Structural Neuroimaging Genetics Interactions in Alzheimer’s Disease

Moon, Seok Woo; Dinov, Ivo D.; Kim, Jaebum; Zamanyan, Alen; Hobel, Sam; Thompson, Paul M.; Toga, Arthur W.

doi:10.3233/jad-150335

Cited by 41 publications

(28 citation statements)

References 68 publications

(89 reference statements)

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“…Similar processing to Amyloid PET was performed to measure Tau PET SUVR. ADNI-3 Tau PET includes a broad set of regional MRI preprocessing and brain parcellation T1w preprocessing and parcellation was done using the FreeSurfer (v5.3.0) software package, which is freely available [45], and data processing using the Laboratory of Neuro Imaging (LONI) pipeline system (http://pipeline.loni.usc.edu) [46][47][48][49], similar to [50,51]. Brain volume and white matter mask were derived from the Desikan-Killiany atlas [52].…”

Section: Positron Emission Tomographymentioning

confidence: 99%

Alteration of perivascular spaces in early cognitive decline

Sepehrband

Barisano

Sheikh‐Bahaei

et al. 2020

Preprint

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Vascular contributions to early cognitive decline are increasingly recognized, prompting further investigation into the nature of related changes in perivascular space. Using magnetic resonance imaging, we show that, compared to a cognitively normal sample, individuals with early cognitive dysfunction have altered perivascular space presence and distribution, irrespective of Amyloid-.Surprisingly, we noted decreased perivascular space presence in the anterosuperior medial temporal lobe, which was associated with neurofibrillary tau tangle deposition in the entorhinal cortex, one of the hallmarks of early Alzheimer's disease pathology. Our results suggest that anatomically-specific alteration of the perivascular spaces may provide an early biomarker of cognitive impairment in aging adults.

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Section: Positron Emission Tomographymentioning

confidence: 99%

Alteration of perivascular spaces in early cognitive decline

Sepehrband

Barisano

Sheikh‐Bahaei

et al. 2020

Preprint

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“…Finally, the computational analysis identified several genes that represent the target of most of the significant miRNAs (see Table ). Of interest, some of these genes have been reported implicated in diseases with cognitive impairment, for example, BRI3, RGS6, DIP2A, ZBTB16, BACE2, SIRBP1, IGF2BP2, FCRL5, RTN3, FAM46A, MCF2L, SPI1, and TREM1 in Alzheimer's disease (Abd‐Elrahman, Hamilton, Vasefi, & Ferguson, ; Chung et al, ; Comabella et al, ; Dashinimaev, Artyuhov, Bolshakov, Vorotelyak, & Vasiliev, ; De Jager et al, ; Gaikwad et al, ; Gasparoni et al, ; Matsuda, Matsuda, & D'Adamio, ; Moon et al, ; Replogle et al, ; Schott et al, ; Shi, Ge, He, Hu, & Yan, ); or in clinical conditions characterized by behavioral changes, such as NTNG2 in cognitive abnormalities associated with defective axonal amygdalar projections (Huang et al, ) or bipolar disorders (Egger et al, ), or RAB11FIP5, WARS, and HES6 in depression and other mood disorders (Bacaj, Ahmad, Jurado, Malenka, & Sudhof, ; Glubb, Joyce, & Kennedy, ; Musante et al, ). Furthermore, the experimental ablation of CACNA1H , a gene already associated with the RR course of MS (Sadovnick et al, ), was able to trigger affective disorders including anxiety and hippocampus‐dependent recognition memories (Gangarossa, Laffray, Bourinet, & Valjent, ).…”

Section: Discussionmentioning

confidence: 99%

Association between miRNAs expression and cognitive performances of Pediatric Multiple Sclerosis patients: A pilot study

et al. 2019

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Introduction The Pediatric onset of Multiple Sclerosis (PedMS) occurs in up to 10% of all cases. Cognitive impairment is one of the frequent symptoms, exerting severe impact in patients’ quality of life and school performances. The underlying pathogenic mechanisms are not fully understood, and molecular markers predictive of cognitive dysfunctions need to be identified. On these grounds, we searched for molecular signature/s (i.e., miRNAs and target genes) associated with cognitive impairment in a selected population of PedMS patients. Additionally, changes of their regional brain volumes associated with the miRNAs of interest were investigated. Methods Nineteen PedMS subjects received a full cognitive evaluation; total RNA from peripheral blood samples was processed by next‐generation sequencing followed by a bioinformatics/biostatistics analysis. Results The expression of 11 miRNAs significantly correlated with the scores obtained at different cognitive tests; among the others, eight miRNAs correlated with the Trail Making Tests. The computational target prediction identified 337 genes targeted by the miRNAs of interest; a tangled network of molecular connections was hypothesized, where genes like BST1, NTNG2, SPTB, and STAB1 , already associated with cognitive dysfunctions, were nodes of the net. Furthermore, the expression of some miRNAs significantly correlated with cerebral volumes, for example, four miRNAs with the cerebellum cortex. Conclusions As far as we know, this is the first evaluation exploring miRNAs in the cognitive performances of PedMS. Although none of these results survived the multiple tests’ corrections, we believe that they may represent a step forward the identification of biomarkers useful for monitoring and targeting the onset/progression of cognitive impairments in MS.

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“…Within heart, RGS6 functions as an essential modulator of parasympathetic activation to prevent parasympathetic override and severe bradycardia (Yang et al, 2010). Studies relating RGS6 to human diseases are limited, although literature suggests that RGS6-specific modulation of Ga may be involved in regulating several central nervous system diseases such as alcoholism (Stewart et al, 2015), anxiety and depression (Stewart et al, 2014), Parkinson's disease (Bifsha et al, 2014), Alzheimer's disease (Moon et al, 2015), schizophrenia (Schizophrenia Working Group of the Psychiatric Genomics, 2014), and vision (Chograni et al, 2014). Prolonged exposure to alcohol upregulates RGS6 protein in a brain region known as the ventral tegmental area of wild-type mice.…”

Section: B the R7 Familymentioning

confidence: 99%

Genetic Analysis of Rare Human Variants of Regulators of G Protein Signaling Proteins and Their Role in Human Physiology and Disease

et al. 2018

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Regulators of G protein signaling (RGS) proteins modulate the physiologic actions of many neurotransmitters, hormones, and other signaling molecules. Human RGS proteins comprise a family of 20 canonical proteins that bind directly to G protein-coupled receptors/G protein complexes to limit the lifetime of their signaling events, which regulate all aspects of cell and organ physiology. Genetic variations account for diverse human traits and individual predispositions to disease. RGS proteins contribute to many complex polygenic human traits and pathologies such as hypertension, atherosclerosis, schizophrenia, depression, addiction, cancers, and many others. Recent analysis indicates that most human diseases are due to extremely rare genetic variants. In this study, we summarize physiologic roles for RGS proteins and links to human diseases/traits and report rare variants found within each human RGS protein exome sequence derived from global population studies. Each RGS sequence is analyzed using recently described bioinformatics and proteomic tools for measures of missense tolerance ratio paired with combined annotation-dependent depletion scores, and protein post-translational modification (PTM) alignment cluster analysis. We highlight selected variants within the well-studied RGS domain that likely disrupt RGS protein functions and provide comprehensive variant and PTM data for each RGS protein for future study. We propose that rare variants in functionally sensitive regions of RGS proteins confer profound change-of-function phenotypes that may contribute, in newly appreciated ways, to complex human diseases and/or traits. This information provides investigators with a valuable database to explore variation in RGS protein function, and for targeting RGS proteins as future therapeutic targets.

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Structural Neuroimaging Genetics Interactions in Alzheimer’s Disease

Cited by 41 publications

References 68 publications

Alteration of perivascular spaces in early cognitive decline

Alteration of perivascular spaces in early cognitive decline

Association between miRNAs expression and cognitive performances of Pediatric Multiple Sclerosis patients: A pilot study

Genetic Analysis of Rare Human Variants of Regulators of G Protein Signaling Proteins and Their Role in Human Physiology and Disease

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