrier Transporters in the Human Blood-Brain Barrier

Author

Eugene C. Chen, Audrey C. Papp, Amy Webb, Ethan G. Geier, Kathleen M. Giacomini, Sook Wah Yee, and Wolfgang Sadee

Subjects

OCT3, Ion Pumps, Pharmacology, Blood–brain barrier, Kidney, Real-Time Polymerase Chain Reaction, Neuroprotection, Article, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Pharmacology (medical), 030304 developmental biology, Cerebral Cortex, 0303 health sciences, multidrug and toxin extrusion protein, biology, Membrane transport protein, Gene Expression Profiling, Kidney metabolism, Brain, Membrane Transport Proteins, Transporter, MATE1, solute carrier transporter, organic cation transporter, drug transporter, 3. Good health, Solute carrier family, Gene expression profiling, medicine.anatomical_structure, expression profiling, Liver, Blood-Brain Barrier, Drug delivery, Microvessels, cardiovascular system, biology.protein, 030217 neurology & neurosurgery

Abstract

The neuroprotective function of the blood-brain barrier (BBB) presents a major challenge for drug delivery to the central nervous system (CNS). Critical to this function, BBB membrane transporters include the ATP-binding cassette (ABC) transporters, which limit drug penetration across the BBB, and the less-well-studied solute carrier (SLC) transporters. In this work, expression profiling of 359 SLC transporters, comparative expression analysis with kidney and liver, and immunoassays in brain microvessels (BMVs) identified previously unknown transporters at the human BBB.

Published

2013

34. Structure-based ligand discovery for the Large-neutral Amino Acid Transporter 1, LAT-1

Author

John J. Irwin, Avner Schlessinger, Kathleen M. Giacomini, Hao Fan, Andrej Sali, Jonathan E. Gable, and Ethan G. Geier

Subjects

Models, Molecular, Drug, Cyclohexanecarboxylic Acids, media_common.quotation_subject, Large Neutral Amino Acid-Transporter 1, Crystallography, X-Ray, Ligands, Tritium, chemistry.chemical_compound, Drug Delivery Systems, Leucine, Cell Line, Tumor, medicine, Humans, Amines, Acivicin, gamma-Aminobutyric Acid, media_common, chemistry.chemical_classification, Analysis of Variance, Virtual screening, Multidisciplinary, Chemistry, HEK 293 cells, Cancer, Isoxazoles, Biological Sciences, Flow Cytometry, medicine.disease, Amino acid, HEK293 Cells, Biochemistry, Blood-Brain Barrier, Cell culture, Gabapentin, Glioblastoma

Abstract

The Large-neutral Amino Acid Transporter 1 (LAT-1)—a sodium-independent exchanger of amino acids, thyroid hormones, and prescription drugs—is highly expressed in the blood–brain barrier and various types of cancer. LAT-1 plays an important role in cancer development as well as in mediating drug and nutrient delivery across the blood–brain barrier, making it a key drug target. Here, we identify four LAT-1 ligands, including one chemically novel substrate, by comparative modeling, virtual screening, and experimental validation. These results may rationalize the enhanced brain permeability of two drugs, including the anticancer agent acivicin. Finally, two of our hits inhibited proliferation of a cancer cell line by distinct mechanisms, providing useful chemical tools to characterize the role of LAT-1 in cancer metabolism.

Published

2013

35. Rare TREM2 variants associated with Alzheimer’s disease display reduced cell surface expression

Author

Jennifer S. Yokoyama, Daniel W. Sirkis, Ethan G. Geier, Renan E. Aparicio, Anna Karydas, Eliana Marisa Ramos, Q. Wang, Giovanni Coppola, Bruce L. Miller, Luke W. Bonham, and Zachary A. Miller

Subjects

Male, 0301 basic medicine, Cell, Nasu-Hakola disease, Biology, Polymorphism, Single Nucleotide, Pathology and Forensic Medicine, Cohort Studies, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Alzheimer Disease, Cell surface receptor, TREM2, Genetics, medicine, Extracellular, Humans, Genetic Predisposition to Disease, Receptors, Immunologic, Aged, Membrane Glycoproteins, Microglia, Research, Cell Membrane, Neurodegeneration, medicine.disease, HEK293 Cells, 030104 developmental biology, medicine.anatomical_structure, Case-Control Studies, Female, Neurology (clinical), Heterologous expression, Alzheimer’s disease, 030217 neurology & neurosurgery, Common disease-common variant

Abstract

Rare variation in TREM2 has been associated with greater risk for Alzheimer’s disease (AD). TREM2 encodes a cell surface receptor expressed on microglia and related cells, and the R47H variant associated with AD appears to affect the ability of TREM2 to bind extracellular ligands. In addition, other rare TREM2 mutations causing early-onset neurodegeneration are thought to impair cell surface expression. Using a sequence kernel association (SKAT) analysis in two independent AD cohorts, we found significant enrichment of rare TREM2 variants not previously characterized at the protein level. Heterologous expression of the identified variants showed that novel variants S31F and R47C displayed significantly reduced cell surface expression. In addition, we identified rare variant R136Q in a patient with language-predominant AD that also showed impaired surface expression. The results suggest rare TREM2 variants enriched in AD may be associated with altered TREM2 function and that AD risk may be conferred, in part, from altered TREM2 surface expression. Electronic supplementary material The online version of this article (doi:10.1186/s40478-016-0367-7) contains supplementary material, which is available to authorized users.

Published

2016

36. Vorinostat Increases Expression of Functional Norepinephrine Transporter in Neuroblastoma In Vitro and In Vivo Model Systems

Author

Xiaodong Yang, Henry F. VanBrocklin, Sabine Mueller, William A. Weiss, Youngho Seo, Daphne A. Haas-Kogan, Swati S. More, Katherine K. Matthay, Kathleen M. Giacomini, Melissa Itsara, Michelle K. Tadano, Steven G. DuBois, and Ethan G. Geier

Subjects

Cancer Research, Biodistribution, Cell Survival, medicine.drug_class, Blotting, Western, Transplantation, Heterologous, Mice, Nude, Biology, Hydroxamic Acids, Article, Mice, Neuroblastoma, In vivo, Cell Line, Tumor, medicine, Animals, Humans, Tissue Distribution, Vorinostat, Norepinephrine Plasma Membrane Transport Proteins, Dose-Response Relationship, Drug, Reverse Transcriptase Polymerase Chain Reaction, Histone deacetylase inhibitor, Neoplasms, Experimental, medicine.disease, Gene Expression Regulation, Neoplastic, Histone Deacetylase Inhibitors, 3-Iodobenzylguanidine, HEK293 Cells, Oncology, Norepinephrine transporter, Cell culture, Cancer research, biology.protein, Female, Histone deacetylase, Radiopharmaceuticals, medicine.drug

Abstract

Purpose: Histone deacetylase (HDAC) inhibition causes transcriptional activation or repression of several genes that in turn can influence the biodistribution of other chemotherapeutic agents. Here, we hypothesize that the combination of vorinostat, a HDAC inhibitor, with 131I-meta-iodobenzylguanidine (MIBG) would lead to preferential accumulation of the latter in neuroblastoma (NB) tumors via increased expression of the human norepinephrine transporter (NET). Experimental Design: In vitro and in vivo experiments examined the effect of vorinostat on the expression of NET, an uptake transporter for 131I-MIBG. Human NB cell lines (Kelly and SH-SY-5Y) and NB1691-luc mouse xenografts were employed. The upregulated NET protein was characterized for its effect on 123I-MIBG biodistribution. Results: Preincubation of NB cell lines, Kelly, and SH-SY-5Y, with vorinostat caused dose-dependent increases in NET mRNA and protein levels. Accompanying this was a corresponding dose-dependent increase in MIBG uptake in NB cell lines. Four- and 2.5-fold increases were observed in Kelly and SH-SY-5Y cells, respectively, pretreated with vorinostat in comparison to untreated cells. Similarly, NB xenografts, created by intravenous tail vein injection of NB1691-luc, and harvested from nude mice livers treated with vorinostat (150 mg/kg i.p.) showed substantial increases in NET protein expression. Maximal effect of vorinostat pretreatment in NB xenografts on 123I-MIBG biodistribution was observed in tumors that exhibited enhanced uptake in vorinostat-treated [0.062 ± 0.011 μCi/(mg tissue-dose injected)] vs. -untreated mice [0.022 ± 0.003 μCi/(mg tissue-dose injected); P < 0.05]. Conclusions: The results of our study provide preclinical evidence that vorinostat treatment can enhance NB therapy with 131I-MIBG. Clin Cancer Res; 17(8); 2339–49. ©2011 AACR.

Published

2011

37. Role of the Copper Transporter, CTR1, in Platinum-Induced Ototoxicity

Author

Swati S. More, Alexandra G. Ianculescu, Ethan G. Geier, Lawrence R. Lustig, Kathleen M. Giacomini, and Omar Akil

Subjects

Blotting, Western, Cell Count, Pharmacology, Biology, Article, Cell Line, Mice, Western blot, Ototoxicity, Hair Cells, Auditory, otorhinolaryngologic diseases, medicine, Animals, Humans, Inner ear, Hearing Loss, Cation Transport Proteins, Cochlea, Copper Transporter 1, Cisplatin, medicine.diagnostic_test, Reverse Transcriptase Polymerase Chain Reaction, General Neuroscience, fungi, medicine.disease, Immunohistochemistry, Blot, medicine.anatomical_structure, Acoustic Stimulation, Cell culture, Immunology, Toxicity, sense organs, medicine.drug

Abstract

The goal of this study was to determine the role of an influx copper transporter, CTR1, in the ototoxicity induced by cisplatin, a potent anticancer platinum analog used in the treatment of a variety of solid tumors. As determined through reverse transcriptase-PCR (RT-PCR), quantitative RT-PCR, Western blot, and immunohistochemistry, mouse CTR1 (Ctr1) was found to be abundantly expressed and highly localized at the primary sites of cisplatin toxicity in the inner ear, mainly outer hair cells (OHCs), inner hair cells, stria vascularis, spiral ganglia, and surrounding nerves in the mouse cochlea. A CTR1 substrate, copper sulfate, decreased the uptake and cytotoxicity of cisplatin in HEI-OC1, a cell line that expresses many molecular markers reminiscent of OHCs. Small interfering RNA-mediated knockdown of Ctr1 in this cell line caused a corresponding decrease in cisplatin uptake. In mice, intratympanic administration of copper sulfate 30 min before intraperitoneal administration of cisplatin was found to prevent hearing loss at click stimulus and 8, 16, and 32 kHz frequencies. To date, the utility of cisplatin remains severely limited because of its ototoxic effects. The studies described in this report suggest that cisplatin-induced ototoxicity and cochlear uptake can be modulated by administration of a CTR1 inhibitor, copper sulfate. The possibility of local administration of CTR1 inhibitors during cisplatin therapy as a means of otoprotection is thereby raised.

Published

2010

38. Exchange of Apolipoprotein A-I between Lipid-associated and Lipid-free States

Author

Giorgio Cavigiolio, Jay W. Heinecke, Ethan G. Geier, Baohai Shao, and Michael N. Oda

Subjects

biology, Apolipoprotein B, Cholesterol, Reverse cholesterol transport, nutritional and metabolic diseases, Cell Biology, Oxidative phosphorylation, Biochemistry, chemistry.chemical_compound, chemistry, Myeloperoxidase, polycyclic compounds, biology.protein, Macrophage, lipids (amino acids, peptides, and proteins), Efflux, Molecular Biology, Lipid Transport

Abstract

An important event in cholesterol metabolism is the efflux of cellular cholesterol by apolipoprotein A-I (apoA-I), the major protein of high density lipoproteins (HDL). Lipid-free apoA-I is the preferred substrate for ATP-binding cassette A1, which promotes cholesterol efflux from macrophage foam cells in the arterial wall. However, the vast majority of apoA-I in plasma is associated with HDL, and the mechanisms for the generation of lipid-free apoA-I remain poorly understood. In the current study, we used fluorescently labeled apoA-I that exhibits a distinct fluorescence emission spectrum when in different states of lipid association to establish the kinetics of apoA-I transition between the lipid-associated and lipid-free states. This approach characterized the spontaneous and rapid exchange of apoA-I between the lipid-associated and lipid-free states. In contrast, the kinetics of apoA-I exchange were significantly reduced when apoA-I on HDL was cross-linked with a bi-functional reagent or oxidized by myeloperoxidase. Our observations support the hypothesis that oxidative damage to apoA-I by myeloperoxidase limits the ability of apoA-I to be liberated in a lipid-free form from HDL. This impairment of apoA-I exchange reaction may be a trait of dysfunctional HDL contributing to reduced ATP-binding cassette A1-mediated cholesterol efflux and atherosclerosis.

Published

2010

39. Conservation of apolipoprotein A-I's central domain structural elements upon lipid association on different high-density lipoprotein subclasses

Author

Michael N. Oda, Madhu S. Budamagunta, Giorgio Cavigiolio, Baohai Shao, Jay W. Heinecke, Ethan G. Geier, John C. Voss, and Sajiv H. Chandradas

Subjects

Protein Structure, Biochemistry & Molecular Biology, Apolipoprotein B, HDL, Association (object-oriented programming), Lipoproteins, 1.1 Normal biological development and functioning, Medical Biochemistry and Metabolomics, Cardiovascular, Biochemistry, chemistry.chemical_compound, Medicinal and Biomolecular Chemistry, High-density lipoprotein, Underpinning research, polycyclic compounds, Humans, Genetics, biology, Apolipoprotein A-I, Chemistry, Electron Spin Resonance Spectroscopy, nutritional and metabolic diseases, Atherosclerosis, Recombinant Proteins, biology.protein, lipids (amino acids, peptides, and proteins), Biochemistry and Cell Biology, Tertiary

Abstract

The antiatherogenic properties of apolipoprotein A-I (apoA-I) are derived, in part, from lipidation-state-dependent structural elements that manifest at different stages of apoA-I's progression from lipid-free protein to spherical high-density lipoprotein (HDL). Previously, we reported the structure of apoA-I's N-terminus on reconstituted HDLs (rHDLs) of different sizes. We have now investigated at the single-residue level the conformational adaptations of three regions in the central domain of apoA-I (residues 119-124, 139-144, and 164-170) upon apoA-I lipid binding and HDL formation. An important function associated with these residues of apoA-I is the activation of lecithin:cholesterol acyltransferase (LCAT), the enzyme responsible for catalyzing HDL maturation. Structural examination was performed by site-directed tryptophan fluorescence and spin-label electron paramagnetic resonance spectroscopies for both the lipid-free protein and rHDL particles 7.8, 8.4, and 9.6 nm in diameter. The two methods provide complementary information about residue side chain mobility and molecular accessibility, as well as the polarity of the local environment at the targeted positions. The modulation of these biophysical parameters yielded new insight into the importance of structural elements in the central domain of apoA-I. In particular, we determined that the loosely lipid-associated structure of residues 134-145 is conserved in all rHDL particles. Truncation of this region completely abolished LCAT activation but did not significantly affect rHDL size, reaffirming the important role of this structural element in HDL function.

Published

2013

40. Gene Expression Profiling of Transporters in the Solute Carrier and ATP-Binding Cassette Superfamilies in Human Eye Substructures

Author

Sophie L. Stocker, Ethan G. Geier, Julie A. Siegenthaler, Cheryl D. Cropp, Michele M. Bloomer, Anthony S. Basile, Lu Xu, Elena Grigorenko, Kathleen M. Giacomini, Amber Dahlin, and Diane D.-S. Tang-Liu

Subjects

retina, genetic structures, Pharmaceutical Science, Organic Anion Transporters, Acyclovir, ATP-binding cassette transporter, OCT3, Organic Anion Transporters, Sodium-Independent, Subfamily G, Eye, OAT2, Macromolecular and Materials Chemistry, Cornea, Drug Discovery, Gene expression, ATP Binding Cassette Transporter, Subfamily G, Member 2, Pharmacology & Pharmacy, Corneal epithelium, Reverse Transcriptase Polymerase Chain Reaction, Pharmacology and Pharmaceutical Sciences, Immunohistochemistry, Neoplasm Proteins, medicine.anatomical_structure, Biochemistry, expression profiling, Molecular Medicine, BCRP, Efflux, Biotechnology, Member 2, ATP Binding Cassette Transporter, 1.1 Normal biological development and functioning, transporters, Biology, In Vitro Techniques, Real-Time Polymerase Chain Reaction, Article, Retina, Ciliary body, Underpinning research, Organic Anion Transporters, ATP-Dependent, medicine, Genetics, Humans, Eye Disease and Disorders of Vision, protein expression, Sodium-Independent, Retinal pigment epithelium, open array, ATP-Dependent, Gene Expression Profiling, Neurosciences, eye diseases, Solute carrier family, gene expression, ATP-Binding Cassette Transporters, sense organs

Abstract

The barrier epithelia of the cornea and retina control drug and nutrient access to various compartments of the human eye. While ocular transporters are likely to play a critical role in homeostasis and drug delivery, little is known about their expression, localization and function. In this study, the mRNA expression levels of 445 transporters, metabolic enzymes, transcription factors and nuclear receptors were profiled in five regions of the human eye: cornea, iris, ciliary body, choroid and retina. Through RNA expression profiling and immunohistochemistry, several transporters were identified as putative targets for drug transport in ocular tissues. Our analysis identified SLC22A7 (OAT2), a carrier for the anti-viral drug, acyclovir, in the corneal epithelium, in addition to ABCG2 (BCRP), an important xenobiotic efflux pump, in retinal nerve fibers and the retinal pigment epithelium. Collectively, our results provide an understanding of the transporters that serve to maintain ocular homeostasis and which may be potential targets for drug delivery to deep compartments of the eye.

Published

2013

41. Evaluation of Norepinephrine Transporter Expression and Metaiodobenzylguanidine Avidity in Neuroblastoma: A Report from the Children's Oncology Group

Author

Greg Yanik, Kathleen M. Giacomini, Steven G. DuBois, Edward F. Attiyeh, Wendy B. London, Katherine K. Matthay, Mark R. Segal, David L. Baker, Sook Wah Yee, Arlene Naranjo, John Neuhaus, Daniel Martinez, Bruce R. Pawel, Susan G. Kreissman, Ethan G. Geier, John M. Maris, Michael D. Hogarty, and Vandana Batra

Subjects

Oncology, medicine.medical_specialty, Article Subject, Pediatric Cancer, Mrna expression, Diagnostic evaluation, Mibg uptake, 030218 nuclear medicine & medical imaging, Neuroblastoma, 03 medical and health sciences, Rare Diseases, 0302 clinical medicine, Internal medicine, Genetics, medicine, Radiology, Nuclear Medicine and imaging, Avidity, Cancer, Pediatric, Messenger RNA, biology, business.industry, Neurosciences, medicine.disease, 3. Good health, Norepinephrine transporter, 030220 oncology & carcinogenesis, biology.protein, Immunohistochemistry, business, Research Article

Abstract

Purpose. 123I-metaiodobenzylguanidine (MIBG) is used for the diagnostic evaluation of neuroblastoma. We evaluated the relationship between norepinephrine transporter (NET) expression and clinical MIBG uptake. Methods. Quantitative reverse transcription PCR (N=82) and immunohistochemistry (IHC; N=61) were performed for neuroblastoma NET mRNA and protein expression and correlated with MIBG avidity on diagnostic scans. The correlation of NET expression with clinical features was also performed. Results. Median NET mRNA expression level for the 19 MIBG avid patients was 12.9% (range 1.6–73.7%) versus 5.9% (range 0.6–110.0%) for the 8 nonavid patients (P=0.31). Median percent NET protein expression was 50% (range 0–100%) in MIBG avid patients compared to 10% (range 0–80%) in nonavid patients (P=0.027). MYCN amplified tumors had lower NET protein expression compared to nonamplified tumors (10% versus 50%; P=0.0002). Conclusions. NET protein expression in neuroblastoma correlates with MIBG avidity. MYCN amplified tumors have lower NET protein expression.

Published

2012

42. Structure-based discovery of prescription drugs that interact with the norepinephrine transporter, NET

Author

Kathleen M. Giacomini, Brian K. Shoichet, Hao Fan, Andrej Sali, Ethan G. Geier, Avner Schlessinger, and John J. Irwin

Subjects

Models, Molecular, Prescription Drugs, Molecular Sequence Data, Pharmacology, Plasma Membrane Neurotransmitter Transport Proteins, Norepinephrine, Bacterial Proteins, Drug Discovery, Humans, Amino Acid Sequence, Binding site, KEGG, Virtual screening, Multidisciplinary, Binding Sites, Norepinephrine Plasma Membrane Transport Proteins, biology, Molecular Structure, Sequence Homology, Amino Acid, Drug discovery, Computational Biology, Transporter, Biological Transport, Biological Sciences, Protein Structure, Tertiary, Kinetics, HEK293 Cells, Norepinephrine transporter, biology.protein, Antidepressant, Algorithms, Protein Binding

Abstract

The norepinephrine transporter (NET) transports norepinephrine from the synapse into presynaptic neurons, where norepinephrine regulates signaling pathways associated with cardiovascular effects and behavioral traits via binding to various receptors (e.g., β2-adrenergic receptor). NET is a known target for a variety of prescription drugs, including antidepressants and psychostimulants, and may mediate off-target effects of other prescription drugs. Here, we identify prescription drugs that bind NET, using virtual ligand screening followed by experimental validation of predicted ligands. We began by constructing a comparative structural model of NET based on its alignment to the atomic structure of a prokaryotic NET homolog, the leucine transporter LeuT. The modeled binding site was validated by confirming that known NET ligands can be docked favorably compared to nonbinding molecules. We then computationally screened 6,436 drugs from the Kyoto Encyclopedia of Genes and Genomes (KEGG DRUG) against the NET model. Ten of the 18 high-scoring drugs tested experimentally were found to be NET inhibitors; five of these were chemically novel ligands of NET. These results may rationalize the efficacy of several sympathetic (tuaminoheptane) and antidepressant (tranylcypromine) drugs, as well as side effects of diabetes (phenformin) and Alzheimer’s (talsaclidine) drugs. The observations highlight the utility of virtual screening against a comparative model, even when the target shares less than 30% sequence identity with its template structure and no known ligands in the primary binding site.

Published

2011

43. The interplay between size, morphology, stability, and functionality of high-density lipoprotein subclasses

Author

Gang Ren, Baohai Shao, Ethan G. Geier, Giorgio Cavigiolio, Jay W. Heinecke, and Michael N. Oda

Subjects

food.ingredient, Apolipoprotein B, Sterol O-acyltransferase, Biochemistry, Lecithin, Article, Phosphatidylcholine-Sterol O-Acyltransferase, chemistry.chemical_compound, food, High-density lipoprotein, Humans, Particle Size, biology, Apolipoprotein A-I, Cholesterol, Reverse cholesterol transport, nutritional and metabolic diseases, Recombinant Proteins, Microscopy, Electron, chemistry, ABCA1, biology.protein, lipids (amino acids, peptides, and proteins), Lipoproteins, HDL, Lipoprotein

Abstract

High-density lipoprotein (HDL) mediates reverse cholesterol transport (RCT), wherein excess cholesterol is conveyed from peripheral tissues to the liver and steroidogenic organs. During this process HDL continually transitions between subclass sizes, each with unique biological activities. For instance, RCT is initiated by the interaction of lipid-free/lipid-poor apolipoprotein A-I (apoA-I) with ABCA1, a membrane-associated lipid transporter, to form nascent HDL. Because nearly all circulating apoA-I is lipid-bound, the source of lipid-free/lipid-poor apoA-I is unclear. Lecithin:cholesterol acyltransferase (LCAT) then drives the conversion of nascent HDL to spherical HDL by catalyzing cholesterol esterification, an essential step in RCT. To investigate the relationship between HDL particle size and events critical to RCT such as LCAT activation and lipid-free apoA-I production for ABCA1 interaction, we reconstituted five subclasses of HDL particles (rHDL of 7.8, 8.4, 9.6, 12.2, and 17.0 nm in diameter, respectively) using various molar ratios of 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine, free cholesterol, and apoA-I. Kinetic analyses of this comprehensive array of rHDL particles suggest that apoA-I stoichiometry in rHDL is a critical factor governing LCAT activation. Electron microscopy revealed specific morphological differences in the HDL subclasses that may affect functionality. Furthermore, stability measurements demonstrated that the previously uncharacterized 8.4 nm rHDL particles rapidly convert to 7.8 nm particles, concomitant with the dissociation of lipid-free/lipid-poor apoA-I. Thus, lipid-free/lipid-poor apoA-I generated by the remodeling of HDL may be an essential intermediate in RCT and HDL's in vivo maturation.

Published

2008

44. Real-Time Detection of Apolipoprotein A-I's Lipidation State by Fluorescence Resonance Energy Transfer

Author

Giorgio Cavigiolio, Ethan G. Geier, and Michael N. Oda

Subjects

Fluorophore, Apolipoprotein B, biology, Chemistry, Cholesterol, Biophysics, nutritional and metabolic diseases, ATP-binding cassette transporter, Lipid-anchored protein, Fluorescence, chemistry.chemical_compound, Förster resonance energy transfer, Biochemistry, polycyclic compounds, biology.protein, lipids (amino acids, peptides, and proteins), Cysteine

Abstract

Apolipoprotein A-I (apoA-I), the main protein component of high density lipoprotein (HDL), is the principal facilitator of cholesterol efflux from cholesterol-laden macrophages. Lipid-free apoA-I is the preferred substrate over lipid-associated apoA-I for cholesterol mobilization by the membrane transporter ATP binding cassette A1, which is responsible for more than 60% of cellular cholesterol efflux from cholesterol-laden macrophages. However, more than 95% of apoA-I is lipid-bound and associated with plasma mature HDL. To study the mechanisms that promote the production of lipid-free/lipid-poor (cholesterol-efflux capable) apoA-I in the arterial walls, we developed an apoA-I variant capable of reporting the lipidation-state of apoA-I in real-time.We employed fluorescence resonance energy transfer (FRET) to generate an apoA-I reporter with lipidation-state specific fluorescence. ApoA-I's four endogenous tryptophans (Trp) were substituted with phenylalanines and a single Trp was substituted in at position 19, as the FRET donor. A cysteine residue substituted in at position 136 was labeled with the fluorophore AEDANS, as the FRET acceptor. The resultant apoA-I variant, apoA-I:W19-AED136, was lipidated to varying degrees producing rHDL of different sizes. The fluorescence emission spectrum of lipid free apoA-I:W19-AED136 and each of the rHDL particles was collected. Structural differences in the conformation of lipid-free apoA-I and apoA-I associated with different rHDL sizes altered the relative positions of the FRET donor-acceptor pair, leading to lipidation state specific fluorescence “fingerprints”. Lipid-free apoA-I:W19-AED136 showed the highest degree of energy transfer (E=0.571), and apoA-I exhibited decreasing levels of energy transfer with increasing rHDL particle size (7.8 nm (E=0.387), 8.4 nm (E=0.0780), and 9.6 nm (E=0.0334)).ApoA-I:W19-AED136 was successfully used to measure the transition rate of apoA-I between lipid-associated and lipid-free states, potentially, the rate limiting step of macrophage cholesterol efflux in the atherosclerotic plaque.

45. Fine-mapping of the human leukocyte antigen locus as a risk factor for Alzheimer disease: A case-control study.

Author

Natasha Z R Steele, Jessie S Carr, Luke W Bonham, Ethan G Geier, Vincent Damotte, Zachary A Miller, Rahul S Desikan, Kevin L Boehme, Shubhabrata Mukherjee, Paul K Crane, John S K Kauwe, Joel H Kramer, Bruce L Miller, Giovanni Coppola, Jill A Hollenbach, Yadong Huang, and Jennifer S Yokoyama

Subjects

Medicine

Abstract

BackgroundAlzheimer disease (AD) is a progressive disorder that affects cognitive function. There is increasing support for the role of neuroinflammation and aberrant immune regulation in the pathophysiology of AD. The immunoregulatory human leukocyte antigen (HLA) complex has been linked to susceptibility for a number of neurodegenerative diseases, including AD; however, studies to date have failed to consistently identify a risk HLA haplotype for AD. Contributing to this difficulty are the complex genetic organization of the HLA region, differences in sequencing and allelic imputation methods, and diversity across ethnic populations.Methods and findingsBuilding on prior work linking the HLA to AD, we used a robust imputation method on two separate case-control cohorts to examine the relationship between HLA haplotypes and AD risk in 309 individuals (191 AD, 118 cognitively normal [CN] controls) from the San Francisco-based University of California, San Francisco (UCSF) Memory and Aging Center (collected between 1999-2015) and 11,381 individuals (5,728 AD, 5,653 CN controls) from the Alzheimer's Disease Genetics Consortium (ADGC), a National Institute on Aging (NIA)-funded national data repository (reflecting samples collected between 1984-2012). We also examined cerebrospinal fluid (CSF) biomarker measures for patients seen between 2005-2007 and longitudinal cognitive data from the Alzheimer's Disease Neuroimaging Initiative (n = 346, mean follow-up 3.15 ± 2.04 y in AD individuals) to assess the clinical relevance of identified risk haplotypes. The strongest association with AD risk occurred with major histocompatibility complex (MHC) haplotype A*03:01~B*07:02~DRB1*15:01~DQA1*01:02~DQB1*06:02 (p = 9.6 x 10-4, odds ratio [OR] [95% confidence interval] = 1.21 [1.08-1.37]) in the combined UCSF + ADGC cohort. Secondary analysis suggested that this effect may be driven primarily by individuals who are negative for the established AD genetic risk factor, apolipoprotein E (APOE) ɛ4. Separate analyses of class I and II haplotypes further supported the role of class I haplotype A*03:01~B*07:02 (p = 0.03, OR = 1.11 [1.01-1.23]) and class II haplotype DRB1*15:01- DQA1*01:02- DQB1*06:02 (DR15) (p = 0.03, OR = 1.08 [1.01-1.15]) as risk factors for AD. We followed up these findings in the clinical dataset representing the spectrum of cognitively normal controls, individuals with mild cognitive impairment, and individuals with AD to assess their relevance to disease. Carrying A*03:01~B*07:02 was associated with higher CSF amyloid levels (p = 0.03, β ± standard error = 47.19 ± 21.78). We also found a dose-dependent association between the DR15 haplotype and greater rates of cognitive decline (greater impairment on the 11-item Alzheimer's Disease Assessment Scale cognitive subscale [ADAS11] over time [p = 0.03, β ± standard error = 0.7 ± 0.3]; worse forgetting score on the Rey Auditory Verbal Learning Test (RAVLT) over time [p = 0.02, β ± standard error = -0.2 ± 0.06]). In a subset of the same cohort, dose of DR15 was also associated with higher baseline levels of chemokine CC-4, a biomarker of inflammation (p = 0.005, β ± standard error = 0.08 ± 0.03). The main study limitations are that the results represent only individuals of European-ancestry and clinically diagnosed individuals, and that our study used imputed genotypes for a subset of HLA genes.ConclusionsWe provide evidence that variation in the HLA locus-including risk haplotype DR15-contributes to AD risk. DR15 has also been associated with multiple sclerosis, and its component alleles have been implicated in Parkinson disease and narcolepsy. Our findings thus raise the possibility that DR15-associated mechanisms may contribute to pan-neuronal disease vulnerability.

Published

2017