Compendium of Cancer Genome Aberrations

CNS5:Diffuse hemispheric glioma, H3 G34-mutant: Difference between revisions

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==NPrimary Author(s)*==
{{DISPLAYTITLE:Diffuse hemispheric glioma, H3 G34-mutant}}


Xiaolin Hu, PhD, Sema4 OpCo Inc.
[[CNS5:Table_of_Contents|Central Nervous System Tumours (WHO Classification, 5th ed.)]]


__TOC__
{{Under Construction}}


==Cancer Category/Type==
<span style="color:#0070C0">(''General Instructions – The focus of these pages is the clinically significant genetic alterations in each disease type. This is based on up-to-date knowledge from multiple resources such as PubMed and the WHO classification books. The CCGA is meant to be a supplemental resource to the WHO classification books; the CCGA captures in a continually updated wiki-stye manner the current genetics/genomics knowledge of each disease, which evolves more rapidly than books can be revised and published. If the same disease is described in multiple WHO classification books, the genetics-related information for that disease will be consolidated into a single main page that has this template (other pages would only contain a link to this main page). Use [https://www.genenames.org/ <u>HUGO-approved gene names and symbols</u>] (italicized when appropriate), [https://varnomen.hgvs.org/ <u>HGVS-based nomenclature for variants</u>], as well as generic names of drugs and testing platforms or assays if applicable. Please complete tables whenever possible and do not delete them (add N/A if not applicable in the table and delete the examples); to add (or move) a row or column in a table, click nearby within the table and select the > symbol that appears. Please do not delete or alter the section headings. The use of bullet points alongside short blocks of text rather than only large paragraphs is encouraged. Additional instructions below in italicized blue text should not be included in the final page content. Please also see'' </span><u>''[[Author_Instructions]]''</u><span style="color:#0070C0"> ''and [[Frequently Asked Questions (FAQs)|<u>FAQs</u>]] as well as contact your [[Leadership|<u>Associate Editor</u>]] or [mailto:CCGA@cancergenomics.org <u>Technical Support</u>].)''</span>
==Primary Author(s)*==


Gliomas, glioneuronal tumors, and neuronal tumors / Pediatric-type diffuse high-grade gliomas
Xiaolin Hu, PhD, Sema4 OpCo Inc.


==Cancer Sub-Classification / Subtype==
==WHO Classification of Disease==


Diffuse hemispheric glioma, H3 G34–mutant
{| class="wikitable"
 
!Structure
==Definition / Description of Disease==
!Disease
|-
|Book
|Central Nervous System Tumours (5th ed.)
|-
|Category
|Gliomas, glioneuronal tumours, and neuronal tumours
|-
|Family
|Gliomas, glioneuronal tumours, and neuronal tumours
|-
|Type
|Paediatric-type diffuse high-grade gliomas
|-
|Subtype(s)
|Diffuse hemispheric glioma, H3 G34-mutant
|}


Diffuse hemispheric glioma, H3 G34–mutant (G34-DHG) is a newly recognized tumor entity that is characterized by point mutations in the ''H3-3A'' (''H3-3A'') gene, encoding for histone variant H3.3  <ref name=":0">{{Cite journal|last=Schwartzentruber|first=Jeremy|last2=Korshunov|first2=Andrey|last3=Liu|first3=Xiao-Yang|last4=Jones|first4=David T. W.|last5=Pfaff|first5=Elke|last6=Jacob|first6=Karine|last7=Sturm|first7=Dominik|last8=Fontebasso|first8=Adam M.|last9=Quang|first9=Dong-Anh Khuong|date=2012-01-29|title=Driver mutations in histone H3.3 and chromatin remodelling genes in paediatric glioblastoma|url=https://pubmed.ncbi.nlm.nih.gov/22286061|journal=Nature|volume=482|issue=7384|pages=226–231|doi=10.1038/nature10833|issn=1476-4687|pmid=22286061}}</ref><ref>{{Cite journal|last=Wu|first=Gang|last2=Broniscer|first2=Alberto|last3=McEachron|first3=Troy A.|last4=Lu|first4=Charles|last5=Paugh|first5=Barbara S.|last6=Becksfort|first6=Jared|last7=Qu|first7=Chunxu|last8=Ding|first8=Li|last9=Huether|first9=Robert|date=2012-01-29|title=Somatic histone H3 alterations in pediatric diffuse intrinsic pontine gliomas and non-brainstem glioblastomas|url=https://pubmed.ncbi.nlm.nih.gov/22286216|journal=Nature Genetics|volume=44|issue=3|pages=251–253|doi=10.1038/ng.1102|issn=1546-1718|pmc=3288377|pmid=22286216}}</ref>. Point mutations tend to be clustered at codon 34 including c.103G>A p.G35R (G34R), c.103G>C p.G35R (G34R), or rarely c.104G>T p.G35V (G34V) <ref name=":0" />. This distinct tumor entity is an aggressive glioma arising from the cerebral hemispheres. G34-DHG is designated as CNS WHO grade 4 in in the WHO 5th edition <ref name=":3">Ellison, DW, Korshunov A, Northcott PA, Taylor MD, Kaur K, Clifford SC. Medulloblastoma, WNT-activated. In: WHO Classification of Tumours Editorial Board. Central nervous system tumours. Lyon (France): International Agency for Research on Cancer; 2021. (WHO classification of tumours series, 5th ed.; vol. 6). <nowiki>https://publications.iarc.fr/601</nowiki>.</ref>.
==Related Terminology==


Please note that historically, numbering of the amino acid sequences of histone genes has begun at the second codon, as the amino acid encoded by the first codon (methionine) is cleaved post-translationally. Therefore, H3.3 G34 represents the legacy nomenclature of what is now referred to as H3.3 G35 <ref>{{Cite journal|last=Leske|first=Henning|last2=Dalgleish|first2=Raymond|last3=Lazar|first3=Alexander J.|last4=Reifenberger|first4=Guido|last5=Cree|first5=Ian A.|date=2021-06|title=A common classification framework for histone sequence alterations in tumours: an expert consensus proposal|url=https://pubmed.ncbi.nlm.nih.gov/33779999|journal=The Journal of Pathology|volume=254|issue=2|pages=109–120|doi=10.1002/path.5666|issn=1096-9896|pmid=33779999}}</ref>.
==Synonyms / Terminology==
Pediatric glioblastoma, H3.3 G34–mutant (not recommended)
==Epidemiology / Prevalence==
G34-DHG is reported to account for approximately 15% of high grade gliomas (HGSs) and typically affect adolescents and young adults with a median age at diagnosis of 15.8 years old <ref>{{Cite journal|last=Picart|first=Thiébaud|last2=Barritault|first2=Marc|last3=Poncet|first3=Delphine|last4=Berner|first4=Lise-Prune|last5=Izquierdo|first5=Cristina|last6=Tabouret|first6=Emeline|last7=Figarella-Branger|first7=Dominique|last8=Idbaïh|first8=Ahmed|last9=Bielle|first9=Franck|date=2021-01|title=Characteristics of diffuse hemispheric gliomas, H3 G34-mutant in adults|url=https://pubmed.ncbi.nlm.nih.gov/34056608|journal=Neuro-Oncology Advances|volume=3|issue=1|pages=vdab061|doi=10.1093/noajnl/vdab061|issn=2632-2498|pmc=8156974|pmid=34056608}}</ref><ref name=":1">{{Cite journal|last=Crowell|first=Cameron|last2=Mata-Mbemba|first2=Daddy|last3=Bennett|first3=Julie|last4=Matheson|first4=Kara|last5=Mackley|first5=Michael|last6=Perreault|first6=Sébastien|last7=Erker|first7=Craig|date=2022-01|title=Systematic review of diffuse hemispheric glioma, H3 G34-mutant: Outcomes and associated clinical factors|url=https://pubmed.ncbi.nlm.nih.gov/36105387|journal=Neuro-Oncology Advances|volume=4|issue=1|pages=vdac133|doi=10.1093/noajnl/vdac133|issn=2632-2498|pmc=9466272|pmid=36105387}}</ref>. Studies have shown that there is a gender difference with male to female ratio of 1.4:1 <ref name=":4">{{Cite journal|last=Korshunov|first=Andrey|last2=Capper|first2=David|last3=Reuss|first3=David|last4=Schrimpf|first4=Daniel|last5=Ryzhova|first5=Marina|last6=Hovestadt|first6=Volker|last7=Sturm|first7=Dominik|last8=Meyer|first8=Jochen|last9=Jones|first9=Chris|date=2016-01|title=Histologically distinct neuroepithelial tumors with histone 3 G34  mutation are molecularly similar and comprise a single nosologic  entity|url=https://pubmed.ncbi.nlm.nih.gov/26482474|journal=Acta Neuropathologica|volume=131|issue=1|pages=137–146|doi=10.1007/s00401-015-1493-1|issn=1432-0533|pmid=26482474}}</ref><ref>{{Cite journal|last=Mackay|first=Alan|last2=Burford|first2=Anna|last3=Carvalho|first3=Diana|last4=Izquierdo|first4=Elisa|last5=Fazal-Salom|first5=Janat|last6=Taylor|first6=Kathryn R.|last7=Bjerke|first7=Lynn|last8=Clarke|first8=Matthew|last9=Vinci|first9=Mara|date=2017-10-09|title=Integrated Molecular Meta-Analysis of 1,000 Pediatric High-Grade and Diffuse Intrinsic Pontine Glioma|url=https://pubmed.ncbi.nlm.nih.gov/28966033|journal=Cancer Cell|volume=32|issue=4|pages=520–537.e5|doi=10.1016/j.ccell.2017.08.017|issn=1878-3686|pmc=5637314|pmid=28966033}}</ref>.
==Clinical Features==
Site dependent neurological symptoms including epileptic seizure, focal deficit, increased intracranial hypertension (headache, nausea and vomiting) <ref>{{Cite journal|last=Picart|first=Thiébaud|last2=Barritault|first2=Marc|last3=Poncet|first3=Delphine|last4=Berner|first4=Lise-Prune|last5=Izquierdo|first5=Cristina|last6=Tabouret|first6=Emeline|last7=Figarella-Branger|first7=Dominique|last8=Idbaïh|first8=Ahmed|last9=Bielle|first9=Franck|date=2021|title=Characteristics of diffuse hemispheric gliomas, H3 G34-mutant in adults|url=https://pubmed.ncbi.nlm.nih.gov/34056608|journal=Neuro-Oncology Advances|volume=3|issue=1|pages=vdab061|doi=10.1093/noajnl/vdab061|issn=2632-2498|pmc=8156974|pmid=34056608}}</ref>.
{| class="wikitable"
{| class="wikitable"
|'''Signs and Symptoms'''
|+
|epileptic seizure, focal deficit, increased intracranial hypertension
|Acceptable
|N/A
|-
|-
|'''Laboratory Findings'''
|Not Recommended
|Not applicable
|Paediatric glioblastoma, H3.3 G34–mutant
|}
|}


==Sites of Involvement==
==Gene Rearrangements==
Put your text here and fill in the table <span style="color:#0070C0">(''Instructions: Details on clinical significance such as prognosis and other important information can be provided in the notes section. Please include references throughout the table. Do not delete the table.'')</span>
{| class="wikitable sortable"
|-
!Driver Gene!!Fusion(s) and Common Partner Genes!!Molecular Pathogenesis!!Typical Chromosomal Alteration(s)
!Prevalence -Common >20%, Recurrent 5-20% or Rare <5% (Disease)
!Diagnostic, Prognostic, and Therapeutic Significance - D, P, T
!Established Clinical Significance Per Guidelines - Yes or No (Source)
!Clinical Relevance Details/Other Notes
|-
|<span class="blue-text">EXAMPLE:</span> ''ABL1''||<span class="blue-text">EXAMPLE:</span> ''BCR::ABL1''||<span class="blue-text">EXAMPLE:</span> The pathogenic derivative is the der(22) resulting in fusion of 5’ BCR and 3’ABL1.||<span class="blue-text">EXAMPLE:</span> t(9;22)(q34;q11.2)
|<span class="blue-text">EXAMPLE:</span> Common (CML)
|<span class="blue-text">EXAMPLE:</span> D, P, T
|<span class="blue-text">EXAMPLE:</span> Yes (WHO, NCCN)
|<span class="blue-text">EXAMPLE:</span>
The t(9;22) is diagnostic of CML in the appropriate morphology and clinical context (add reference). This fusion is responsive to targeted therapy such as Imatinib (Gleevec) (add reference). BCR::ABL1 is generally favorable in CML (add reference).
|-
|<span class="blue-text">EXAMPLE:</span> ''CIC''
|<span class="blue-text">EXAMPLE:</span> ''CIC::DUX4''
|<span class="blue-text">EXAMPLE:</span> Typically, the last exon of ''CIC'' is fused to ''DUX4''. The fusion breakpoint in ''CIC'' is usually intra-exonic and removes an inhibitory sequence, upregulating ''PEA3'' genes downstream of ''CIC'' including ''ETV1'', ''ETV4'', and ''ETV5''.
|<span class="blue-text">EXAMPLE:</span> t(4;19)(q25;q13)
|<span class="blue-text">EXAMPLE:</span> Common (CIC-rearranged sarcoma)
|<span class="blue-text">EXAMPLE:</span> D
|
|<span class="blue-text">EXAMPLE:</span>


* Usually involves cerebral hemispheres
''DUX4'' has many homologous genes; an alternate translocation in a minority of cases is t(10;19), but this is usually indistinguishable from t(4;19) by short-read sequencing (add references).
|-
|<span class="blue-text">EXAMPLE:</span> ''ALK''
|<span class="blue-text">EXAMPLE:</span> ''ELM4::ALK''


* Occasionally across the midline and disseminate to leptomeningeal structures.


* MRI typically shows a bulky cortical mass, most commonly seen in the parietal or temporal lobe. Multifocal lesions and/or leptomeningeal dissemination can be seen along with necrosis, cysts, hemorrhage and calcification <ref>{{Cite journal|last=Vettermann|first=Franziska J.|last2=Felsberg|first2=Jörg|last3=Reifenberger|first3=Guido|last4=Hasselblatt|first4=Martin|last5=Forbrig|first5=Robert|last6=Berding|first6=Georg|last7=la Fougère|first7=Christian|last8=Galldiks|first8=Norbert|last9=Schittenhelm|first9=Jens|date=2018-12|title=Characterization of Diffuse Gliomas With Histone H3-G34 Mutation by MRI and Dynamic 18F-FET PET|url=https://pubmed.ncbi.nlm.nih.gov/30358620|journal=Clinical Nuclear Medicine|volume=43|issue=12|pages=895–898|doi=10.1097/RLU.0000000000002300|issn=1536-0229|pmid=30358620}}</ref>.
Other fusion partners include ''KIF5B, NPM1, STRN, TFG, TPM3, CLTC, KLC1''
|<span class="blue-text">EXAMPLE:</span> Fusions result in constitutive activation of the ''ALK'' tyrosine kinase. The most common ''ALK'' fusion is ''EML4::ALK'', with breakpoints in intron 19 of ''ALK''. At the transcript level, a variable (5’) partner gene is fused to 3’ ''ALK'' at exon 20. Rarely, ''ALK'' fusions contain exon 19 due to breakpoints in intron 18.
|<span class="blue-text">EXAMPLE:</span> N/A
|<span class="blue-text">EXAMPLE:</span> Rare (Lung adenocarcinoma)
|<span class="blue-text">EXAMPLE:</span> T
|
|<span class="blue-text">EXAMPLE:</span>


==Morphologic Features==
Both balanced and unbalanced forms are observed by FISH (add references).
|-
|<span class="blue-text">EXAMPLE:</span> ''ABL1''
|<span class="blue-text">EXAMPLE:</span> N/A
|<span class="blue-text">EXAMPLE:</span> Intragenic deletion of exons 2–7 in ''EGFR'' removes the ligand-binding domain, resulting in a constitutively active tyrosine kinase with downstream activation of multiple oncogenic pathways.
|<span class="blue-text">EXAMPLE:</span> N/A
|<span class="blue-text">EXAMPLE:</span> Recurrent (IDH-wildtype Glioblastoma)
|<span class="blue-text">EXAMPLE:</span> D, P, T
|
|
|-
|
|
|
|
|
|
|
|
|}


*Grossly, grey/tan solid mass within cortical and subcortical region with soft consistency, necrotic and hemorrhagic features.
*Microscopically, heterogenous histological appearance, with two main histological appearances: glioblastoma-like and primitive embryonal-like. GBM-like morphology typically shows a highly cellular, infiltrative, astrocytic tumor. High mitotic activity, microvascular proliferation and necrosis are frequently seen. Embryonal-like morphology shows hyperchromatic nuclei with scant cytoplasm, and occasional Homer-Wright rosettes.
==Immunophenotype==


==Individual Region Genomic Gain/Loss/LOH==
Put your text here and fill in the table <span style="color:#0070C0">(''Instructions: Includes aberrations not involving gene rearrangements. Details on clinical significance such as prognosis and other important information can be provided in the notes section. Can refer to CGC workgroup tables as linked on the homepage if applicable. Please include references throughout the table. Do not delete the table.'') </span>
{| class="wikitable sortable"
{| class="wikitable sortable"
|-
|-
!Finding!!Marker
!Chr #!!Gain, Loss, Amp, LOH!!Minimal Region Cytoband and/or Genomic Coordinates [Genome Build; Size]!!Relevant Gene(s)
!Diagnostic, Prognostic, and Therapeutic Significance - D, P, T
!Established Clinical Significance Per Guidelines - Yes or No (Source)
!Clinical Relevance Details/Other Notes
|-
|-
|Positive (universal)||MAP2, FOXG1, p53
|<span class="blue-text">EXAMPLE:</span>
7
|<span class="blue-text">EXAMPLE:</span> Loss
|<span class="blue-text">EXAMPLE:</span>
chr7
|<span class="blue-text">EXAMPLE:</span>
Unknown
|<span class="blue-text">EXAMPLE:</span> D, P
|<span class="blue-text">EXAMPLE:</span> No
|<span class="blue-text">EXAMPLE:</span>
Presence of monosomy 7 (or 7q deletion) is sufficient for a diagnosis of AML with MDS-related changes when there is ≥20% blasts and no prior therapy (add reference).  Monosomy 7/7q deletion is associated with a poor prognosis in AML (add references).
|-
|-
|Positive (subset)||GFAP (GBM-like morphology), synaptophysin (embryonal-like morphology)
|<span class="blue-text">EXAMPLE:</span>
8
|<span class="blue-text">EXAMPLE:</span> Gain
|<span class="blue-text">EXAMPLE:</span>
chr8
|<span class="blue-text">EXAMPLE:</span>
Unknown
|<span class="blue-text">EXAMPLE:</span> D, P
|
|<span class="blue-text">EXAMPLE:</span>
Common recurrent secondary finding for t(8;21) (add references).
|-
|-
|Negative (universal)||ATRX, Olig2
|<span class="blue-text">EXAMPLE:</span>
17
|<span class="blue-text">EXAMPLE:</span> Amp
|<span class="blue-text">EXAMPLE:</span>
17q12; chr17:39,700,064-39,728,658 [hg38; 28.6 kb]
|<span class="blue-text">EXAMPLE:</span>
''ERBB2''
|<span class="blue-text">EXAMPLE:</span> D, P, T
|
|<span class="blue-text">EXAMPLE:</span>
Amplification of ''ERBB2'' is associated with HER2 overexpression in HER2 positive breast cancer (add references). Add criteria for how amplification is defined.
|-
|-
|Negative (subset)||
|
|
|
|
|
|
|
|}
|}


==Chromosomal Rearrangements (Gene Fusions)==


Not applicable
'''Add content below into table above''' -      
 
{| class="wikitable sortable"
|-
!Chromosomal Rearrangement!!Genes in Fusion (5’ or 3’ Segments)!!Pathogenic Derivative!!Prevalence
!Diagnostic Significance (Yes, No or Unknown)
!Prognostic Significance (Yes, No or Unknown)
!Therapeutic Significance (Yes, No or Unknown)
!Notes
|-
|N/A||N/A
|N/A
|N/A
|N/A
|N/A
|N/A
|N/A
|}
==Individual Region Genomic Gain/Loss/LOH==


Oncogenic amplifications in G34-DHG have been shown to be negative prognostic markers, as documented below <ref name=":4">{{Cite journal|last=Korshunov|first=Andrey|last2=Capper|first2=David|last3=Reuss|first3=David|last4=Schrimpf|first4=Daniel|last5=Ryzhova|first5=Marina|last6=Hovestadt|first6=Volker|last7=Sturm|first7=Dominik|last8=Meyer|first8=Jochen|last9=Jones|first9=Chris|date=2016-01|title=Histologically distinct neuroepithelial tumors with histone 3 G34  mutation are molecularly similar and comprise a single nosologic  entity|url=https://pubmed.ncbi.nlm.nih.gov/26482474|journal=Acta Neuropathologica|volume=131|issue=1|pages=137–146|doi=10.1007/s00401-015-1493-1|issn=1432-0533|pmid=26482474}}</ref>.
{| class="wikitable sortable"
{| class="wikitable sortable"
|-
|-
Line 109: Line 183:
|Amp
|Amp
|12:4,273,762-4,305,353
|12:4,273,762-4,305,353
|12p13.32  
|12p13.32
|Unk
|Unk
|Yes
|Yes
Line 127: Line 201:
|Homoz del
|Homoz del
|9:21,967,752-21,995,324
|9:21,967,752-21,995,324
|9p21.3  
|9p21.3
|Unk
|Unk
|Unk
|Unk
Line 133: Line 207:
|14% case of G34-DHG <ref name=":5" />
|14% case of G34-DHG <ref name=":5" />
|}
|}
==Characteristic Chromosomal Patterns==
==Characteristic Chromosomal or Other Global Mutational Patterns==
Put your text here and fill in the table <span style="color:#0070C0">(I''nstructions: Included in this category are alterations such as hyperdiploid; gain of odd number chromosomes including typically chromosome 1, 3, 5, 7, 11, and 17; co-deletion of 1p and 19q; complex karyotypes without characteristic genetic findings; chromothripsis; microsatellite instability; homologous recombination deficiency; mutational signature pattern; etc. Details on clinical significance such as prognosis and other important information can be provided in the notes section. Please include references throughout the table. Do not delete the table.'')</span>
{| class="wikitable sortable"
|-
!Chromosomal Pattern
!Molecular Pathogenesis
!Prevalence -
Common >20%, Recurrent 5-20% or Rare <5% (Disease)
!Diagnostic, Prognostic, and Therapeutic Significance - D, P, T
!Established Clinical Significance Per Guidelines - Yes or No (Source)
!Clinical Relevance Details/Other Notes
|-
|<span class="blue-text">EXAMPLE:</span>
Co-deletion of 1p and 18q
|<span class="blue-text">EXAMPLE:</span> See chromosomal rearrangements table as this pattern is due to an unbalanced derivative translocation associated with oligodendroglioma (add reference).
|<span class="blue-text">EXAMPLE:</span> Common (Oligodendroglioma)
|<span class="blue-text">EXAMPLE:</span> D, P
|
|
|-
|<span class="blue-text">EXAMPLE:</span>
Microsatellite instability - hypermutated
|
|<span class="blue-text">EXAMPLE:</span> Common (Endometrial carcinoma)
|<span class="blue-text">EXAMPLE:</span> P, T
|
|
|-
|
|
|
|
|
|
|}


'''Add content below into table above''' -      
{| class="wikitable sortable"
{| class="wikitable sortable"
|-
|-
Line 147: Line 256:
|N/A
|N/A
|N/A
|N/A
|Found in 70% of cases of G34-DHG <ref name=":5" />  
|Found in 70% of cases of G34-DHG <ref name=":5" />
|-
|-
|3q loss
|3q loss
Line 173: Line 282:
|Found in 44% of cases of G34-DHG <ref name=":5" />
|Found in 44% of cases of G34-DHG <ref name=":5" />
|}
|}
==Gene Mutations (SNV/INDEL/Methylation)==
==Gene Mutations (SNV/INDEL)==
Put your text here and fill in the table <span style="color:#0070C0">(''Instructions: This table is not meant to be an exhaustive list; please include only genes/alterations that are recurrent or common as well either disease defining and/or clinically significant. If a gene has multiple mechanisms depending on the type or site of the alteration, add multiple entries in the table. For clinical significance, denote associations with FDA-approved therapy (not an extensive list of applicable drugs) and NCCN or other national guidelines if applicable; Can also refer to CGC workgroup tables as linked on the homepage if applicable as well as any high impact papers or reviews of gene mutations in this entity. Details on clinical significance such as prognosis and other important information such as concomitant and mutually exclusive mutations can be provided in the notes section. Please include references throughout the table. Do not delete the table.'') </span>
{| class="wikitable sortable"
|-
!Gene!!Genetic Alteration!!Tumor Suppressor Gene, Oncogene, Other!!Prevalence -
Common >20%, Recurrent 5-20% or Rare <5% (Disease)
!Diagnostic, Prognostic, and Therapeutic Significance - D, P, T  
!Established Clinical Significance Per Guidelines - Yes or No (Source)
!Clinical Relevance Details/Other Notes
|-
|<span class="blue-text">EXAMPLE:</span>''EGFR''


Put your text here and fill in the table
<br />
|<span class="blue-text">EXAMPLE:</span> Exon 18-21 activating mutations
|<span class="blue-text">EXAMPLE:</span> Oncogene
|<span class="blue-text">EXAMPLE:</span> Common (lung cancer)
|<span class="blue-text">EXAMPLE:</span> T
|<span class="blue-text">EXAMPLE:</span> Yes (NCCN)
|<span class="blue-text">EXAMPLE:</span> Exons 18, 19, and 21 mutations are targetable for therapy. Exon 20 T790M variants cause resistance to first generation TKI therapy and are targetable by second and third generation TKIs (add references).
|-
|<span class="blue-text">EXAMPLE:</span> ''TP53''; Variable LOF mutations
<br />
|<span class="blue-text">EXAMPLE:</span> Variable LOF mutations
|<span class="blue-text">EXAMPLE:</span> Tumor Supressor Gene
|<span class="blue-text">EXAMPLE:</span> Common (breast cancer)
|<span class="blue-text">EXAMPLE:</span> P
|
|<span class="blue-text">EXAMPLE:</span> >90% are somatic; rare germline alterations associated with Li-Fraumeni syndrome (add reference). Denotes a poor prognosis in breast cancer.
|-
|<span class="blue-text">EXAMPLE:</span> ''BRAF''; Activating mutations
|<span class="blue-text">EXAMPLE:</span> Activating mutations
|<span class="blue-text">EXAMPLE:</span> Oncogene
|<span class="blue-text">EXAMPLE:</span> Common (melanoma)
|<span class="blue-text">EXAMPLE:</span> T
|
|
|-
|
|
|
|
|
|
|
|}Note: A more extensive list of mutations can be found in [https://www.cbioportal.org/ <u>cBioportal</u>], [https://cancer.sanger.ac.uk/cosmic <u>COSMIC</u>], and/or other databases. When applicable, gene-specific pages within the CCGA site directly link to pertinent external content.


'''Add content below into table above''' -      
{| class="wikitable sortable"
{| class="wikitable sortable"
|-
|-
!Gene; Genetic Alteration!!'''Presumed Mechanism (Tumor Suppressor Gene [TSG] / Oncogene / Other)'''!!'''Prevalence (COSMIC /  TCGA / Other)'''!!'''Concomitant Mutations'''!!'''Mutually Exclusive Mutations'''
!Gene; Genetic Alteration!!Presumed Mechanism (Tumor Suppressor Gene [TSG] / Oncogene / Other)!!Prevalence (COSMIC /  TCGA / Other)!!Concomitant Mutations!!Mutually Exclusive Mutations
!'''Diagnostic Significance (Yes, No or Unknown)'''
!Diagnostic Significance (Yes, No or Unknown)
!Prognostic Significance (Yes, No or Unknown)
!Prognostic Significance (Yes, No or Unknown)
!Therapeutic Significance (Yes, No or Unknown)
!Therapeutic Significance (Yes, No or Unknown)
!Notes
!Notes
|-
|-
|H3F3A p.G35R/V
|''H3-3A'' p.G35R/V
|chromosome modification
|chromosome modification
|p.G35R 94%
|p.G35R 94%
p.G35V 6% <ref name=":3" />
p.G35V 6% <ref name=":3">Ellison, DW, Korshunov A, Northcott PA, Taylor MD, Kaur K, Clifford SC. Medulloblastoma, WNT-activated. In: WHO Classification of Tumours Editorial Board. Central nervous system tumours. Lyon (France): International Agency for Research on Cancer; 2021. (WHO classification of tumours series, 5th ed.; vol. 6). <nowiki>https://publications.iarc.fr/601</nowiki>.</ref>
|TP53 mutations 90%;
|TP53 mutations 90%;
ATRX mutations 95%
ATRX mutations 95%


MGMT promoter methylation 70%-74% <ref name=":1" /><ref name=":4" />
MGMT promoter methylation 70%-74% <ref name=":1">{{Cite journal|last=Crowell|first=Cameron|last2=Mata-Mbemba|first2=Daddy|last3=Bennett|first3=Julie|last4=Matheson|first4=Kara|last5=Mackley|first5=Michael|last6=Perreault|first6=Sébastien|last7=Erker|first7=Craig|date=2022-01|title=Systematic review of diffuse hemispheric glioma, H3 G34-mutant: Outcomes and associated clinical factors|url=https://pubmed.ncbi.nlm.nih.gov/36105387|journal=Neuro-Oncology Advances|volume=4|issue=1|pages=vdac133|doi=10.1093/noajnl/vdac133|issn=2632-2498|pmc=9466272|pmid=36105387}}</ref><ref name=":4" />


PDGFRA mutations 50-70%<ref>{{Cite journal|last=Chen|first=Carol C. L.|last2=Deshmukh|first2=Shriya|last3=Jessa|first3=Selin|last4=Hadjadj|first4=Djihad|last5=Lisi|first5=Véronique|last6=Andrade|first6=Augusto Faria|last7=Faury|first7=Damien|last8=Jawhar|first8=Wajih|last9=Dali|first9=Rola|date=2020-12-10|title=Histone H3.3G34-Mutant Interneuron Progenitors Co-opt PDGFRA for Gliomagenesis|url=https://pubmed.ncbi.nlm.nih.gov/33259802|journal=Cell|volume=183|issue=6|pages=1617–1633.e22|doi=10.1016/j.cell.2020.11.012|issn=1097-4172|pmc=7791404|pmid=33259802}}</ref> <ref>{{Cite journal|last=Lucas|first=Calixto-Hope G.|last2=Mueller|first2=Sabine|last3=Reddy|first3=Alyssa|last4=Taylor|first4=Jennie W.|last5=Oberheim Bush|first5=Nancy Ann|last6=Clarke|first6=Jennifer L.|last7=Chang|first7=Susan M.|last8=Gupta|first8=Nalin|last9=Berger|first9=Mitchel S.|date=2021-11-02|title=Diffuse hemispheric glioma, H3 G34-mutant: Genomic landscape of a new tumor entity and prospects for targeted therapy|url=https://pubmed.ncbi.nlm.nih.gov/34519829|journal=Neuro-Oncology|volume=23|issue=11|pages=1974–1976|doi=10.1093/neuonc/noab184|issn=1523-5866|pmc=8628364|pmid=34519829}}</ref>
PDGFRA mutations 50-70%<ref>{{Cite journal|last=Chen|first=Carol C. L.|last2=Deshmukh|first2=Shriya|last3=Jessa|first3=Selin|last4=Hadjadj|first4=Djihad|last5=Lisi|first5=Véronique|last6=Andrade|first6=Augusto Faria|last7=Faury|first7=Damien|last8=Jawhar|first8=Wajih|last9=Dali|first9=Rola|date=2020-12-10|title=Histone H3.3G34-Mutant Interneuron Progenitors Co-opt PDGFRA for Gliomagenesis|url=https://pubmed.ncbi.nlm.nih.gov/33259802|journal=Cell|volume=183|issue=6|pages=1617–1633.e22|doi=10.1016/j.cell.2020.11.012|issn=1097-4172|pmc=7791404|pmid=33259802}}</ref> <ref>{{Cite journal|last=Lucas|first=Calixto-Hope G.|last2=Mueller|first2=Sabine|last3=Reddy|first3=Alyssa|last4=Taylor|first4=Jennie W.|last5=Oberheim Bush|first5=Nancy Ann|last6=Clarke|first6=Jennifer L.|last7=Chang|first7=Susan M.|last8=Gupta|first8=Nalin|last9=Berger|first9=Mitchel S.|date=2021-11-02|title=Diffuse hemispheric glioma, H3 G34-mutant: Genomic landscape of a new tumor entity and prospects for targeted therapy|url=https://pubmed.ncbi.nlm.nih.gov/34519829|journal=Neuro-Oncology|volume=23|issue=11|pages=1974–1976|doi=10.1093/neuonc/noab184|issn=1523-5866|pmc=8628364|pmid=34519829}}</ref>
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|
|
|-
|-
|MGMT
|''MGMT''
|promoter methylation
|promoter methylation
|70%-74% of G34-DHG <ref name=":1" /><ref name=":4" />
|70%-74% of G34-DHG <ref name=":1" /><ref name=":4" />
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|}
|}
Note: A more extensive list of mutations can be found in cBioportal (https://www.cbioportal.org/), COSMIC (https://cancer.sanger.ac.uk/cosmic), ICGC (https://dcc.icgc.org/) and/or other databases. When applicable, gene-specific pages within the CCGA site directly link to pertinent external content.
Note: A more extensive list of mutations can be found in cBioportal (https://www.cbioportal.org/), COSMIC (https://cancer.sanger.ac.uk/cosmic), ICGC (https://dcc.icgc.org/) and/or other databases. When applicable, gene-specific pages within the CCGA site directly link to pertinent external content.
==Epigenomic Alterations==
Put your text here
==Genes and Main Pathways Involved==
Put your text here and fill in the table <span style="color:#0070C0">(''Instructions: Please include references throughout the table. Do not delete the table.)''</span>
{| class="wikitable sortable"
|-
!Gene; Genetic Alteration!!Pathway!!Pathophysiologic Outcome
|-
|<span class="blue-text">EXAMPLE:</span> ''BRAF'' and ''MAP2K1''; Activating mutations
|<span class="blue-text">EXAMPLE:</span> MAPK signaling
|<span class="blue-text">EXAMPLE:</span> Increased cell growth and proliferation
|-
|<span class="blue-text">EXAMPLE:</span> ''CDKN2A''; Inactivating mutations
|<span class="blue-text">EXAMPLE:</span> Cell cycle regulation
|<span class="blue-text">EXAMPLE:</span> Unregulated cell division
|-
|<span class="blue-text">EXAMPLE:</span> ''KMT2C'' and ''ARID1A''; Inactivating mutations
|<span class="blue-text">EXAMPLE:</span> Histone modification, chromatin remodeling
|<span class="blue-text">EXAMPLE:</span> Abnormal gene expression program
|-
|
|
|
|}


==Epigenomic Alterations==
==Epigenomic Alterations==
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==Genes and Main Pathways Involved==
==Genes and Main Pathways Involved==
{| class="wikitable sortable"
{| class="wikitable sortable"
|-
|-
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|Facilitate alternative  lengthening of telomeres
|Facilitate alternative  lengthening of telomeres
|}
|}
==Genetic Diagnostic Testing Methods==
==Genetic Diagnostic Testing Methods==


* Targeted sequencing to identify c.103G>A p.G35R (G34R), c.103G>C p.G35R (G34R), or c.104G>T p.G35V (G34V) is diagnostic for G34-DHG.
*Targeted sequencing to identify c.103G>A p.G35R (G34R), c.103G>C p.G35R (G34R), or c.104G>T p.G35V (G34V) is diagnostic for G34-DHG.
* Pan-cancer sequencing will likely detect concurrent mutations in ''TP53, ATRX, PDGFRA'' etc.
*Pan-cancer sequencing will likely detect concurrent mutations in ''TP53, ATRX, PDGFRA'' etc.
* DNA methylation and gene expression profiling can be used to differentiate G34-DHG with other glioma subgroups.
*DNA methylation and gene expression profiling can be used to differentiate G34-DHG with other glioma subgroups.
* ''MGMT'' promoter methylation can be assessed by methylation specific polymerase chain reaction analysis (bisulfite treated DNA undergoes real-time PCR)<br />
*''MGMT'' promoter methylation can be assessed by methylation specific polymerase chain reaction analysis (bisulfite treated DNA undergoes real-time PCR)


==Familial Forms==
==Familial Forms==
N/A


Put your text here
==Additional Information==
This disease is <u>defined/characterized</u> as detailed below:
 
*Diffuse hemispheric glioma, H3 G34–mutant (G34-DHG) is a newly recognized tumor entity that is characterized by point mutations in the ''H3-3A'' (''H3-3A'') gene, encoding for histone variant H3.3  <ref name=":0">{{Cite journal|last=Schwartzentruber|first=Jeremy|last2=Korshunov|first2=Andrey|last3=Liu|first3=Xiao-Yang|last4=Jones|first4=David T. W.|last5=Pfaff|first5=Elke|last6=Jacob|first6=Karine|last7=Sturm|first7=Dominik|last8=Fontebasso|first8=Adam M.|last9=Quang|first9=Dong-Anh Khuong|date=2012-01-29|title=Driver mutations in histone H3.3 and chromatin remodelling genes in paediatric glioblastoma|url=https://pubmed.ncbi.nlm.nih.gov/22286061|journal=Nature|volume=482|issue=7384|pages=226–231|doi=10.1038/nature10833|issn=1476-4687|pmid=22286061}}</ref><ref>{{Cite journal|last=Wu|first=Gang|last2=Broniscer|first2=Alberto|last3=McEachron|first3=Troy A.|last4=Lu|first4=Charles|last5=Paugh|first5=Barbara S.|last6=Becksfort|first6=Jared|last7=Qu|first7=Chunxu|last8=Ding|first8=Li|last9=Huether|first9=Robert|date=2012-01-29|title=Somatic histone H3 alterations in pediatric diffuse intrinsic pontine gliomas and non-brainstem glioblastomas|url=https://pubmed.ncbi.nlm.nih.gov/22286216|journal=Nature Genetics|volume=44|issue=3|pages=251–253|doi=10.1038/ng.1102|issn=1546-1718|pmc=3288377|pmid=22286216}}</ref>. Point mutations tend to be clustered at codon 34 including c.103G>A p.G35R (G34R), c.103G>C p.G35R (G34R), or rarely c.104G>T p.G35V (G34V) <ref name=":0" />. This distinct tumor entity is an aggressive glioma arising from the cerebral hemispheres. G34-DHG is designated as CNS WHO grade 4 in in the WHO 5th edition <ref name=":3" />.
 
*Please note that historically, numbering of the amino acid sequences of histone genes has begun at the second codon, as the amino acid encoded by the first codon (methionine) is cleaved post-translationally. Therefore, H3.3 G34 represents the legacy nomenclature of what is now referred to as H3.3 G35 <ref>{{Cite journal|last=Leske|first=Henning|last2=Dalgleish|first2=Raymond|last3=Lazar|first3=Alexander J.|last4=Reifenberger|first4=Guido|last5=Cree|first5=Ian A.|date=2021-06|title=A common classification framework for histone sequence alterations in tumours: an expert consensus proposal|url=https://pubmed.ncbi.nlm.nih.gov/33779999|journal=The Journal of Pathology|volume=254|issue=2|pages=109–120|doi=10.1002/path.5666|issn=1096-9896|pmid=33779999}}</ref>.
 
The <u>epidemiology/prevalence</u> of this disease is detailed below:
 
*G34-DHG is reported to account for approximately 15% of high grade gliomas (HGSs) and typically affect adolescents and young adults with a median age at diagnosis of 15.8 years old <ref>{{Cite journal|last=Picart|first=Thiébaud|last2=Barritault|first2=Marc|last3=Poncet|first3=Delphine|last4=Berner|first4=Lise-Prune|last5=Izquierdo|first5=Cristina|last6=Tabouret|first6=Emeline|last7=Figarella-Branger|first7=Dominique|last8=Idbaïh|first8=Ahmed|last9=Bielle|first9=Franck|date=2021-01|title=Characteristics of diffuse hemispheric gliomas, H3 G34-mutant in adults|url=https://pubmed.ncbi.nlm.nih.gov/34056608|journal=Neuro-Oncology Advances|volume=3|issue=1|pages=vdab061|doi=10.1093/noajnl/vdab061|issn=2632-2498|pmc=8156974|pmid=34056608}}</ref><ref name=":1" />. Studies have shown that there is a gender difference with male to female ratio of 1.4:1 <ref name=":4" /><ref>{{Cite journal|last=Mackay|first=Alan|last2=Burford|first2=Anna|last3=Carvalho|first3=Diana|last4=Izquierdo|first4=Elisa|last5=Fazal-Salom|first5=Janat|last6=Taylor|first6=Kathryn R.|last7=Bjerke|first7=Lynn|last8=Clarke|first8=Matthew|last9=Vinci|first9=Mara|date=2017-10-09|title=Integrated Molecular Meta-Analysis of 1,000 Pediatric High-Grade and Diffuse Intrinsic Pontine Glioma|url=https://pubmed.ncbi.nlm.nih.gov/28966033|journal=Cancer Cell|volume=32|issue=4|pages=520–537.e5|doi=10.1016/j.ccell.2017.08.017|issn=1878-3686|pmc=5637314|pmid=28966033}}</ref>.
 
The <u>clinical features</u> of this disease are detailed below:
 
*Site dependent neurological symptoms including epileptic seizure, focal deficit, increased intracranial hypertension (headache, nausea and vomiting) <ref>{{Cite journal|last=Picart|first=Thiébaud|last2=Barritault|first2=Marc|last3=Poncet|first3=Delphine|last4=Berner|first4=Lise-Prune|last5=Izquierdo|first5=Cristina|last6=Tabouret|first6=Emeline|last7=Figarella-Branger|first7=Dominique|last8=Idbaïh|first8=Ahmed|last9=Bielle|first9=Franck|date=2021|title=Characteristics of diffuse hemispheric gliomas, H3 G34-mutant in adults|url=https://pubmed.ncbi.nlm.nih.gov/34056608|journal=Neuro-Oncology Advances|volume=3|issue=1|pages=vdab061|doi=10.1093/noajnl/vdab061|issn=2632-2498|pmc=8156974|pmid=34056608}}</ref>.
*Signs and symptoms - epileptic seizure, focal deficit, increased intracranial hypertension
 
The <u>sites of involvement</u> of this disease are detailed below:
 
*sually involves cerebral hemispheres
 
*Occasionally across the midline and disseminate to leptomeningeal structures.
 
*MRI typically shows a bulky cortical mass, most commonly seen in the parietal or temporal lobe. Multifocal lesions and/or leptomeningeal dissemination can be seen along with necrosis, cysts, hemorrhage and calcification <ref name=":6">{{Cite journal|last=Vettermann|first=Franziska J.|last2=Felsberg|first2=Jörg|last3=Reifenberger|first3=Guido|last4=Hasselblatt|first4=Martin|last5=Forbrig|first5=Robert|last6=Berding|first6=Georg|last7=la Fougère|first7=Christian|last8=Galldiks|first8=Norbert|last9=Schittenhelm|first9=Jens|date=2018-12|title=Characterization of Diffuse Gliomas With Histone H3-G34 Mutation by MRI and Dynamic 18F-FET PET|url=https://pubmed.ncbi.nlm.nih.gov/30358620|journal=Clinical Nuclear Medicine|volume=43|issue=12|pages=895–898|doi=10.1097/RLU.0000000000002300|issn=1536-0229|pmid=30358620}}</ref>.
 
The <u>morphologic features</u> of this disease are detailed below:
 
*Usually involves cerebral hemispheres
 
*Occasionally across the midline and disseminate to leptomeningeal structures.
 
*MRI typically shows a bulky cortical mass, most commonly seen in the parietal or temporal lobe. Multifocal lesions and/or leptomeningeal dissemination can be seen along with necrosis, cysts, hemorrhage and calcification <ref name=":6" />
 
The <u>immunophenotype</u> of this disease is detailed below:
 
Positive (universal) - MAP2, FOXG1, p53


==Additional Information==
Positive (subset) - GFAP (GBM-like morphology), synaptophysin (embryonal-like morphology)


Put your text here
Negative (universal) - ATRX, Olig2


==Links==
==Links==
None


Put your text placeholder here (use "Link" icon at top of page)
==References==


==References==
<references />
(use "Cite" icon at top of page)
===EXAMPLE Book===


#Arber DA, et al., (2017). Acute myeloid leukaemia with recurrent genetic abnormalities, in World Health Organization Classification of Tumours of Haematopoietic and Lymphoid Tissues, Revised 4th edition. Swerdlow SH, Campo E, Harris NL, Jaffe ES, Pileri SA, Stein H, Thiele J, Arber DA, Hasserjian RP, Le Beau MM, Orazi A, and Siebert R, Editors. IARC Press: Lyon, France, p129-171.
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==Notes==
==Notes==
<nowiki>*</nowiki>Primary authors will typically be those that initially create and complete the content of a page. If a subsequent user modifies the content and feels the effort put forth is of high enough significance to warrant listing in the authorship section, please contact the CCGA coordinators (contact information provided on the homepage). Additional global feedback or concerns are also welcome.
 
 
<nowiki>*</nowiki>Primary authors will typically be those that initially create and complete the content of a page.  If a subsequent user modifies the content and feels the effort put forth is of high enough significance to warrant listing in the authorship section, please contact the [[Leadership|''<u>Associate Editor</u>'']] or other CCGA representative.  When pages have a major update, the new author will be acknowledged at the beginning of the page, and those who contributed previously will be acknowledged below as a prior author.
 
Prior Author(s):
<nowiki>*</nowiki>''Citation of this Page'': “Diffuse hemispheric glioma, H3 G34-mutant”. Compendium of Cancer Genome Aberrations (CCGA), Cancer Genomics Consortium (CGC), updated {{REVISIONMONTH}}/{{REVISIONDAY}}/{{REVISIONYEAR}}, <nowiki>https://ccga.io/index.php/CNS5:Diffuse hemispheric glioma, H3 G34-mutant</nowiki>.
[[Category:CNS5]]
[[Category:DISEASE]]
[[Category:Diseases D]]
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