The Impact of Genome-Wide Supported Schizophrenia Risk Variants in the Neurogranin Gene on Brain Structure and Function

Walton, Esther, Geisler, Daniel, Hass, Johannes, Liu, Jingyu, Turner, Jessica, Yendiki, Anastasia, Smolka, Michael N., Ho, Beng-Choon, Manoach, Dara S., Gollub, Randy L., Rößner, Veit, Calhoun, Vince D., Ehrlich, Stefan

06 February 2014

The neural mechanisms underlying genetic risk for schizophrenia, a highly heritable psychiatric condition, are still under investigation. New schizophrenia risk genes discovered through genome-wide association studies (GWAS), such as neurogranin (NRGN), can be used to identify these mechanisms. In this study we examined the association of two common NRGN risk single nucleotide polymorphisms (SNPs) with functional and structural brain-based intermediate phenotypes for schizophrenia. We obtained structural, functional MRI and genotype data of 92 schizophrenia patients and 114 healthy volunteers from the multisite Mind Clinical Imaging Consortium study. Two schizophrenia-associated NRGN SNPs (rs12807809 and rs12541) were tested for association with working memory-elicited dorsolateral prefrontal cortex (DLPFC) activity and surface-wide cortical thickness. NRGN rs12541 risk allele homozygotes (TT) displayed increased working memory-related activity in several brain regions, including the left DLPFC, left insula, left somatosensory cortex and the cingulate cortex, when compared to non-risk allele carriers. NRGN rs12807809 non-risk allele (C) carriers showed reduced cortical gray matter thickness compared to risk allele homozygotes (TT) in an area comprising the right pericalcarine gyrus, the right cuneus, and the right lingual gyrus. Our study highlights the effects of schizophrenia risk variants in the NRGN gene on functional and structural brain-based intermediate phenotypes for schizophrenia. These results support recent GWAS findings and further implicate NRGN in the pathophysiology of schizophrenia by suggesting that genetic NRGN risk variants contribute to subtle changes in neural functioning and anatomy that can be quantified with neuroimaging methods.

Allele

Antipsychotika

Neuroleptika

Funktionelle Magnetresonanztomographie

Haplotyp

Phänotyp

Schizophrenie

Genotyp

Arbeitsgedächtnis

TU Dresden

Publikationsfonds

Alleles

Antipsychotics

Functional magnetic resonance imaging

Haplotypes

Phenotypes

Schizophrenia

Variant genotypes

Working memory

Technical University Dresden

Publication funds

ddc:610

rvk:XA 10000

The Impact of Genome-Wide Supported Schizophrenia Risk Variants in the Neurogranin Gene on Brain Structure and Function

Walton, Esther, Geisler, Daniel, Hass, Johannes, Liu, Jingyu, Turner, Jessica, Yendiki, Anastasia, Smolka, Michael N., Ho, Beng-Choon, Manoach, Dara S., Gollub, Randy L., Rößner, Veit, Calhoun, Vince D., Ehrlich, Stefan

06 February 2014

The neural mechanisms underlying genetic risk for schizophrenia, a highly heritable psychiatric condition, are still under investigation. New schizophrenia risk genes discovered through genome-wide association studies (GWAS), such as neurogranin (NRGN), can be used to identify these mechanisms. In this study we examined the association of two common NRGN risk single nucleotide polymorphisms (SNPs) with functional and structural brain-based intermediate phenotypes for schizophrenia. We obtained structural, functional MRI and genotype data of 92 schizophrenia patients and 114 healthy volunteers from the multisite Mind Clinical Imaging Consortium study. Two schizophrenia-associated NRGN SNPs (rs12807809 and rs12541) were tested for association with working memory-elicited dorsolateral prefrontal cortex (DLPFC) activity and surface-wide cortical thickness. NRGN rs12541 risk allele homozygotes (TT) displayed increased working memory-related activity in several brain regions, including the left DLPFC, left insula, left somatosensory cortex and the cingulate cortex, when compared to non-risk allele carriers. NRGN rs12807809 non-risk allele (C) carriers showed reduced cortical gray matter thickness compared to risk allele homozygotes (TT) in an area comprising the right pericalcarine gyrus, the right cuneus, and the right lingual gyrus. Our study highlights the effects of schizophrenia risk variants in the NRGN gene on functional and structural brain-based intermediate phenotypes for schizophrenia. These results support recent GWAS findings and further implicate NRGN in the pathophysiology of schizophrenia by suggesting that genetic NRGN risk variants contribute to subtle changes in neural functioning and anatomy that can be quantified with neuroimaging methods.

info:eu-repo/classification/ddc/610

ddc:610

Molekulárně genetická analýza pacientů s Usherovým syndromem / Molecular genetic analysis of patients with Usher syndrome

Průšová, Kateřina

January 2020

The work focuses on molecular genetic testing of patients with Usher syndrome to confirm the diagnosis, to determine the causal cause of the disease and describe new mutations causing Usher syndrome in Czech patients. Usher syndrome is a clinically and genetically heterogeneous disease that is the most common cause of hereditary deafblindness. Based on responsible genes and disease onset is classified into three clinical subtypes. Given the fact that there is currently no specific treatment, there is a need to understand the pathophysiology of this disease and to broaden the spectrum of causal mutations. The theoretical part of the thesis deals with the anatomy of the eye, especially the structure of the retina. Attention is also paid to retinal diseases, such as the progressive loss of vision characteristic for retinitis pigmentosa (RP). RP may occur either as an isolated disorder or also affecting other organs, so-called syndromic RP. Classic syndromic RP includes Usher's syndrome, which the work mainly deals with. The theoretical part of the thesis describes mainly the mechanism of the disease, the functions of individual Usher proteins and the genes that encode these proteins. The haplotype analysis has been previously done for the most common mutations causing Usher's syndrome in Europe Based...

Chromatin folding in health and disease: exploring allele-specific topologies and the reorganization due to the 16p11.2 deletion in autism-spectrum disorder.

Kempfer, Rieke

09 November 2020

Die 3D Struktur von Chromosomen im Zellkern reguliert verschiedene Funktionen in der Zelle und Fehler in der 3D Faltung des Genoms können pathogen sein. 3D Genomfaltung kann mit verschiedenen Methoden untersucht werden um Chromatinkontakte, sowie die Position von DNA in Relation zu sub-nuklearen Bereichen oder der Kernmembran zu detektieren. Hier verwende ich GAM und Hi-C um zwei Aspekte der 3D Genomtopologie zu untersuchen, die Allelspezifität von Chromatinkontakten und Kontakte zwischen Chromosomen. Ich untersuche allelspezifische Kontakte in murinen embryonalen Stammzellen und Interaktionen zwischen Chromosomen im Zusammenhang mit Autismus Spektrum Störung auf ihre Relevanz in der Regulation von Genen. Zur allelspezifischen Detektion von Chromatinkontakten generierte ich einen GAM Datensatz der tausende von nuklearen Cryodünnschnitten enthält. Die Generierung dieser Daten beinhaltete die Entwicklung einer verbesserten Version der GAM Methode zur Produktion von großen Datensätzen in Hochdurchsatz. Hier zeige ich, dass GAM effizient Haplotyp-spezifische Chromatinkontakte bestimmen kann. Erste Untersuchungen von allelspezifischer 3D Genomtopologie zeigten weitreichende Unterschiede zwischen den Allelen, welche „A/B compartments“ und spezifische Chromatinkontakte beinhalten, wie zum Beispiel am Imprinting Locus H19/Igf2. Zur Untersuchung von interchromosomalen Kontakten detektierte ich Chromatinkontakte mit Hi-C im Kontext einer genomischen Deletion am humanen 16p11.2 Locus, assoziiert mit Autismus Spektrum Störung. Ich zeige hier, dass die Deletion am 16p11.2 Locus zu der Reorganisation von spezifischen interchromosomalen Kontakten zwischen 16p11.2 und Chromosom 18 führt, und stelle eine Hypothese auf wie diese interchromosomalen Kontakte zur ektopischen Aktivierung von Pcdh Genen auf Chromosom 18 führen. Protocadherins haben wichtige Funktionen in neuronaler Konnektivität, ein Prozess dessen Störung zur Manifestierung von Autismus Spektrum Störung beitragen könnte. / The 3D folding of interphase chromosomes inside the nucleus regulates important nuclear functions and once disrupted can lead to the manifestation of disease. Different techniques can be used to map 3D genome folding and detect pairwise and multiway interactions of the genome, or map the positions of DNA with respect to subnuclear compartments or the nuclear lamina. Here, I use GAM and Hi-C to explore two aspects of 3D genome topology, the allele specificity of chromatin contacts and long-range contacts between chromosomes, respectively. I detect specific contacts of the parental alleles in mouse embryonic stem cells and interactions between chromosomes in the context of congenital disease and study them with regard to their functionality and importance in mammalian gene regulation. For detecting chromatin contacts with allele specificity, I produced a GAM dataset containing thousands of nuclear slices. The collection of this data was accompanied by the development of a high-throughput version of GAM that allows the generation of large datasets. I show that GAM can determine haplotype-specific chromatin contacts with high efficiencies. First explorations of allele-specific chromatin topologies reveal many differences between the parental alleles, including allele-specific compartments A and B, and specific chromatin contacts, for example at the imprinted H19/Igf2 locus. For the exploration of inter-chromosomal contacts in disease, I mapped chromatin interactions with Hi-C in the context of a CNV at the human 16p11.2 locus, associated with autism spectrum disorders. Here, I show that the deletion at the 16p11.2 locus results in the rearrangement of specific inter-chromosomal contacts between the 16p11.2 locus and chromosome 18 and propose a role for these inter-chromosomal contact changes in the upregulation of the nearby Pcdhb gene cluster, which comprises protocadherin genes with important functions in neuronal connectivity during development.

3D Genomtopologie

Haplotyp-spezifische Chromatinkontakte

16p11.2

Genome Architecture Mapping (GAM)

3D genome topology

allele-specific chromatin contacts

16p11.2

Genome Architecture Mapping (GAM)

570 Biologie

WE 4800

WE 6000

YH 6912

YH 6913

ddc:570

Untersuchungen zur Assoziation genetischer Polymorphismen im Gen des Endotoxinrezeptors CD14 mit der transkriptionellen Aktivität / Investigations of Association of Genetic Polymorphisms in the CD14 Endotoxin Receptor Gene with Transcriptional Activity

Bregadze, Rusudan

20 October 2010

No description available.

610 Medizin, Gesundheit

Medicine

Single nucleotide polymorphism (SNP)

Genexpression

allelische Expression

Haplotyp

angeborene Immunität

CD14

Lipopolysaccharid (LPS)

Haplotypisierung

Single nucleotide polymorphism (SNP)

gene expression

allelic expression

haplotype

innate immunity

CD14

lipopolysaccharide (LPS)

haplotyping

42.13

44.45

MED 283: Molekularbiologie {Medizin}

MED 341: Immunologie {Medizin}