An Unusual Ganglioglioma with Pseudopapillary Features and PRKAR2B-BRAF Fusion

Abstract BACKGROUND Increasing knowledge on pilocytic astrocytoma (PCA) biology now points towards an aberration in BRAF/MAPK/ERK pathway which has both diagnostic and therapeutic implications. This study was done to note the impact of BRAF aberrations on clinical outcome in childhood PCA. METHODS FFPE tissues of all childhood PCA diagnosed during 2011–2017 were evaluated for BRAFV600E mutation by Sanger sequencing and KIAA1549 fusion transcripts (16–9;15–9;16-11) by reverse transcriptase polymerase chain reaction. Children undergoing gross tumor resection received no adjuvant treatment. Unresectable tumors (only biopsy) and NF-1 associated PCAs, were treated if clinically indicated. Only patients with documented therapy details/followup were included for analysis. STUDY RESULTS Ninety-eight patients (median age-7.7yrs; boy:girl ratio-1.4) were included. Major sites were: Cerebellum-37(38%), 3rd Ventricle-26(27%), Cerebrum-15(15%). While BRAFV600E mutation was noted in 7/89(8%) specimens, BRAF-fusions were found in 34/85(40%). Following surgery/biopsy, 23(24%) and 21(22%) received adjuvant chemotherapy and radiotherapy respectively. The 1-year/3-year/5-year-EFS of the overall cohort was 90.7%/81.3%/67.4% respectively. Cerebellar tumors did better vis-à-vis other sites(5yr-EFS:74.3% v/s 66.4%;p=0.403). The 5yr-EFS of BRAF-fusion positive tumors (34), tumors without any BRAF aberration (40) and BRAFV600E mutant tumors (7) was 84.8%/ 69.6%/ 42.9% (p=0.215). CONCLUSIONS BRAF-fusion and BRAFV600E mutation were associated with good and poor outcomes respectively. Lack of statistical significance could be attributed to use of radiation as planned therapy in patients from earlier years. Data on BRAF aberrations in PCAs aids decision making regarding adjuvant therapy and choosing appropriate salvage-therapy especially in relapsed/refractory PCAs.

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Tandem Duplication Producing a Novel Oncogenic BRAF Fusion Gene Defines the Majority of Pilocytic Astrocytomas

Cancer Research ◽

10.1158/0008-5472.can-08-2097 ◽

2008 ◽

Vol 68 (21) ◽

pp. 8673-8677 ◽

Cited By ~ 542

Author(s):

David T.W. Jones ◽

Sylvia Kocialkowski ◽

Lu Liu ◽

Danita M. Pearson ◽

L. Magnus Bäcklund ◽

...

Keyword(s):

Tandem Duplication ◽

Fusion Gene ◽

Pilocytic Astrocytomas ◽

Braf Fusion

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LGG-17. SYNERGISTIC ACTIVITY OF MAPK INHIBITOR CLASSES REVEALED BY A NOVEL CELL-BASED MAPK ACTIVITY PEDIATRIC LOW-GRADE GLIOMA ASSAY

Neuro-Oncology ◽

10.1093/neuonc/noaa222.399 ◽

2020 ◽

Vol 22 (Supplement_3) ◽

pp. iii369-iii369

Author(s):

Diren Usta ◽

Romain Sigaud ◽

Juliane L Buhl ◽

Florian Selt ◽

Viktoria Marquardt ◽

...

Keyword(s):

Cell Lines ◽

Mapk Pathway ◽

Braf V600e ◽

Vector System ◽

Luciferase Reporter ◽

Low Grade ◽

Brafv600e Mutation ◽

Pathway Activity ◽

Combination Treatments ◽

Braf Fusion

Abstract Pilocytic astrocytomas (PAs) and other pediatric low-grade gliomas (pLGGs) exhibit aberrant activation of the MAPK signaling pathway caused by genetic alterations, most commonly KIAA1549:BRAF fusions, BRAF V600E and NF1 mutations. In such a single-pathway disease, novel drugs targeting the MAPK pathway (MAPKi) are prime candidates for treatment. We developed an assay suitable for pre-clinical testing of MAPKi in pLGGs, aiming at the identification of novel MAPK pathway suppressing synergistic drug combinations. We generated a reporter plasmid (pDIPZ) expressing destabilized firefly luciferase driven by a MAPK-responsive ELK-1-binding element, packaged in a lentiviral vector system. We stably transfected pediatric glioma cell lines with a BRAF fusion (DKFZ-BT66) and a BRAFV600E mutation (BT-40) background, respectively. Measurement of MAPK pathway activity was performed using the luciferase reporter. pERK protein levels were detected for validation. We performed a screen of a MAPKi library and calculated Combination Indices of selected combinations. The MAPKi library screen revealed MEK inhibitors as the class inhibiting the pathway with the lowest IC50s, followed by ERK and second generation RAF inhibitors. Synergistic effects in both BRAF-fusion and BRAFV600E mutation backgrounds were observed following combination treatments with different MAPKi classes (RAFi/MEKi, > RAFi/ERKi > MEKi/ERKi). We have generated a novel reporter assay for medium- to high-throughput pre-clinical drug testing of MAPKi in pLGG cell lines. MEK, ERK and next-generation RAF inhibitors were confirmed as potential treatment approaches for KIAA1549:BRAF and BRAFV600E mutated pLGGs. Synergistic suppression of MAPK pathway activity upon combination treatments was revealed using our assay in addition.

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Oncogenic FAM131B–BRAF fusion resulting from 7q34 deletion comprises an alternative mechanism of MAPK pathway activation in pilocytic astrocytoma

Acta Neuropathologica ◽

10.1007/s00401-011-0817-z ◽

2011 ◽

Vol 121 (6) ◽

pp. 763-774 ◽

Cited By ~ 154

Author(s):

Huriye Cin ◽

Claus Meyer ◽

Ricarda Herr ◽

Wibke G. Janzarik ◽

Sally Lambert ◽

...

Keyword(s):

Pilocytic Astrocytoma ◽

Mapk Pathway ◽

Alternative Mechanism ◽

Pathway Activation ◽

Braf Fusion

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LGG-26. DIFFUSE LEPTOMENINGEAL GLIONEURONAL TUMOR (DLGNT) IN CHILDREN: DIFFERENT CLINICAL PRESENTATIONS AND OUTCOMES

Neuro-Oncology ◽

10.1093/neuonc/noaa222.408 ◽

2020 ◽

Vol 22 (Supplement_3) ◽

pp. iii371-iii371

Author(s):

Andge Valiakhmetova ◽

Ludmila Papusha ◽

Ludmila Yasko ◽

Alexander Druy ◽

Alexander Karachunsky ◽

...

Keyword(s):

Mapk Pathway ◽

Braf Inhibitor ◽

Complete Response ◽

Mek Inhibitor ◽

Braf V600e ◽

Glioneuronal Tumor ◽

Low Grade ◽

Conventional Chemotherapy ◽

Diffuse Leptomeningeal Glioneuronal Tumor ◽

Braf Fusion

Abstract Diffuse leptomeningeal glioneuronal tumor (DLGNT) is an extremely rare disease, newly recognized in the 2016 WHO classification of tumors of the CNS. Most DLGNTs are low-grade neuroepithelial tumors with variable elements of neuronal/neurocytic and glial differentiation, have diffuse leptomeningeal enhancement on MRI, and typically harbor KIAA1549-BRAF fusions. Other alterations, such as the BRAF V600E substitution, are less common. Here, we present three cases of DLGNT with different presentations and outcomes. The first patient is a 2yr-old male with KIAA1549-BRAF fusion, and was treated with Carbo/VCR chemotherapy after a biopsy, with resultant ongoing stable disease for 3.5 years. The second patient, an 8yr-old male had the BRAF V600E point mutation and was treated with conventional chemotherapy (VCR/carboplatin). On progression, he received the BRAF inhibitor vemurafenib, achieving a complete response which last 14 month. The third patient, a 27 month old male, harbored a KIAA1549-BRAF fusion and was treated at diagnosis with the MEK inhibitor trametinib. The tumor has been radiographically stable in the context of clinical improvement for 21 months since the treatment initiation, ongoing 24 month. In summary, we present further evidence of MAPK pathway alterations in children with DLGNT. We describe a range of molecular presentations and clinical outcomes, including one patient treated with conventional chemotherapy with further stabilization of disease during 3.5 years and two patients who were successfully treated with targeted therapy.

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Acquired JHDM1D–BRAF Fusion Confers Resistance to FGFR Inhibition in FGFR2-Amplified Gastric Cancer

Molecular Cancer Therapeutics ◽

10.1158/1535-7163.mct-17-1022 ◽

2018 ◽

Vol 17 (10) ◽

pp. 2217-2225 ◽

Cited By ~ 5

Author(s):

Hitoshi Sase ◽

Yoshito Nakanishi ◽

Satoshi Aida ◽

Kana Horiguchi-Takei ◽

Nukinori Akiyama ◽

...

Keyword(s):

Gastric Cancer ◽

Braf Fusion ◽

Fgfr Inhibition

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DIFFUSE LEPTOMENINGEAL GLIONEURONAL TUMOR IN CHILDREN: MR CHARACTERISTICS, CLINICAL FEATURES AND OUTCOME. FOUR CLINICAL CASES

Russian Journal of Biotherapy ◽

10.17650/1726-9784-2021-20-1-42-55 ◽

2021 ◽

Vol 20 (1) ◽

pp. 42-55

Author(s):

A. F. Valiakhmetova ◽

L. I. Papusha ◽

A. V. Artemov ◽

G. V. Tereshchenko ◽

E. A. Sal’nikova ◽

...

Keyword(s):

Fusion Gene ◽

Molecular Genetic ◽

Complete Response ◽

Mek Inhibitor ◽

Braf V600e ◽

Glioneuronal Tumor ◽

Molecular Testing ◽

Genetic Characteristics ◽

Diffuse Leptomeningeal Glioneuronal Tumor ◽

Braf Fusion

Background. Diffuse leptomeningeal glioneuronal tumor (DLGNT) is an extremely rare entity first officially recognized in 2016 WHO classification of tumors of the central nervous system. Magnetic resonance imaging (MRI) of this tumor usually visualizes diffuse meningeal infiltration with contrast enhancement, with the presence of multiple small contrast‑negative cysts, visible mainly in the T2 images. The main molecular markers of DLGNTs include the KIAA1549-BRAF fusion gene, BRAF V600E substitution is less common.The aim of this work is to describe the manifestation of DLGNT, its neuroimaging and molecular genetic characteristics, the experience of using anti‑BRAF and anti‑MEK therapy.Materials and methods. In this article are described four cases of DLGNT. The first patient with the presence of the KIAA1549-BRAF fusion in the tumor tissue received a full course of SIOP‑LGG / 2004 chemotherapy (carbo‑ platin and vincristine), the stabilization of the disease on the MRI remains for 4 years after completion of treatment. Second patient with KIAA1549-BRAF fusion gene in tumour tissue received MEK inhibitor trametinib as first line of treatment with the stabilization of the disease on control MRI which last for 2 years. A third patient with a mutation in the BRAF V600E gene. After disease progression on standard chemotherapy (carboplatin and vincristine) according to the SIOP‑LGG / 2004 protocol, anti‑BRAF therapy with vemurafenib was prescribed. After 10 months on MRI a complete response was recorded, which persists during the drug intake for 2.5 years. In the fourth patient, no molecular genetic aberrations were detected; a refractory / progressive course of the dis‑ ease was noted. To date, the stabilization of the disease is recorded on the fourth line of chemotherapy (everoli‑ mus and temozolomide).Conclusion. Given the rarity of this tumor and the lack of consensus about therapy, despite the limited number of observations, our experience allows us to recommend molecular testing of DLGNT to detect activating events in the BRAF gene, as well as consideration of anti‑BRAF / MEK therapy if either the BRAF V600E mutation is de‑ tected or KIAA1549-BRAF fusion.

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