Role of HDACs in the regulation of TERT in neuroblastoma

Finkler, Sabine

24 February 2021

Hohe Telomeraseaktivität bedingt durch genomische TERT-Rearrangements definiert eine Gruppe an Hochrisiko-Neuroblastompatienten mit ungünstiger Prognose. Das Abzielen auf Telomerase ist ein hochpriorisierter Ansatzpunkt in der Therapie, für die es bislang keine klinisch erfolgreichen Inhibitoren gibt. Der Einsatz von epigenetisch wirksamen Histondeacetylase Inhibitoren (HDACi) stellt dabei eine interessante Therapieoption dar. In TERT-rearrangierten Neuroblastomzellen erzielte die Behandlung mit verschiedenen pan-, Klasse I oder spezifischen HDAC1/2 Inhibitoren eine Supprimierung der TERT mRNA Expression und der Telomeraseaktivität. RNA-Interferenz Studien bestätigten, dass HDAC1 und HDAC2 die TERT Expression positiv regulieren. Die transiente Überexpression von TERT zeigte einen partiellen Rescue des HDACi-bedingten anti-proliferativen Effekts. Der präventive und therapeutische Einsatz von HDACi Panobinostat verlangsamte das Xenografttumorwachstum, die TERT-Expression und Telomeraseaktivität in subkutanen NMRI-Foxn1nu/nu Mausmodellen des TERT-rearrangierten Neuroblastoms bei klinisch relevanten Dosen. Dies zeigt das translationale Potential und die klinische Durchführbarkeit der Panobinostat-Behandlung. ChIP Sequenzierung und Methylierungsanalyse zeigten keine bedeutenden Unterschiede der Histonmodifikationen und der Methylierung von CpG Dinukleotiden am TERT Lokus nach Panobinostatbehandlung. Die Inhibierung der de novo RNA Synthese zeigte, dass die Stabilität des TERT mRNA Transkripts nach Panobinostatbehandlung verringert war. Dies deutet darauf hin, dass die reduzierte Transkriptstabilität der zugrundeliegende molekulare Mechanismus ist. Zusammenfassend konnte gezeigt werden, dass die hohe Telomeraseaktivität in TERT-rearrangierten Neuroblastommodellen durch den Einsatz zugelassener HDACi supprimiert werden kann. / Telomerase activation by genomic TERT-rearrangements defines a subgroup of high-risk neuroblastomas with adverse outcome. Accordingly, telomerase activity presents a high-priority drug target with no currently available clinical inhibitors. It was assessed whether telomerase activity could be inhibited through histone deacetylase (HDAC) inhibition in models of TERT-rearranged neuroblastoma. Treatment with a panel of seven pan-, class I- or specific HDAC1/2 inhibitors suppressed TERT mRNA expression and telomerase activity in TERT-rearranged neuroblastoma cells at clinically achievable concentrations. RNA interference-based studies confirmed that HDAC1 and HDAC2 positively regulate TERT transcript levels. Enforced TERT expression partly rescued the anti-proliferative effect of HDAC inhibition indicating a causal role of TERT suppression in the HDAC inhibitormediated tumor-suppressive phenotype. Panobinostat treatment, in preventive and therapeutic settings, considerably attenuated tumor growth in subcutaneous TERT-rearranged neuroblastoma xenograft models in NMRI-Foxn1nu/nu mice and suppressed TERT transcript levels and telomerase activity at clinically relevant doses, thus demonstrating translational potential and clinical feasibility. ChIP sequencing detected no major differences in the chromatin context of the TERT locus between HDAC inhibitor-treated and control cells. Likewise, HDAC inhibition did not substantially alter the methylation profile in the TERT region. Blocking de novo RNA synthesis, however, reduced TERT mRNA transcript levels in HDAC inhibitor-treated cells, suggesting reduced TERT transcript stability as the underlying molecular mechanism. In summary, high-level telomerase activity caused by genomic rearrangements in neuroblastoma models is suppressed by treatment with clinically approved HDAC inhibitors, suggesting indirect druggability and a potential molecular rationale for therapeutic intervention.

Neuroblastom

TERT

Telomerase

Histondeacetylase

Krebs

Niedermolekularer Inhibitor

Panobinostat

Epigenetik

Neuroblastoma

TERT

Telomerase

Histone deacetylase

Cancer

Small molecule inhibitor

Panobinostat

Epigenetic

576 Genetik und Evolution

570 Biologie

XH 8565

XH 8562

XH 8563

WD 5060

ddc:576

ddc:570

Production of ganglioside biosynthetic membrane enzymes for biochemical and functional studies : Expression, purification and crystallization optimization of Thermococcus onnurineus Dolicho l-phosphate mannose synthase, Homosapiens and Branchiostoma floridae Glucosylceramide synthase

Lindholm, Ellinor

January 2018

Glycolipids play important roles in the biology of prokaryotes and eukaryotes, including humans, and although theyare found on the cell-membrane surface of all eukaryotic cells, not much is known about their biosynthesis. The aim ofthis project was to characterize two enzymes: glucosylceramide synthase (GCS) which is involved in the biosynthesisof glycolipids such as gangliosides that are abundant in the membranes of nerve cells; and dolicholphosphate mannosesynthase (DPMS), involved in the synthesis precursor for protein glycosylation. Both GCS and DPMS have been shown play a role in cancer as well as in congenital disorders of glycosylation, and are therefore interesting targets tostudy from a therapeutic perspective.With the goal to identify a suitable expression system for GCS, the genes coding for GCS from lancelet (Branchiostoma floridae) and human (Homo sapiens) were cloned and tested for expression in Escherichia coliBL21(DE3)T1 and C41(DE3) using different vectors. Cloning into three different vectors was successful and initial expression testing was performed. SDS-PAGE analysis confirmed initial expression of proteins. Although the correctsize of the protein could be confirmed by Western blot, no fluorescence of the GFP-fusion protein could be detected.DPMS from Thermococcus onnurineus (ToDP) was expressed in E. coli C41(DE3) and purified by immobilized metal ion affinity chromatography and gel filtration. Crystallization optimization was performed for ToDP produced from the vector pNIC28-Bsa4 and plate-like crystals were obtained. X-ray intensity data analysis indicated that thesecrystals contained lipid rather than protein. Crystallization screening for ToDP produced from the vector pNIC-CTHO construct was successful. Crystallization screening using the commercially available MemGold-HT96 crystallization kit resulted in initial crystallization that yielded protein crystals that diffracted to 10 °A resolution. / Glykolipider är viktiga biologiska byggstenar hos prokaryoter och eukaryoter, även människor. Trots att glykolipider finns på cellmembran ytan hos alla eukaryota celler är inte mycket känt kring syntesen av glykolipider. Målet med detta projekt var att karaktärisera två enzym: glukosylceramidsyntas (GCS) som är involverat i biosyntesen av glykolipider som gangliosider vilka förekommer i cellmembranet hos människors nervceller; och dolikolfosfatmannossyntas (DPMS) som är involverat i syntesen av substrat för proteinglykosylering. Både GCS och DPMS harvisat sig spela en roll i cancer och medfödda glykosyleringssjukdomar och är därför intressanta enzym att studera ur ett medicinskt perspektiv.Med målet att identifiera ett lämpligt expressionssystem för GCS, klonades gener från lansett (Branschiostomafloridae) och människa (Homo sapiens) och testades för expression i Escherichia coli BL21(DE3)T1 och C41(DE3)med olika vektorer. Kloning av tre olika vektorer lyckades och expressionstester utfördes. Analys med SDS-PAGE bekräftade expression av protein. Trots att korrekt storlek av proteinet kunde bekräftas med Western blot, detekterades ingen fluorescens från GFP-fusionsproteinet. DPMS från Thermococcus onnurineus (ToDP) i två olika konstrukt uttrycktes i E. coli C41(DE3) och renades med immobiliserad metalljonaffinitetskromatografi och gelfiltrering. Kristalliseringsoptimering utfördes för ToDP uttryckt i vektorn pNIC28-Bsa4 och skivliknande kristaller erhölls. Diffraktionsdata indikerade dock att kristallerna innehöll lipider och inte protein. Kristallisering av ToDP uttryckt i vektorn pNIC-CTHO lyckades och initiala kristallingsförhållanden hittades genom att använda det kommersiellt tillgängliga kristalliseringskitet MemGold-HT96. Diffraktionsdata visade på upplösning ner till 10 Å.

glycoconjugates

glycolipids

integral membrane proteins

gangliosides

glucosylceramide synthase

dolicholphosphate mannose synthase

cancer

neuroblastoma

congenital disorders of glycosylation

glykokonjukat

glykolipider

membranprotein

gangliosider

glukosylceramidsyntas

dolicholfosfat mannossyntas

cancer

neuroblastom

medfdd glykosyleringssjukdom

Other Engineering and Technologies

Annan teknik

Die Bedeutung von Stanniocalcin 2 im humanen Neuroblastom / Relevance of Stanniocalcin 2 in human Neuroblastoma

Volland, Sonja

21 January 2009

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Neuroblastom

STC2

Invasion

Genexpression

Neuroblastoma

STC2

Invasion

gene expression

42.15

44.81

42.13

MED 424: Onkologie

MED 461: Pädiatrie, Neonatologie

WHF 500: Zellteilung {Cytologie}

WHF 900: Zelltod, Apoptose {Cytologie}

WH 000: Cytologie {Biologie}

Cis-regulation and genetic control of gene expression in neuroblastoma

Burkert, Christian Martin

28 June 2021

Genregulation beeinflusst Phänotypen im Kontext von Gesundheit und Krankheit. In Krebszellen regulieren genetische und epigenetische Faktoren die Genexpression in cis. Das Neuroblastom ist eine Krebserkrankung, die häufig im Kindesalter auftritt. Es ist gekennzeichnet durch eine geringe Anzahl exonischer Mutationen und durch häufige Veränderungen der somatischen Kopienzahl, einschließlich Genamplifikationen auf extrachromosomaler zirkulärer DNA. Bisher ist wenig darüber bekannt, wie lokale genetische und epigenetische Faktoren Gene im Neuroblastom regulieren. In dieser Arbeit kombiniere ich die allelspezifische Analyse ganzer Genome (WGS), Transkriptome und zirkulärer DNA von Neuroblastom-Patienten, um genetische und cis-regulatorische Effekte zu charakterisieren. Ich zeige, dass somatische Dosis-Effekte der Kopienzahl andere lokale genetische Effekte dominieren und wichtige Signalwege regulieren. Genamplifikationen zeigen starke Dosis-Effekte und befinden sich häufig auf großen extrachromosomalen zirkulären DNAs. Die vorgestellte Analyse zeigt, dass der Verlust von 11q zu einer Hochregulation von Histonvarianten H3.3 und H2A in Tumoren mit alternativer Verlängerung der Telomere (ALT) führt, und dass erhöhte somatische Kopienzahl die Expression der TERT Gens verstärken können. Weitere Erkenntnisse sind, dass 17p-Ungleichgewichte und die damit verbundene Herunterregulierung neuronaler Gene sowie die Hochregulierung des genomisch geprägten Gens RTL1 durch Kopienzahl-unabhängige allelische Dosis-Effekte mit einer ungünstigen Prognose verbunden sind. Die cis-QTL-Analyse bestätigt eine zuvor beschriebene Regulation des LMO1 Gens durch einen Enhancer-Polymorphismus und charakterisiert das regulatorische Potenzial weiterer GWAS-Risiko-Loci. Die Arbeit unterstreicht die Bedeutung von Dosis-Effekten im Neuroblastom und liefert eine detaillierte Übersicht regulatorischer Varianten, die in dieser Krankheit aktiv sind. / Gene regulation controls phenotypes in health and disease. In cancer, the interplay between germline variation, genetic aberrations and epigenetic factors modulate gene expression in cis. The childhood cancer neuroblastoma originates from progenitor cells of the sympathetic nervous system. It is characterized by a sparsity of recurrent exonic mutations but frequent somatic copy-number alterations, including gene amplifications on extrachromosomal circular DNA. So far, little is known on how local genetic and epigenetic factors regulate genes in neuroblastoma to establish disease phenotypes. I here combine allele-specific analysis of whole genomes, transcriptomes and circular DNA from neuroblastoma patients to characterize genetic and cis-regulatory effects, and prioritize germline regulatory variants by cis-QTLs mapping and chromatin profiles. The results show that somatic copy-number dosage dominates local genetic effects and regulates pathways involved in telomere maintenance, genomic stability and neuronal processes. Gene amplifications show strong dosage effects and are frequently located on large but not small extrachromosomal circular DNAs. My analysis implicates 11q loss in the upregulation of histone variants H3.3 and H2A in tumors with alternative lengthening of telomeres and cooperative effects of somatic rearrangements and somatic copy-number gains in the upregulation of TERT. Both 17p copy-number imbalances and associated downregulation of neuronal genes as well as upregulation of the imprinted gene RTL1 by copy-number-independent allelic dosage effects is associated with an unfavorable prognosis. cis-QTL analysis confirms the previously reported regulation of the LMO1 gene by a super-enhancer risk polymorphism and characterizes the regulatory potential of additional GWAS risk loci. My work highlights the importance of dosage effects in neuroblastoma and provides a detailed map of regulatory variation active in this disease.

Krebsgenomik

Bioinformatik

Neuroblastom

Genregulation

Epigenetik

Genomsequenzierung

Krebs

Extrachromosomale zirkuläre DNA

eQTL

aseQTL

Transcriptom

ecDNA

RNA-seq

Quantitativer Merkmalslokus

Genexpression

Pathologie

Medizin

Erhaltung der Telomere

Alternative Verlängerung der Telomere

Onkologie

Sequenzierung ganzer Genome

WGS

Molekularbiologie

Quantitative Trait Locus

Cancer genomics

Computational biology

Neuroblastoma

Gene regulation

Cancer

Extrachromosomal circular DNA

ecDNA

Whole-genome sequencing

RNA-seq

eQTL

aseQTL

Bioinformatics

Epigenetics

Transcriptome

Gene expression

Pathology

Medicine

Telomere maintenance

Alternative lengthening of telomeres

Oncology

WGS

Molecular biology

570 Biologie

610 Medizin und Gesundheit

004 Informatik

616 Krankheiten

XH 8554

XH 8562

XH 8563

ddc:570

ddc:610

ddc:004

ddc:616

Micro RNA-Mediated regulation of the full-length and truncated isoforms of human neurotrophic tyrosine kinase receptor type 3 (NTRK 3)

Guidi, Mònica

13 January 2009

Neurotrophins and their receptors are key molecules in the development of thenervous system. Neurotrophin-3 binds preferentially to its high-affinity receptorNTRK3, which exists in two major isoforms in humans, the full-length kinaseactiveform (150 kDa) and a truncated non-catalytic form (50 kDa). The twovariants show different 3'UTR regions, indicating that they might be differentiallyregulated at the post-transcriptional level. In this work we explore howmicroRNAs take part in the regulation of full-length and truncated NTRK3,demonstrating that the two isoforms are targeted by different sets of microRNAs.We analyze the physiological consequences of the overexpression of some of theregulating microRNAs in human neuroblastoma cells. Finally, we providepreliminary evidence for a possible involvement of miR-124 - a microRNA with noputative target site in either NTRK3 isoform - in the control of the alternativespicing of NTRK3 through the downregulation of the splicing repressor PTBP1. / Las neurotrofinas y sus receptores constituyen una familia de factores crucialespara el desarrollo del sistema nervioso. La neurotrofina 3 ejerce su funciónprincipalmente a través de una unión de gran afinidad al receptor NTRK3, del cualse conocen dos isoformas principales, una larga de 150KDa con actividad de tipotirosina kinasa y una truncada de 50KDa sin dicha actividad. Estas dos isoformasno comparten la misma región 3'UTR, lo que sugiere la existencia de unaregulación postranscripcional diferente. En el presente trabajo se ha exploradocomo los microRNAs intervienen en la regulación de NTRK3, demostrando que lasdos isoformas son reguladas por diferentes miRNAs. Se han analizado lasconsecuencias fisiológicas de la sobrexpresión de dichos microRNAs utilizandocélulas de neuroblastoma. Finalmente, se ha estudiado la posible implicación delmicroRNA miR-124 en el control del splicing alternativo de NTRK3 a través de laregulación de represor de splicing PTBP1.

RISC complex

retinoic acid

renilla luciferase

real-time quantitative PCR

PTBP1

pri-miRNA

pre-miRNA

post-transcriptional regulation

piRNA

PicTar

pGL4.13

PCR

P-body

p75NTR

overexpression

NTRK3

NTRK2

NTRK1

non-coding RNAs

NGF

neurotrophin

neurotrophic signaling

neuronal differentiation

neurodevelopment

neuroblastoma

nervous system

mRNA

miRNA target prediction

miRNA profiling

miRNA mimic

miRNA microarray

miRNA inhibitor

miRanda

microRNA

microarray

luciferase assay

Ingenuity Pathway Analysis (IPA)

heLa cells

gene silencing

gene regulation

full-length isoform (FL-NTRK3)

firefly luciferase

ERK

disease

dicer

cancer development

BDNF

argonaute

alternative splicing

3'UTR

RNAhybrid

RT-PCR

SH-SY5Y cells

siRNA

standard error

synaptic plasticity

target validation

TargetScan

transfection

translational repression

TrkA

TrkB

TrkC

truncated isoform (TR-NTRK3)

tyrosine kinase (TK)

western blot

575

61