Taub Institute: Genomics Core
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TaubCONNECT Research Perspective:
April 2025



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March 2025:

ANXA11 Biomolecular Condensates Facilitate Protein-Lipid Phase Coupling on Lysosomal Membranes

Local Genetic Covariance Analysis with Lipid Traits Identifies Novel Loci for Early-Onset Alzheimer's Disease

The Association of Multilingualism with Diverse Language Families and Cognition Among Adults with and Without Education in India

Axonal Transport of CHMP2b Is Regulated by Kinesin-Binding Protein and Disrupted by CHMP2bintron5

February 2025:

Exploring the Role of T Cells in Alzheimer's and other Neurodegenerative Diseases: Emerging Therapeutic Insights from the T Cells in the Brain Symposium

Sleep Genetics and Cognitive Changes over Time: The Moderating Effect of Age and the Role of Brain

Emerging Roles for Tubulin PTMs in Neuronal Function and Neurodegenerative Disease

January 2025:

Inflammatory Biomarkers Profiles and Cognition Among Older Adults

Early Life Exposure to Structural Sexism and Late-Life Memory Trajectories Among Black and White Women and Men in the United States

The Effects of Mosaicism on Biological and Clinical Markers of Alzheimer's Disease in Adults with Down Syndrome

Plasma Phospho-tau217 as a Predictive Biomarker for Alzheimer's Disease in a Large South American Cohort

December 2024:

Synaptic and Cognitive Impairment Associated with L444P Heterozygous Glucocerebrosidase Mutation

Elevated Expression of the Retrotransposon LINE-1 Drives Alzheimer's Disease-Associated Microglial Dysfunction

"Rest of the Folks are Tired and Weary": The Impact of Historical Lynchings on Biological and Cognitive Health for Older Adults Racialized as Black

November 2024:

ABCA7-Dependent Induction of Neuropeptide Y is Required for Synaptic Resilience in Alzheimer’s Disease Through BDNF/NGFR Signaling

Regulation of Synapse Density by Pumilio RNA-Binding Proteins

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

A Neural Implementation of Cognitive Reserve: Insights from a Longitudinal fMRI Study of Set-Switching in Aging

October 2024:

Cellular Communities Reveal Trajectories of Brain Ageing and Alzheimer's Disease

Alzheimer's Disease CSF Biomarkers Correlate with Early Pathology and Alterations in Neuronal and Glial Gene Expression

A Cross-Disease Resource of Living Human Microglia Identifies Disease-Enriched Subsets and Tool Compounds Recapitulating Microglial States

August 2024:

Epigenetic and Genetic Risk of Alzheimer Disease from Autopsied Brains in two Ethnic Groups

Multi-Omic Analysis of Huntington's Disease Reveals a Compensatory Astrocyte State

Cytoplasmic Vacuolation and Ectopic Formation of Perineuronal Nets Are Characteristic Pathologies of Cytomegalic Neurons in Tuberous Sclerosis

Cognitive Polygenic Index Is Associated with Occupational Complexity Over and Above Brain Morphometry

July 2024:

Xenografted Human iPSC-Derived Neurons with the Familial Alzheimer's Disease APPV717I Mutation Reveal Dysregulated Transcriptome Signatures Linked to Synaptic Function and Implicate LINGO2 as a Disease Signaling Mediator

Extended Genome-Wide Association Study Employing the African Genome Resources Panel Identifies Novel Susceptibility Loci for Alzheimer's Disease in Individuals of African Ancestry

Adult-Onset Deactivation of Autophagy Leads to loss of Synapse Homeostasis and Cognitive Impairment, with Implications for Alzheimer Disease

June 2024:

ZCCHC17 Knockdown Phenocopies Alzheimer's Disease-Related Loss of Synaptic Proteins and Hyperexcitability

Design and Methods of the Early Age-Related Hearing Loss Investigation Randomized Controlled Trial

May 2024:

Updated Safety Results From Phase 3 Lecanemab Study in Early Alzheimer's Disease

The Broken Alzheimer's Disease Genome

Personality Traits and Cognitive Reserve—High Openness Benefits Cognition in the Presence of Age-Related Brain Changes

April 2024:

Rare Genetic Variation in Fibronectin 1 (FN1) Protects Against APOEε4 in Alzheimer's Disease

Cell Subtype-Specific Effects of Genetic Variation in the Alzheimer's Disease Brain

Osteopontin Drives Neuroinflammation and Cell Loss in MAPT-N279K Frontotemporal Dementia Patient Neurons

Childhood Engagement in Cognitively Stimulating Activities Moderates Relationships Between Brain Structure and Cognitive Function in Adulthood

March 2024:

Diet, Pace of Biological Aging, and Risk of Dementia in the Framingham Heart Study

The Matrix Receptor CD44 Is Present in Astrocytes throughout the Human Central Nervous System and Accumulates in Hypoxia and Seizures

Microglia Measured by TSPO PET are Associated with Alzheimer's Disease Pathology and Mediate key Steps in a Disease Progression Model

A Comparative Study of Structural Variant Calling in WGS from Alzheimer's Disease Families

February 2024:

Glucocorticoid Stress Hormones Stimulate Vesicle-Free Tau Secretion and Spreading in the Braint

Whole Genome-Wide Sequence Analysis of Long-Lived Families (Long-Life Family Study) Identifies MTUS2 Gene Associated with Late-Onset Alzheimer's Disease

In Vivo Tau is Associated with Change in Memory and Processing Speed, but not Reasoning, in Cognitively Unimpaired Older Adults

The Effects of Insufficient Sleep and Adequate Sleep on Cognitive Function in Healthy Adults

January 2024:

Risk of Alzheimer's Disease is Associated with Longitudinal Changes in Plasma Biomarkers in the Multi-Ethnic Washington Heights-Hamilton Heights-Inwood Columbia Aging Project (WHICAP) Cohort


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


Benchmarking of Deep Neural Networks for Predicting Personal Gene Expression from DNA Sequence Highlights Shortcomings


TaubCONNECT Research Perspectives: Best Poster Presentations Taub Institute Retreat November 2023


December 2023:

Objective Physical Function in the Alzheimer's Disease Continuum: Association with Cerebrospinal Fluid Biomarkers in the ALBION Study

Racial/Ethnic Disparities in Misidentification of Dementia in Medicare Claims: Results from the Washington Heights-Inwood Columbia Aging Project

Neuropsychiatric Symptoms and Trajectories of Dependence and Cognition in a Sample of Community-Dwelling Older Adults with Dementia

Effects of Lithium on Serum Brain-Derived Neurotrophic Factor in Alzheimer's Patients with Agitation


November 2023:

2023 Taub Institute Grants for Emerging Research (TIGER) Awardees!


September 2023:

Rie1 and Sgn1 Form an RNA-Binding Complex that Enforces the Meiotic Entry Cell Fate Decision

Memory and Language Cognitive Data Harmonization Across the United States and Mexico

Education as a Moderator of Help Seeking Behavior in Subjective Cognitive Decline

August 2023:

Nerve Growth Factor Receptor (Ngfr) Induces Neurogenic Plasticity by Suppressing Reactive Astroglial Lcn2/Slc22a17 Signaling in Alzheimer's Disease

Multicellular Communities are Perturbed in the Aging Human Brain and Alzheimer's Disease

Simple Topological Task-based Functional Connectivity Features Predict Longitudinal Behavioral Change of Fluid Reasoning in the RANN Cohort

The Neuropathological Landscape of Hispanic and non-Hispanic White Decedents with Alzheimer Disease

July 2023:

Caspase-9 Inhibition Confers Stronger Neuronal and Vascular Protection Compared to VEGF Neutralization in a Mouse Model of Retinal Vein Occlusion

The Early-Onset Alzheimer's Disease Whole-Genome Sequencing Project: Study Design and Methodology

Heart Failure-Induced Cognitive Dysfunction is Mediated by Intracellular Ca2+ Leak Through Ryanodine Receptor Type 2

June 2023:

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

Dietary Flavanols Restore Hippocampal-Dependent Memory in Older Adults with Lower Diet Quality and Lower Habitual Flavanol Consumption

Survey of Neuroanatomic Sampling and Staining Procedures in Alzheimer Disease Research Center Brain Banks

May 2023:

Polygenic Risk Score Penetrance & Recurrence Risk in Familial Alzheimer Disease

Effects of Brain Maintenance and Cognitive Reserve on Age-related Decline in Three Cognitive Abilities

High School Quality is Associated with Cognition 58 Years Later

Older Adults Compensate for Switch, but not Mixing Costs, Relative to Younger Adults on an Intrinsically Cued Task Switching Experiment

April 2023:

Glucocorticoid-Driven Mitochondrial Damage Stimulates Tau Pathology

A Global View of the Genetic Basis of Alzheimer Disease

ARIA in Patients Treated with Lecanemab (BAN2401) in a Phase 2 Study in Early Alzheimer's Disease

March 2023:

CREB3L2-ATF4 Heterodimerization Defines a Transcriptional hub of Alzheimer's Disease Gene Expression Linked to Neuropathology

Healthy Lifestyle Behaviors and Biological Aging in the US National Health and Nutrition Examination Surveys 1999-2018

February 2023:

Microglia Reactivity Entails Microtubule Remodeling from Acentrosomal to Centrosomal Arrays

Genuine Selective Caspase-2 Inhibition with new Irreversible Small Peptidomimetics

Costs During the Last Five Years of Life for Patients with Clinical and Pathological Confirmed Diagnosis of Lewy Body Dementia and Alzheimer's Disease


January 2023:

Histopathology of the Cerebellar Cortex in Essential Rremor and Other Neurodegenerative Motor Disorders: Comparative Analysis of 320 Brains

The Caribbean-Hispanic Alzheimer's Disease Brain Transcriptome Reveals Ancestry-Specific Disease Mechanisms

Comparison of Amyloid Burden in Individuals with Down Syndrome Versus Autosomal Dominant Alzheimer's Disease: A Cross-Sectional Study

Neuronal Membrane Proteasomes Regulate Neuronal Circuit Activity in Vivo and are Required for Learning-Induced Behavioral Plasticity

December 2022:

A Systemic Cell Stress Signal Confers Neuronal Resilience Toward Oxidative Stress in a Hedgehog-Dependent Manner

RNA Methyltransferase NSun2 Deficiency Promotes Neurodegeneration through Epitranscriptomic Regulation of Tau Phosphorylation

Cell Type-Specific Changes Identified by Single-Cell Transcriptomics in Alzheimer's Disease

Brain Aging Among Racially and Ethnically Diverse Middle-Aged and Older Adults

Association of Subjective Cognitive Decline With Progression to Dementia in a Cognitively Unimpaired Multiracial Community Sample

November 2022:

First Place: CREB3L2-ATF4 Heterodimerization Defines a Transcriptional Hub of Alzheimer's Disease Gene Expression Linked to Neuropathology

First Place: Neuroproteasome Localization and Dysfunction Modulate Pathology in Alzheimer's Disease

October 2022:

Clearance of an Amyloid-Like Translational Repressor is Governed by 14-3-3 Proteins

Diet Moderates the Effect of Resting State Functional Connectivity on Cognitive Function

Longitudinal Patterns of Cortical Atrophy on MRI in Patients With Alzheimer Disease With and Without Lewy Body Pathology

September 2022:

Crosstalk Between Acetylation and the Tyrosination/Detyrosination Cycle of α-Tubulin in Alzheimer's Disease

Deep Learning of MRI Contrast Enhancement for Mapping Cerebral Blood Volume from Single-Modal Non-Contrast Scans of Aging and Alzheimer's Disease Brains

Socioeconomic Status, Biological Aging, and Memory in a Diverse National Sample of Older US Men and Women

August 2022:

Retromer Deficiency in Tauopathy Models Enhances the Truncation and Toxicity of Tau

Aβ42 Oligomers Trigger Synaptic Loss Through CAMKK2-AMPK-Dependent Effectors Coordinating Mitochondrial Fission and Mitophagy

July 2022:

GW5074 Increases Microglial Phagocytic Activities: Potential Therapeutic Direction for Alzheimer's Disease

Cerebral Amyloid Angiopathy Interacts with Neuritic Amyloid Plaques to Promote Tau and Cognitive Decline

Amyloid, Cerebrovascular Disease, and Neurodegeneration Biomarkers Are Associated with Cognitive Trajectories in a Racially and Ethnically Diverse, Community-Based Sample

June 2022:

Genotype-Phenotype Correlation of T Cell Subtypes Reveals Senescent and Cytotoxic Genes in Alzheimer's Disease

Single Cell/Nucleus Transcriptomics Comparison in Zebrafish and Humans Reveals Common and Distinct Molecular Responses to Alzheimer's Disease

May 2022:

FMNL2 Regulates Gliovascular Interactions and Is Associated with Vascular Risk Factors and Cerebrovascular Pathology in Alzheimer’s Disease

Molecular Insights into Cell Type-Specific Roles in Alzheimer's Disease: Human Induced Pluripotent Stem Cell-Based Disease Modeling

Effects of Eph/Ephrin Signalling and Human Alzheimer's Disease-Associated EphA1 on Drosophila Behaviour and Neurophysiology

April 2022:

Progranulin Mutations in Clinical and Neuropathological Alzheimer's Disease

Wolframin is a Novel Regulator of Tau Pathology and Neurodegeneration

Clinical Trajectories at the End of Life in Dementia Patients With Alzheimer Disease and Lewy Body Neuropathologic Changes

March 2022:

Homotypic Fibrillization of TMEM106B Across Diverse Neurodegenerative Diseases

Correlation of Plasma and Neuroimaging Biomarkers in Alzheimer's Disease

Probing the Proteome to Explore Potential Correlates of Increased Alzheimer's-Related Cerebrovascular Disease in Adults with Down Syndrome

February 2022:

Tubulin Tyrosination Regulates Synaptic Function and is Disrupted in Alzheimer's Disease

Pyramidal Tract Neurons Drive Amplification of Excitatory Inputs to Striatum Through Cholinergic Interneurons

Associations Between Neuropsychiatric Symptoms and Neuropathological Diagnoses of Alzheimer Disease and Related Dementias

Longitudinal Associations Between Racial Discrimination and Hippocampal and White Matter Hyperintensity Volumes Among Older Black Adults

The Penalty of Stress - Epichaperomes Negatively Reshaping the Brain in Neurodegenerative Disorders

January 2022:

The National Institute on Aging Late-Onset Alzheimer's Disease Family Based Study: A Resource for Genetic Discovery

Atlas of RNA Editing Events Affecting Protein Expression in Aged and Alzheimer's Disease Human Brain Tissue

The Neuronal Retromer can Regulate Both Neuronal and Microglial Phenotypes of Alzheimer's Disease

Deep Learning Improves Utility of Tau PET in the Study of Alzheimer's Disease

December 2021:

Predictors of Incident Mild Cognitive Impairment and Its Course in a Diverse Community-Based Population

Atlas of RNA Editing Events Affecting Protein Expression in Aged and Alzheimer's Disease Human Brain Tissue

Integration of GWAS and Brain Transcriptomic Analyses in a Multiethnic Sample of 35,245 Older Adults Identifies DCDC2 Gene as Predictor of Episodic Memory Maintenance

November 2021:

KYNA/Ahr Signaling Suppresses Neural Stem Cell Plasticity and Neurogenesis in Adult Zebrafish Model of Alzheimer's Disease

Characterization of Mitochondrial DNA Quantity and Quality in the Human Aged and Alzheimer's Disease Brain

Self-Awareness for Financial Decision Making Abilities is Linked to Right Temporal Cortical Thickness in Older Adults

October 2021:

An Immune Response Characterizes Early Alzheimer's Disease Pathology and Subjective Cognitive Impairment in Hydrocephalus Biopsies

MEF2C Common Genetic Variation Is Associated With Different Aspects of Cognition in Non-Hispanic White and Caribbean Hispanic Non-demented Older Adults

Association of Regional White Matter Hyperintensities With Longitudinal Alzheimer-Like Pattern of Neurodegeneration in Older Adults

Age of Onset of Huntington's Disease in Carriers of Reduced Penetrance Alleles

September 2021:

Traversing the Aging Research and Health Equity Divide: Toward Intersectional Frameworks of Research Justice and Participation

Epigenomic Features Related to Microglia are Associated with Attenuated Effect of APOE ε4 on Alzheimer's Disease Risk in Humans

Caspase-9: A Multimodal Therapeutic Target With Diverse Cellular Expression in Human Disease

August 2021:

Neuropsychological Predictors of Severe Functional Dependency in a Multiethnic Community Cohort of Individuals with Alzheimer's Disease

Midlife Vascular Factors and Prevalence of Mild Cognitive Impairment in Late-Life in Mexico

Effect of Aerobic Exercise on White Matter Tract Microstructure in Young and Middle-Aged Healthy Adults

July 2021:

Quantifying Age-Related Changes in Brain and Behavior: A Longitudinal Versus Cross-Sectional Approach

The Association Between Sex and Risk of Alzheimer's Disease in Adults with Down Syndrome

June 2021:

Marked Mild Cognitive Deficits in Humanized Mouse Model of Alzheimer's-Type Tau Pathology

Rapid ATF4 Depletion Resets Synaptic Responsiveness after cLTP

Polygenic Risk Score for Alzheimer's Disease in Caribbean Hispanics

Vascular-Derived SPARC and SerpinE1 Regulate Interneuron Tangential Migration and Accelerate Functional Maturation of Human Stem Cell-Derived Interneurons

May 2021:

PAC1 Receptor–Mediated Clearance of Tau in Postsynaptic Compartments Attenuates Tau Pathology in Mouse Brain

Socioeconomic and Psychosocial Mechanisms Underlying Racial/Ethnic Disparities in Cognition Among Older Adults

Recognition Memory and Divergent Cognitive Profiles in Prodromal Genetic Frontotemporal Dementia

April 2021:

Association Between Early Psychotic Symptoms and Alzheimer's Disease Prognosis in a Community-Based Cohort

Complexity and Graded Regulation of Neuronal Cell-Type-Specific Alternative Splicing Revealed by Single-Cell RNA Sequencing

The Microtubule Cytoskeleton at the Synapse & The Synaptic Life of Microtubules

Distinct Cortical Thickness Patterns Link Disparate Cerebral Cortex Regions to Select Mobility Domains

March 2021:

Optimizing Subjective Cognitive Decline to Detect Early Cognitive Dysfunction

The AD Tau Core Spontaneously Self-Assembles and Recruits Full-Length Tau to Filaments

Olfactory Impairment is Related to Tau Pathology and Neuroinflammation in Alzheimer's Disease

Race/ethnicity and Gender Modify the Association Between Diet and Cognition in U.S. Older Adults: National Health and Nutrition Examination Survey 2011-2014

Insights Into the Role of Diet and Dietary Flavanols in Cognitive Aging: Results of a Randomized Controlled Trial

February 2021:

Plasma P-Tau181, P-Tau217, and Other Blood-Based Alzheimer's Disease Biomarkers in a Multi-Ethnic, Community Study

Pathogenic Role of Delta 2 Tubulin in Bortezomib-Induced Peripheral Neuropathy




Modulation of CREB3L2-ATF4 Heterodimerization via Proteasome Inhibition and HRI Activation in Alzheimer's Disease Pathology

Krystal Herline-Killian, PhD    Ulrich Hengst, PhD
Krystal Herline-Killian, PhD    Ulrich Hengst, PhD

Widespread gene expression changes are a feature of many neurodegenerative disorders, including Alzheimer’s disease (AD). Identifying the mechanisms driving these changes could lead to the development of novel therapeutic targets to restore normal gene expression in AD. In our group, we have long been interested in the molecular pathways connecting exposure of neurons to oligomeric Aβ42 to the induction of AD-typical transcriptional changes. In a series of previous publications, we reported that a unique heterodimer of two bZIP transcription factors, CREB3L2 and ATF4, is present in the brains of individuals with AD. This heterodimer is associated with up to 50% of the gene expression changes observed in AD brains. Interestingly, its induction in neurons is sufficient to elicit AD-typical neuronal changes, such as the hyperphosphorylation and secretion of tau, and increased Aβ42 production over Aβ40. More importantly, we found that preventing the formation of this dimer rescues neurons from Aβ42-induced cell death. However, it remained puzzling why the CREB3L2-ATF4 heterodimer is formed specifically in the context of AD in response to oligomeric Aβ42, while most other cellular stressors seemingly do not trigger this signaling pathway.

Figure 5B HRI activation interferes with CREB3L2-ATF4 signaling.
Proximity labeling assay (PLA; red) for CREB3L2-ATF4 in cortical neurons treated with DMSO or the HRI activator BtdCPU and Aβ42 or vehicle for 8 h. Nuclei are in blue, microtubules in green. Scale bar, 5 µm.
Figure 5B. HRI activation interferes with CREB3L2-ATF4 signaling. Proximity labeling assay (PLA; red) for CREB3L2-ATF4 in cortical neurons treated with DMSO or the HRI activator BtdCPU and Aβ42 or vehicle for 8 h. Nuclei are in blue, microtubules in green. Scale bar, 5 µm.

As recently reported in Cell Death & Disease, we found that the formation of the CREB3L2-ATF4 requires the activation of the integrated stress response with simultaneous inhibition of the proteasome. The levels of stress response transcription factors, such as ATF4 and CREB3L2, are tightly controlled by translational mechanisms, especially by the integrated stress response (ISR). The ISR is a network of cellular signaling pathways activated by various stressors to restore cellular homeostasis. These pathways converge in the phosphorylation of eIF2ɑ, leading to the synthesis of stress response transcription factors. It is unclear which eIF2ɑ kinases (PERK, PKR, GCN2, HRI) are activated in response to Aβ42 in neurons and required for ATF4 and CREB3L2 synthesis and dimerization. Post-translational mechanisms, including ubiquitination and proteasomal degradation, also control ATF4 and CREB3L2 abundance. For example, CREB3L2 is rapidly ubiquitinated and degraded by the proteasome under non-stress conditions. The impact of translational activation downstream of eIF2ɑ and ubiquitin-dependent proteasomal degradation on the formation and abundance of the CREB3L2-ATF4 heterodimer in Aβ42-exposed neurons remained unexplored.

In this study, we explored the role of proteasome inhibition and the eIF2ɑ-kinase HRI in the formation of CREB3L2-ATF4 in neurons exposed to soluble oligomeric Aβ42. While HRI activation increased ATF4 expression, it decreased CREB3L2 and CREB3L2-ATF4 levels. Interestingly, proteasome inhibition, induced by Aβ42, led to an increase in both transcription factors in the nucleus. These findings suggest that CREB3L2 levels are typically maintained low due to rapid degradation, but proteasome inhibition in response to Aβ42 disrupts this balance, resulting in an increase in CREB3L2 and heterodimer levels. Moreover, HRI activation not only reduced CREB3L2 and heterodimer levels but also prevented the transcriptional dysregulation of a CREB3L2-ATF4 target, SNX3. Our results indicate that manipulating the HRI pathway during proteasome inhibition could potentially restore normal gene expression in the context of AD-related protein accumulation.

Ulrich Hengst, PhD
Professor of Pathology & Cell Biology (in the Taub Institute)
uh2112@cumc.columbia.edu

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APOE and Alzheimer's Disease and Related Dementias Risk Among 12,221 Hispanics/Latinos

Sandra Barral Rodriguez, PhD    Giuseppe Tosto, MD, PhD
Sandra Barral, PhD    Giuseppe Tosto, MD, PhD

Despite the identification of over eighty genetic loci associated with Alzheimer’s disease and related dementias (ADRD), the Apolipoprotein E (APOE) ε4 allele remains the strongest and most consistently replicated genetic risk factor in the non-Hispanic White population. However, in populations with admixed genetic backgrounds, the risk conferred by the different APOE alleles is heterogeneous. These large differences in APOE-ε4 effects are likely to depend on both global genetic ancestry and local genetic ancestry, as well as gene–environment interactions. The strongest association between ADRD and APOE-ε4 has been observed in East Asians followed by Non-Hispanic Whites. Genetic studies examining the association between ADRD risk and APOE in African Americans and Caribbean-Hispanics showed that the risk is attenuated, especially when the ancestral background around the APOE locus is from the African haplotypes.


Figure. Meta-analysis and forest plot for APOE-ε4 (upper panel) and APOE-ε2 (lower panel) alleles. The plot details the beta coefficients (BETAs), standard errors (SEs), odd ratios (ORs), 95% confidence intervals (CIs), and the individual study weights according to their contributions to the pooled estimates. The horizontal lines represent the study’s 95% CIs, with each end of the line representing the boundaries of the CI. A black dot represents the point estimate of the study, and it also provides a visual representation of the size of the study (the largest dot corresponds to a larger sample size). The dotted vertical lines are drawn at the value of the overall common effect. The diamond below the studies represents the overall pooled effect.

In the current study, we investigated the association between APOE genotype and ADRD in 12,221 Hispanics/Latinos from four different populations: Caribbean-Hispanics, Mexican Americans, Mexicans, and Peruvians/Bolivians. As recently reported in Alzheimer’s & Dementia, our results showed a significant association between APOE-ε4 allele dosage and ADRD across the cohorts. The genetic effect of at least one copy of the ε4 allele on disease risk was higher in Peruvians/Bolivians (OR=6.13, 95%CI= 2.71–13.83) compared to Mexicans (OR=4.31, 95%CI=1.58-11.74), Mexican-Americans (OR=3.06, 95%CI=2.04-4.59) or Caribbean Hispanics (OR=2.22, 95%CI=1.99-2.48). Although not statistically significant, we also observed a protective effect for the APOE-ε2 allele on ADRD risk across cohorts.

When stratified by global ancestry, samples with predominantly Native-American ancestry and APOE-ε4 heterozygous carriers showed a significant association between APOE-ε4 allele and ADRD. Results restricted to predominant European ancestry also found a significantly higher risk among APOE-ε4 carriers. In sex stratified analysis, the association between the ε4 allele and ADRD in the men strata (OR=2.20, 95%CI=1.85-2.62) was found significant yet weaker than in women (OR=2.84, 95%CI=2.51-3.22).

Survival analysis in Caribbean-Hispanics cohorts showed statistically significant differences in the number of conversions between ε4 allele carriers vs. non-carriers (HR=3.65, 95%CI=1.62-8.23 for homozygous ε4-carriers). The effect of the ε4 allele was further corroborated by plasma ADRD biomarkers analyses. Despite the heterogeneity of the platforms employed, all cohorts showed a significant increase in plasma levels of p-tau181 or p-tau217 among APOE-ε4 carriers. Our results showed that APOE-ε4 allele confers a heterogeneous risk for ADRD across Hispanic/Latino sample, the largest to date. None of the analysis cohorts replicated the effect of local ancestral background around the APOE region in determining ADRD risk, as previously reported by less-powered studies.

Different genetic architectures among ethnic groups may influence how genetic factors contribute to ADRD risk. To gain further insight into ADRD pathogenesis, future work should aim to reproduce our findings with larger, and more diverse admixed populations, more specifically those with Native American background.

Sandra Barral, PhD
Associate Professor of Neurogenetics (in Neurology, the Taub Institute, and the Gertrude H. Sergievsky Center) at CUIMC
smb2174@cumc.columbia.edu

Giuseppe Tosto, MD, PhD
Assistant Professor of Neurological Sciences (in Neurology, the Taub Institute, and the Gertrude H. Sergievsky Center)
smb2174@cumc.columbia.edu

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A Human Brain Map of Mitochondrial Respiratory Capacity and Diversity

Eugene  Mosharov, PhD    Martin Picard, PhD
Eugene Mosharov, PhD    Martin Picard, PhD

The brain is the most energy-hungry organ in the body, consuming 20-25% of the body’s energy budget. The brain’s high burn rate powers synapses and makes new proteins required for its complex functioning—from encoding our memories to sustaining the oscillations required for consciousness. To power its activities, the brain cell contains thousands of mitochondria which populate the cell bodies, the axons and dendrites of neurons, as well as the cytoplasm of the dozens of glial cell types that keep the brain alive. Mitochondrial oxidative phosphorylation (OxPhos) powers brain activity while mitochondrial defects are linked to neurodegenerative and neuropsychiatric disorders, underscoring the need to define the brain’s molecular energetic landscape.

As recently reported in Nature, we’ve made the first attempt to bridge a scale gap between the subcellular mitochondrial biology and the macro-level anatomical structures and neuroimaging models that are the focus of cognitive neuroscience. This project and the resulting MitoBrainMap v1.0 are exceptional for three main reasons.

Figure. Creating MitoBrainMap-1
Figure. Creating MitoBrainMap-1. (A) An image of the top surface of a human brain slab after a square 3x3 mm grid was milled to the depth of 3 mm. Lower image shows the voxels collected for biochemical assays. (B) The respiratory capacity of mitochondria in each voxel was assessed using biochemical techniques, and the values are represented by color coding. Voxels with brighter colors contain mitochondria that are more highly specialized for energy transformation than mitochondria in voxels with darker colors. (C) A map of mitochondrial respiratory capacity across the brain, predicted from brain-imaging data of various modalities, including functional data (reflecting activity associated with changes in blood flow) and various types of structural data.

The first advance was a new method to physically “voxelize” the frozen tissue. Using a healthy donor brain provided by the Quantitative Brain Biology (Brain QUANT, Psychiatry), directed by Maura Boldrini and maintained by Gorazd Rosoklija and Andrew Dwork, we systematically partition a single frozen section into 703 small voxels, comparable in size (3x3x3mm) to neuroimaging resolution.

The second advance was to molecularly define the bioenergetic landscape of mitochondrial phenotypes and diversity across brain regions, including white matter and different portions of the cortical and sub-cortical gray matter regions. This was performed in collaboration with two other teams. Philip L. De Jager, Vilas Menon and Ya Zhang from the Taub Institute and the Center for Translational and Computational Neuroimmunology, who performed single-nucleus RNA sequencing on four brain samples with Anna Monzel in Picard’s laboratory. And Orian Shirihai’s team including Linsey Stiles and Corey Osto at the UCLA Metabolism Theme, who deployed a frozen tissue respirometry technique they pioneered a few years back. It was the first time these assays were performed on hundreds of samples from a human brain. Such tour de force approach revealed qualitative differences in mitochondria density and OxPhos capacity between both regions and cell types in the brain. Quite surprisingly, we also found that higher OxPhos capacity is found in brain areas that appeared later in evolution, such as the cortex.

The third advance came from a computational model, extending the data from a single brain slice to the whole brain. Michel Thiebaut de Shotten, neuroanatomist and Research Director at CNRS in Bordeaux, transposed the mitochondrial data from this brain section to the “standard” brain in neuroimaging research. This allowed us to visualize and interpret the biochemical data in relation to widely available neuroimaging modalities and to build a computational model to predict molecular markers of mitochondrial density and OxPhos capacity from standard structural and functional MRI neuroimaging parameters. The final step consisted in expanding the prediction model to the scale of the whole brain. This led to the first probabilistic map of mitochondrial biology, meaning that even though we never measured mitochondrial features in some deep part of the temporal lobe, our model can predict the amount and types of mitochondria found there based on MRI data.

The brain voxelization method and the brain mitochondrial findings reveal the landscape of human brain mitochondrial energetics and provide a new tool to understand how brain energy relates to anatomy, development, behavior, neurodegeneration, well-being, and perhaps even biggest questions around the mind and consciousness. Further research is now needed to test, validate and apply this neuroimaging-based mitochondrial profiling approach in various biological and clinical contexts.

Eugene Mosharov, PhD
Research Scientist in the Department of Psychiatry
em706@cumc.columbia.edu

Martin Picard, PhD
Science of Health Associate Professor of Behavioral Medicine (in Psychiatry, Neurology and the Robert N. Butler Columbia Aging Center)
mp3484@cumc.columbia.edu

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Preclinical Alzheimer's Disease Shows Alterations in Circulating Neuronal-Derived Extracellular Vesicle MicroRNAs in a Multiethnic Cohort

Paolo Reho, PhD    Badri Vardarajan, PhD, MS
Paolo Reho, PhD    Badri N. Vardarajan, PhD, MS

In a recent study, conducted in collaboration with colleagues at the Mailman School of Public Health and Columbia University Irving Medical Center, we explored the potential of blood-based biomarkers—specifically microRNAs (miRNAs) found in neuronal-derived extracellular vesicles (NDEVs)—to signal early changes in the brain. These vesicles cross the blood–brain barrier and carry neuron-specific cargo, making them a compelling target for non-invasive diagnostics. We analyzed blood samples from individuals with clinical and preclinical AD, as well as healthy controls, to determine whether changes in NDEV miRNAs could reveal early-stage disease biology.


Figure 1. Study workflow. Schematic representation of the study workflow. Abbreviations: AD, Alzheimer's disease; EVs, extracellular vesicles; miRNA, microRNA. Figure created with BioRender.com.

As recently reported in Alzheimer’s & Dementia, we identified fourteen NDEV miRNAs associated with AD risk, with more pronounced transcriptional alterations observed in individuals with preclinical AD. Functional analysis revealed that these miRNAs target genes involved in key neurodegenerative pathways, including those related to tau (MAPT), alpha-synuclein (SNCA), and cytochrome c (CYCS). These findings support the potential of NDEV miRNAs as early biomarkers for AD and provide insight into the molecular processes that may precede the onset of clinical symptoms.

Badri N. Vardarajan, PhD, MS
Associate Professor of Neurological Science (in Neurology and the Gertrude H. Sergievsky Center and the Taub Institute) at the CUIMC
bnv2103@cumc.columbia.edu

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