A Risk Model Developed Based on Homologous Recombination Deficiency Predicts Overall Survival in Patients With Lower Grade Glioma

Peng, Hao, Wang, Yibiao, Wang, Pengcheng, Huang, Chuixue, Liu, Zhaohui, Wu, Changwu

20 October 2023

The role of homologous recombination deficiency (HRD) in lower grade glioma (LGG) has not been elucidated, and accurate prognostic prediction is also important for the treatment and management of LGG. The aim of this study was to construct an HRD-based risk model and to explore the immunological and molecular characteristics of this risk model. The HRD score threshold = 10 was determined from 506 LGG samples in The Cancer Genome Atlas cohort using the best cut-off value, and patients with highHRDscores had worse overall survival. A total of 251 HRD-related genes were identified by analyzing differentially expressed genes, 182 of which were associated with survival. A risk score model based on HRD-related genes was constructed using univariate Cox regression, least absolute shrinkage and selection operator regression, and stepwise regression, and patients were divided into high- and low-risk groups using the median risk score. High-risk patients had significantly worse overall survival than lowrisk patients. The risk model had excellent predictive performance for overall survival in LGG and was found to be an independent risk factor. The prognostic value of the riskmodel was validated using an independent cohort. In addition, the risk score was associated with tumor mutation burden and immune cell infiltration in LGG. High-risk patients had higher HRD scores and “hot” tumor immune microenvironment, which could benefit from poly-ADP-ribose polymerase inhibitors and immune checkpoint inhibitors. Overall, this big data study determined the threshold of HRD score in LGG, identified HRD-related genes, developed a risk model based on HRD-related genes, and determined the molecular and immunological characteristics of the risk model. This provides potential new targets for future targeted therapies and facilitates the development of individualized immunotherapy to improve prognosis.

info:eu-repo/classification/ddc/570

ddc:570

Neurological Symptom Improvement After Re-Irradiation in Patients With Diffuse Intrinsic Pontine Glioma: A Retrospective Analysis of the SIOP-E-HGG/DIPG Project

Chavaz, Lara, Janssens, Geert O., Bolle, Stephanie, Mandeville, Henry, Ramos-Albiac, Monica, van Beek, Karen, Benghiat, Helen, Hoeben, Bianca, Morales La Madrid, Andres, Seidel, Clemens, Kortmann, Rolf-Dieter, Hargreave, Darren, Gandola, Lorenza, Pecori, Emilia, van Vuurden, Dannis G., Biassoni, Veronica, Massimino, Maura, Kramm, Christof M., van Bueren, Andre O.

26 October 2023

Purpose: The aim of this study is to investigate the spectrum of neurological triad improvement in patients with diffuse intrinsic pontine glioma (DIPG) treated by reirradiation (re-RT) at first progression. Methods: We carried out a re-analysis of the SIOP-E retrospective DIPG cohort by investigating the clinical benefits after re-RT with a focus on the neurological triad (cranial nerve deficits, ataxia, and long tract signs). Patients were categorized as “responding” or “non-responding” to re-RT. To assess the interdependence between patients’ characteristics and clinical benefits, we used a chi-square or Fisher’s exact test. Survival according to clinical response to re-RT was calculated by the Kaplan–Meier method. Results: As earlier reported, 77% (n = 24/31) of patients had any clinical benefit after re- RT. Among 25/31 well-documented patients, 44% (n = 11/25) had improvement in cranial nerve palsies, 40% (n = 10/25) had improvement in long-tract signs, and 44% (11/25) had improvement in cerebellar signs. Clinical benefits were observed in at least 1, 2, or 3 out of 3 symptoms of the DIPG triad, in 64%, 40%, and 24%, respectively. Patients irradiated with a dose ≥20 Gy versus <20 Gy may improve slightly better with regard to ataxia (67% versus 23%; p-value = 0.028). The survival from the start of re-RT to death was not different between responding and non-responding DIPG patients (p-value = 0.871). Conclusion: A median re-irradiation dose of 20 Gy provides a neurological benefit in twothirds of patients with an improvement of at least one symptom of the triad. DIPG patients receiving ≥20 Gy appear to improve slightly better with regard to ataxia; however, we need more data to determine whether dose escalation up to 30 Gy provides additional benefits.

info:eu-repo/classification/ddc/610

ddc:610

Microbeam Irradiation as a Simultaneously Integrated Boost in a Conventional Whole-Brain Radiotherapy Protocol

Jaekel, Felix, Bräuer-Krisch, Elke, Bartzsch, Stefan, Laissue, Jean, Blattmann, Hans, Scholz, Marten, Soloviova, Julia, Hildebrandt, Guido, Schültke, Elisabeth

02 February 2024

Microbeam radiotherapy (MRT), an experimental high-dose rate concept with spatial fractionation at the micrometre range, has shown a high therapeutic potential as well as good preservation of normal tissue function in pre-clinical studies. We investigated the suitability of MRT as a simultaneously integrated boost (SIB) in conventional whole-brain irradiation (WBRT). A 174 Gy MRT SIB was administered with an array of quasi-parallel, 50 m wide microbeams spaced at a centre-to-centre distance of 400 m either on the first or last day of a 5 4 Gy radiotherapy schedule in healthy adult C57 BL/6J mice and in F98 glioma cell cultures. The animals were observed for signs of intracranial pressure and focal neurologic signs. Colony counts were conducted in F98 glioma cell cultures. No signs of acute adverse effects were observed in any of the irradiated animals within 3 days after the last irradiation fraction. The tumoricidal effect on F98 cell in vitro was higher when the MRT boost was delivered on the first day of the irradiation course, as opposed to the last day. Therefore, the MRT SIB should be integrated into a clinical radiotherapy schedule as early as possible.

info:eu-repo/classification/ddc/610

ddc:610

Analysis of Circadian Properties and Clock Regulation of Glioma and Breast Cancer Stem Cells

Sharma, Vishal Premdev

26 November 2014

No description available.

Biology

Cellular Biology

Molecular Biology

Cancer Stem Cell

Circadian rhythms

Glioma

C6

Breast cancer

MCF-7

Hes-1

Bmi-1

NSEA: n-Node Subnetwork Enumeration Algorithm Identifies Lower Grade Glioma Subtypes with Altered Subnetworks and Distinct Prognostics

Zhang, Zhihan

06 June 2017

No description available.

Bioinformatics

Oncology

Cancer

Brain

Tumor

Glioma

LGG

Subtype

Network

Subnetwork

Enumeration

Algorithm

Clustering

Prognostics

MAPK

NOTCH

Methylation

[pt] CLASSIFICAÇÃO DE GLIOMAS UTILIZANDO ÍNDICES DE BIODIVERSIDADE E DE DIVERSIDADE FILOGENÉTICA EM IMAGENS POR RESSONÂNCIA MAGNÉTICA ATRAVÉS DE UMA ABORDAGEM RADIOMICS / [en] RADIMOCS ANALYSIS FOR GLIOMA GRADING USING BIODIVERSITY AND PHYLOGENETIC DIVERSITY INDICES ON MULTI-MODAL MAGNETIC RESONANCE IMAGING

FERNANDA DA CUNHA DUARTE

26 March 2020

[pt] Gliomas estão entre os tumores cerebrais malignos mais comuns. Eles podem ser classificados entre gliomas de baixo e alto grau e sua identificação precoce é fundamental para o direcionamento do tratamento aplicado. Utilizando uma abordagem radiomics, o presente trabalho propõe o uso de índices de biodiversidade e de diversidade filogenética, definidos no campo da biologia, no problema de classificação de gliomas. O método proposto apresentou resultados promissores, com AUC-ROC (area under the ROC curve), acurácia, sensibilidade e especificidade de 0,951, 0,930, 0,967 e 0,827, respectivamente. / [en] Gliomas are among the most common malignant brain tumors. They can be classified into low-grade and high-grade gliomas and their early identification is crucial for treatment direction. Using a radiomics approach, the present work proposes the use of biodiversity and phylogenetic diversity biology indices to handle the glioma classification problem. The proposed method presented promising results, with AUC-ROC (area under the ROC curve), accuracy, sensitivity and specificity of 0,951, 0,930, 0,967 and 0,827, respectively.

[pt] IMAGENS MEDICAS

[pt] RADIOMICS

[pt] CLASSIFICACAO DE GLIOMAS

[pt] MACHINE LEARNING

[en] MEDICAL IMAGING

[en] RADIOMICS

[en] GLIOMA CLASSIFICATION

[en] MACHINE LEARNING

Discovering the Potential of Photoluminescent Ruthenium(II) Complexes as Photodynamic Therapy Agents

Padilla, Roberto

02 March 2016

Anthracene was attached to light activated, ruthenium-based DNA disruptors to probe their distribution in cancer cells. The objective of this research is to understand the photophysical properties (Chapter 2), photoreactivity toward DNA and proteins (Chapter 3), and localization within cancer cells (Chapter 4) of ruthenium complexes that demonstrate promise as photodynamic therapy (PDT) agents. [(AnthbpyMe)(bpy)Ru(dpp)]2+ (1) and [(AnthbpyMe)2Ru(dpp)]2+ (2) absorb visible light with metal-to-ligand charge transfer (MLCT) transitions at 459 nm (16,000 M-1 cm-1 ) and 461 nm (21,000 M-1 cm-1 ), respectively. These species exhibit 3 MLCT emissions at λem = 661 nm and λem = 663 nm for 1 and 2, respectively, while the anthracene show emissions at 450 – 560 nm. The anthracene unit(s) quench the 3 MLCT to give quantum yields (lifetime) of Φem = 0.0059 [398(1) ns] and Φem = 0.0011 [414(1) ns] for 1 and 2, respectively. Voltammetry shows an irreversible anthracene oxidation at 1.23 – 1.28 V, RuIII/II oxidation at 1.53 – 1.55 V, and quasi-reversible reduction couples attributed to dpp0/-1 at 0.98 V. DNA gel shift assays demonstrate that complexes 1 and 2 modify DNA in the presence and absence of 3 O2 upon light activation to convert supercoiled DNA to a mixture of open circular (OC) DNA and a species that exhibit sa distinctly different migration rate than either OC and linear DNA. Binding constants, Kb, for complexes 1 and 2, toward DNA are 3.50 × 105 (3.50 × 104 ) and 4.50 × 103 (4.50 × 102 ) respectively. SDS-PAGE assays show that the complexes 1 and 2 modify bovine serum albumin (BSA) through an 3 O2-dependent mechanism upon light iii activation. The localization and PDT potency of the anthracene-Ru-dpp complexes are tested against F98 cells, which are rat glioma cells that simulate the infiltrative patterns of growth in cancer. Confocal microscopy demonstrates that complexes 1 and 2 internalize and localize primarily along the cell membrane and associate with dot-like vesicles within the cytoplasm. Complexes 1 and 2 show IC50 values of 107 µM and 85 µM, respectively, after 15 min of drug exposure and 1 h of PDT-treatment (λPDT = 455 nm). / Ph. D.

Anthracene

photodynamic therapy

supramolecular complexes

subcellular localization

cytotoxicity

phototoxicity

DNA

protein

malignant glioma

ruthenium

MLCT

gel shift assay

confocal microscopy

Interaction between ATM Kinase and p53 in determining glioma radiosensitivity

Ahmad, Syed F

01 January 2015

Glioblastoma multiforme (GBM) is the most common primary brain tumor. Studies have shown that targeting the DNA damage response can sensitize cancer cells to DNA damaging agents. Ataxia telangiectasia mutated (ATM) is involved in signaling DNA double strand breaks. Our group has previously shown that ATM inhibitors (ATMi) sensitize GBM cells and tumors to ionizing radiation. This effect is greater when the tumor suppressor p53 is mutated. The goals of this work include validation of a new ATM inhibitor, AZ32, and elucidation of how ATMi and p53 status interact to promote cell death after radiation. We propose that ATMi and radiation induce mitotic catastrophe in p53 mutants by overriding cell cycle arrest. We tested this hypothesis in human colon carcinoma and glioma cells that differ only in p53 status. We found that AZ32 effectively inhibits phosphorylation of ATM targets. In addition, AZ32 significantly sensitizes glioma cells to ionizing radiation. While HCT116 colon carcinoma cells fail to arrest the cell cycle after radiation, their response to ATMi differs from that in gliomas. Indeed, wild type HCT116 cells were more sensitive than p53 mutants to ionizing radiation in the presence of ATMi. In contrast, ATMi significantly radiosensitized glioma cells in which p53 is knocked down. Live cell imaging confirmed that radiation and ATMi preferentially induce mitotic catastrophe in p53-deficient cells. We conclude that p53-deficient cells rely on ATM signaling for G2/M cell cycle arrest. We propose a model of G2/M arrest whereby ATM and p53-dependent signaling pathways converge to ultimately inhibit Cdc25 phosphatases.

mitosis

cell cycle

glioma

glioblastoma

cancer

radiation

Biochemistry

Cancer Biology

Cell Biology

Medical Biochemistry

Medical Cell Biology

Medical Molecular Biology

Molecular Biology

Nouvelles cibles thérapeutiques dans les gliomes infiltrants du tronc cérébral de l'enfant / New therapeutic targets in diffuse intrinsic pontine glioma in children

Truffaux, Nathalene

26 May 2014

Le gliome infiltrant du tronc cérébral est une tumeur rare, non opérable et inéluctablement fatale. En raison du manque de ressource biologique disponible, aucun progrès dans la compréhension de la biologie de ces tumeurs n’a été fait jusqu’à ces dernières années, laissant la radiothérapie pour seul traitement efficace, et seulement transitoirement. Enfin, grâce à la mise en place de collecte d’échantillons de gliomes infiltrant du tronc cérébral au diagnostic ou à l’autopsie, un nombre sans précédent d’analyses biologiques et génomiques a pu être mené et améliorer la connaissance de ces tumeurs. Si ces études ont montré que ces gliomes pédiatriques étaient bien différents de ceux de l’adulte, elles ont aussi fait apparaître la présence d’anomalies génétiques récurrentes spécifiques de ces tumeurs sous-tentorielles. Ainsi le Platelet-Derived Growth Factor Receptor Alpha (PDGFRα) est apparu comme cible prédominante dans ces tumeurs compte tenu des nombreuses anomalies génétiques constatées. La recherche d’un médicament efficace pouvant inhiber cette voie nous a conduit à évaluer l’effet du dasatinib qui est un inhibiteur multi-ciblé. Nous en rapportons ici l’efficacité in vitro sur de nouvelles lignées cellulaires de gliomes infiltrants du tronc cérébral établies à partir de biopsies stéréotaxiques réalisées au diagnostic. Sachant néanmoins que les thérapies ciblées restent peu efficaces en clinique quand elles sont utilisées seules, nous mettons en évidence l’intérêt de combiner le dasatinib avec un inhibiteur de MET, 2ème oncogène fréquemment amplifié dans ces tumeurs. D’autre part, une stratégie originale de criblage médicamenteux a été mise en œuvre. Celle-ci a permis de définir de manière fonctionnelle de nouveaux médicaments potentiellement efficaces dans les gliomes infiltrants du tronc cérébral, incluant les inhibiteurs d’Histone deacetylases (HDAC), les inhibiteurs des Cyclin-Dependent Kinases (CDK) ou encore les inhibiteurs du protéasome. Enfin par la technique de séquençage génome-entier, de nouvelles anomalies génétiques jamais rencontrées dans aucun autre cancer ont été détectées. Parmi celles-ci se trouvent des mutations d’histone H3K27M dont la fréquence élevée (80%) suggère leur rôle fondamental dans la genèse de ces tumeurs. Des mutations activatrices d’ACVR1/ALK2 ont été également mises en évidence. Celles-ci représentent désormais de nouvelles cibles à explorer.Ce travail de thèse rapporte la recherche de nouvelles cibles thérapeutiques d’une part, via une approche exploratoire par criblage médicamenteux et recherche d’anomalies génétiques par séquençage « génome-entier », et d’autre part, via une approche de validation préclinique sur le plan des thérapies ciblées de type inhibiteurs de tyrosine-kinases. / Diffuse Intrinsic Pontine Glioma (DIPG) is a rare, unresectable and universally fatal tumor. Due to the lack of available material, no improvements have been made in the knowledge of the biology of this tumor until recent years, leaving radiotherapy as the only efficient treatment, and only transiently. Recently, the effort engaged for collecting samples in this disease at the diagnosis or at the autopsy resulted in an unprecedented number of analyses consequently improving our knowledge in DIPG. Those studies bring evidences for their differences with adult gliomas, but also with other pediatric supratentorial glioma showing specific genomic alterations. Thus, Platelet-Derived Growth Factor Receptor Alpha (PDGFRα) appeared to be one of the major target given its frequent aberrations found in those tumors. Investigating an effective drug to inhibit this pathway led us to evaluate the effect of dasatinib, which is known as a multi-targeted inhibitor. We report here the in vitro efficacy of dasatinib on new cell lines of DIPG developed from stereotaxic biopsy at diagnosis. Because therapies are largely inefficient in the clinic when they are used as a monotherapy, we bring out our interest on combining dasatinib with an inhibitor of MET, which is the 2nd most common amplified oncogene in these tumors.Additionally, an innovative strategy of pharmacological screening has been successfully tested. New drugs, potentially efficient in DIPG, have been fonctionnaly-defined, including Histone deacetylase inhibitors (HDACi), Cyclin-Dependent Kinases inhibitors (CDKi) and proteasome inhibitors as well.Finally, by using whole genome sequencing (WGS), we have been able to discover new genetic abnormalities, never encountered before in other cancers. Among those, mutations of histone H3K27M with a high frequency of 80% were found, suggesting that they have a fundamental role in tumors genesis. Moreover, ACVR1/ALK2 activating mutations have been identified as well. And this gene now represents a new target to explore. This work reports the research of new therapeutic targets through an exploratory approach using drug screening and WGS on the one hand, and on the other hand through a preclinical validation approach in terms of targeted therapies with tyrosine-kinases inhibitors.

Gliome infiltrant du tronc cérébral

Thérapie ciblée

Criblage fonctionnel

Dasatinib

Séquençage

Génome-entier

ACVR1

Diffuse Intrinsic Pontine Glioma (DIPG),

Targeted therapy

Functional screening

Dasatinib

Whole

Genome sequencing

ACVR1

Caractérisation moléculaire des tumeurs cérébrales circonscrites de l'enfant / Molecular caracteristics of low grade pediatric brain tumors

Padovani, Laëtitia

05 April 2013

La classification OMS des tumeurs cérébrales de l'enfant distingue les tumeurs gliales des tumeurs glioneuronales, les gliomes circonscrits des infiltrants. Elle représente le meilleur indicateur pronostic mais se heurte pourtant à des limites de reproductibilité. Pour mieux préciser le diagnostic, mieux définir des sous-groupes de pronostic différent, et mieux orienter le thérapeutique, nous avons recherché les profils moléculaires de 108 tumeurs cérébrales circonscrites de l'enfant : astrocytome pilocytique (PA), tumeurs neuroépithéliales dysembryoplasiques (DNT), xanthoastrocytomes pléïomorphes (PXA) et gangliogliomes (GG). Aucune différence n'est retrouvée entre les gliomes corticaux de grade II (GC) et les DNT concernant IDH1 et 2, TP53 et la délétion1p19q. Les DNT non spécifiques et les GC partagent le même profil incluant CD34 et la mutation V600E de BRAF dans 50% des cas. Le PXA exprime la mutation V600E de BRAF dans plus de 50 % des cas et se rapproche du groupe des tumeurs glioneuronales. Concernant le PA, nous confirmons le caractère péjoratif de la topographie hypothalamo-chiasmatique, de l'histologie pilomyxoide, de l'âge inférieur à 36 mois et de l'exérèse partielle. A l'opposé des tumeurs infiltrantes qui appartiendraient au groupe " histones dépendantes", les tumeurs circonscrites pourraient être regroupées sous le terme "MAPKinases dépendantes". On y distinguerait alors les tumeurs avec fusion KIAA1543-BRAF de celles avec mutation V600E de BRAF. Ce travail a permis de mieux caractériser les tumeurs gliales et glioneuronales de l'enfant, reposant sur le transfert en routine de marqueurs moléculaires simples. / The OMS classification for pediatric brain tumors includes glial tumors and mixed glial and glioneuronal tumors, diffuse and no diffuse glioma. All strategic decision making are based on this current classification but it drives to some limits of diagnosis reproductibility.The goal of our study was to define molecular profils for low grade no diffuse pediatric brain tumors including pilocytic astrocytoma (PA), dysembryoplasic neuroepithelial tumor (DNT), pleiomorphic xanthoastrocytoma (PXA) and benign gangliogliome (GG), to improve the quality of diagnosis, define different subgroups with different prognosis and then to improve treatment strategy decision making.No molecular difference was found between cortical grade II glioma (GC) and DNT regarding IDH1 and 2 TP53 alterations and 1p19q deletion. Similarly 50 % of no specific form of DNT share the same molecular profil with GC with CD34 expression and V600E mutation of BRAF. PXA demonstrated BRAFV600E mutation in 60 % of cases. PXA could then be very close glioneuronal tumors. Finally in PA we confirmed the negative impact of hypothalochiasmatic location, pilomyxoid diagnosis and age lower than 36 months and partial resection. We could work on the elaboration of a new classification and define the group named “Histone dependant” for tumors with histone aberrations and the group named “MAPKinases dependant” for tumors with either KIAA 1543-BRAF fusion or V600E BRAF mutation.In conclusion, this work has led to improve the molecular profil characteristics of glioneuronal tumors of childhood with different easy diagnostic markers that can be used in routine practice, and could potentially replace DNA sequencing.