Germ cell tumors constitute a heterogeneous group that displays a broad spectrum of morphology. They often arise in testes; however, extragonadal occurrence, in particular brain, is not uncommon, and ...whether they share a common pathogenesis is unknown. We performed whole exome sequencing in 41 pairs of central nervous system germ cell tumors (CNS GCTs) of various histology and their matched normal tissues. We then performed targeted sequencing of 41 selected genes in a total of 124 CNS GCTs, 65 testicular germ cell tumors (tGCTs) and 8 metastatic GCTs to the CNS. The results showed that mutually exclusive mutations of genes involved in the MAPK pathway were most common (48.4 %), typically in KIT (27.4 %), followed by those in the PI3K pathway (12.9 %), particularly in MTOR (6.5 %), among the 124 CNS GCTs. Pure germinomas and non-germinomatous germ cell tumors (NGGCTs), as well as CNS and testicular GCTs, showed similar mutational profiles, suggesting that GCTs share a common molecular pathogenesis. Mutated MTOR identified in CNS GCTs upregulated phosphorylation of the AKT pathway proteins including AKT and 4EBP1 in nutrient-deprived conditions and enhanced soft-agar colony formation; both events were suppressed in a dose-dependent manner by addition of the MTOR inhibitor pp242. Our findings indicate that the dominant genetic drivers of GCTs regardless of the site of origin are activation of the MAPK and/or PI3K pathways by somatic point mutations. Mutated MTOR represents a potential target for novel targeted therapies for refractory GCTs.
Aims
Approximately 60–70% of high‐grade round‐cell sarcomas that lack the Ewing sarcoma breakpoint region 1 (
EWSR
1
) rearrangement harbour a rearrangement of the
CIC
gene, most commonly
CIC
–
DUX
4
.... Recent studies have established that
CIC
‐rearranged sarcomas constitute a distinct group characterized by recognizable histology and immunoprofiles, such as positivity for
ETV
4 and
WT
1 and negativity for
NKX
2.2. Although these sarcomas are diagnosed increasingly in practice by fluorescence
in‐situ
hybridization (
FISH
) with
CIC
break‐apart probes, the optimal modality to diagnose these sarcomas has not been determined. In this study, we describe four round‐cell sarcomas that showed false‐negative results by
CIC
break‐apart
FISH
assays.
Methods and results
These sarcomas showed characteristic histology of
CIC
‐rearranged sarcomas, and all were immunohistochemically positive for
ETV
4 and
WT
1 and negative for
NKX
2.2. Although
FISH
showed non‐atypical negative signals for
CIC
rearrangement, high‐throughput
RNA
sequencing identified
CIC
–
DUX
4
and its fusion breakpoint in all cases. Their clinical and histological findings, as well as fusion points determined by
RNA
sequencing, did not differ significantly from those of nine
FISH
‐positive
CIC
–
DUX
4
sarcoma cases. We estimated that the
FISH
false‐negative rate for
CIC
‐rearranged sarcomas was 14%. Although neither histology nor immunoprofiles (e.g.
ETV
4 and
WT
1) are entirely sensitive or specific for
CIC
‐rearranged sarcomas, the observation that these four cases were identified successfully by such phenotypes suggested their practical utility.
Conclusions
CIC
break‐apart
FISH
assays missed a significant minority of
CIC
–
DUX
4
sarcomas, and full awareness of typical morphology and judicious immunohistochemical work‐ups, including analyses of
ETV
4 and
WT
1, should complement diagnostic assessment.
Abstract
As a research group participating in the International Human Epigenome Consortium, we have performed whole-genome bisulfite sequencing (WGBS) using post-bisulfite adaptor tagging, chromatin ...immunoprecipitation (ChIP)-sequencing (seq), RNA-seq and whole-genome sequencing (WGS) using normal hepatocytes purified from partial hepatectomy specimens of 6 Japanese patients without hepatitis virus infection, chronic liver disease or hepatocellular carcinoma.
DNA methylation profiles such as low CpG methylation levels in the region 200 bp upstream from the transcription start site (TSS200), the first coding exon and CpG island were obtained. CHH methylation was observed more frequently on the anti-sense strands than on the sense strands in the 5’ untranslated region (UTR), first intron, gene body and 3’ UTR. non-CpG methylation was inversely correlated with gene expression levels.
Personal differentially methylated regions (pDMRs) were observed less frequently in TSS200, the first coding exon, TSS1500, and CpG island where CpG methylation levels were low, indicating that the regions important for expression regulation may be protected from personal variations of CpG methylation. Histone modification profiles of pDMRs differed considerably among samples. pDMRs were observed around the TSSs of genes whose expression levels are reportedly regulated by CpG methylation, such as LRP1B, RASGRF2 and TFF1. pDMRs were located more frequently in the vicinity of loci showing genetic variation (single-nucleotide variations SNVs and/or insertions/deletions indels) than on all autosomes. Although further study is needed to clarify the molecular background of such genome-epigenome interaction, we speculate that SNVs and indels may affect the binding of non-coding RNAs and/or protein complexes that induce histone modification or CpG methylation alterations around the SNV and indel loci. MetaCore pathway analysis revealed that genes showing both genetic (SNVs and indels) and epigenetic (pDMRs) variations in multiple samples were significantly accumulated in signaling pathways participating in hepatocyte function and disease susceptibility.
Our data suggest that genetic variations may induce epigenetic variations and generate individual differences in the phenotypes of normal hepatocytes and/or determine disease susceptibility through variations in expression. After accumulation of numerous reference epigenome profile data in the IHEC database, comparison between IHEC data for normal cells and cancer cells may facilitate the accurate identification of cancer-specific epigenome profiles, which would be indispensable to the development of biomarkers and molecular targeted therapies.
Citation Format: Eri Arai, Fumihito Miura, Yasushi Totoki, Satoshi Yamashita, Ying Tian, Masahiro Gotoh, Hidenori Ojima, Hiroyuki Nakagawa, Yoriko Takahashi, Hiromi Nakamura, Natsuko Hama, Mamoru Kato, Hiroshi Kimura, Yutaka Suzuki, Takashi Ito, Tatsuhiro Shibata, Yae Kanai. Epigenome landscape of human normal purified hepatocytes: analysis by the International Human Epigenome Consortium (IHEC). abstract. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4517.
Background:
Adult T-cell leukemia/lymphoma (ATL) is a peripheral T-cell neoplasm caused by human T-cell leukemia virus type-1 (HTLV-1) retrovirus infection. As for its pathogenesis, viral products, ...such as Tax and HBZ, play indispensable roles and their oncogenic mechanisms have been extensively studied. Recently, we have performed an integrated genetic study of a large number of ATL cases and revealed the entire landscape of somatic mutations, copy number alterations, and gene fusions in ATL. However, the detailed analysis of HLTV-1 integration using next-generation sequencing has not been performed so far. In this study, combining whole-genome and RNA sequencing data, we delineated the effect of HTLV-I integration on viral and cellular transcription.
Patients and Methods:
We performed WGS and RNA-seq for 48 and 57 ATL cases, respectively. All the analyses of the sequencing data were performed using our in-house pipelines. We analyzed HTLV-1 proviral genomic structure and the effect of HTLV-1 integration on viral and cellular transcription.
Results:
A cardinal feature of ATL genome is HTLV-1 integration, which was precisely located in all the cases analyzed by WGS. Multiple proviral integration sites were detected in 12 cases (total, 62 HTLV-1 integrations sites). The provirus integration was clonal in the architecture inferred from somatic mutations, and apparently randomly integrated into the host genome as previously reported. Within the HTLV-1 genome, frequent 5' proviral segment (gag/pol/env loci) deletions and/or sense gene (gag/pol/env/tax/rex/p13/p30) mutations were observed, which seem to cause defective viral replication/production, whereas HBZ gene was maintained in all the cases. RNA-seq revealed that HTLV-1 integration in ATL cells was associated with aberrant transcription. In general, viral transcripts were predominantly derived from the antisense strand, whereas sense transcription was largely suppressed, leading to global silencing of the sense genes. Especially, in contrast to the ubiquitous HBZ expression (antisense strand), tax expression (sense strand) was almost completely lost in all but one case, which exceptionally exhibited high expression of both tax and HBZ. Strikingly, in most cases, the antisense transcripts were not terminated in 5'-long terminal repeat (LTR), but read through into the juxtaposed cellular genome, extending into up to 50 kb downstream therefrom (read-through transcript). Moreover, in 11 sites of intragenic proviral integration, aberrantly spliced fusion transcripts were observed between LTR and the affected gene, and more commonly associated with antisense (n = 9) than sense (n = 2) integration, accompanied by upregulated cellular gene expression. In other cases (n = 3), fusion transcripts were also generated between HBZ and an exon of highly expressed cellular gene adjacent to the integration site. These results indicate the potential significance of antisense transcription and aberrant fusion transcripts with host genome sequences during ATL development. Although the precise role of these novel aberrant antisense transcripts remains unknown, antisense transcripts containing the LTR region has been implicated in NF-κB activation, which is a hallmark of ATL pathogenesis.
Conclusion:
In summary, combining WGS and RNA-seq data, we demonstrated the global silencing of sense-oriented viral transcripts (including Tax) and the predominance of aberrant antisense-directed transcription, which often involved cellular gene expression, including aberrant fusion transcripts between host and viral genomes (read-through and aberrantly spliced fusion transcripts). These results suggest that antisense transcription and abnormal virus-host fusion transcripts play pivotal roles in the pathogenesis of ATL.
Tobinai:Gilead Sciences: Research Funding. Miyazaki:Kyowa-Kirin: Honoraria, Research Funding; Celgene Japan: Honoraria; Sumitomo Dainippon: Honoraria; Chugai: Honoraria, Research Funding; Shin-bio: Honoraria.
Adult T-cell leukemia/lymphoma (ATL) is a peripheral T-cell neoplasm of largely unknown genetic basis, which is associated with human T-cell leukemia virus type-1 (HTLV-1) infection. To delineate a ...genetic landscape of somatic alterations in ATL, we have performed an integrated genetic study, in which whole-genome/exome (WGS/WES) and transcriptome sequencing (RNA-seq) was performed for a cohort of 83 paired ATL samples, followed by extensive validation using targeted sequencing of detected mutations in 370 follow-up samples.
A striking feature of driver lesions in ATL was their strong enrichment in the components of T-cell receptor (TCR) / NF-κB pathway. Accounting for more than 90% of ATL cases, these lesions were characterized by the predominance of activating alterations, including hotspot missense mutations in PLCG1 (36%), PRKCB (33%), CARD11 (24%), VAV1 (18%), IRF4 (14%) and FYN (4%). Among these, most frequently mutated was PLCG1, which encodes phospholipase C γ1 (PLCγ1), a key regulator of the proximal TCR signaling. Besides the S345F and S520F mutations recently reported in cutaneous T-cell lymphoma, we identified an additional hotspot mutations (R48W, E1163K, and D1165H).
The second most frequently mutated gene was PRKCB, encoding a member of the protein kinase C (PKC) family of proteins (PKCβ), a pivotal signaling molecule downstream of PLCγ. The frequent mutations of PKCβ were unexpected, because it is PKCθ that has been implicated in TCR signaling, whereas PKCβ has been more focused in the context of B-cell receptor signaling. Approximately 93% of the PRKCB mutations were confined to the catalytic domain with a prominent hotspot at D427, suggesting gain-of-function nature of these mutations. Consistent with this, when transduced with the D427N PKCβ mutant, HEK293T and/or Jurkat cells showed increased membrane translocation after PMA/Ionomycin-stimulation, enhanced IKK phosphorylation and p65 nuclear translocation, and augmented NF-κB transcription, compared to wild-type PKCβ-transduced cells. Thus, these PRKCB mutations are the first activating mutations of this family identified in human cancers.
Downstream to PKC lies CARD11, a scaffolding protein required for antigen receptor-induced NF-κB activation. Although previously reported in B-cell lymphomas, CARD11 mutations were more common in ATL (24%). In B-cell lymphomas, mutations are largely limited to the coiled-coil (CC) domain, whereas in ATL, they were clustered not only within the CC domain, but also within the PKC-responsive inhibitory domain, showing a prominent mutational hotspot at E626. The inhibitory domain has been implicated in autoinhibition, whose deletion leads to constitutive activation of CARD11. Intriguingly, WGS identified small intragenic deletions confined to this domain (exons 14-17) in 4 cases (8%) without canonical mutations, and RNA-seq confirmed the skipping of the corresponding exons in these cases. Remarkably, CARD11 mutation significantly co-occurred with PRKCBmutations, suggesting potential functional synergism between these lesions. Actually, overexpression of wild-type CARD11 induced NF-κB activation, which was further augmented by E626K mutation. Similarly, when both CARD11 (E626K) and PRKCB (D427N) mutants were co-expressed, more enhanced NF-κB activation was observed.
RNA-seq and follow-up RT-PCR screening also identified novel gene fusions in TCR / NF-κB pathway: five CTLA4-CD28 and three ICOS-CD28 fusions were observed in seven (7%) of the 105 cases examined, of whom one patient carried both chimeric fusions. WGS revealed tandem duplications of 2q33.2 segments containing CD28, CTLA4, and ICOS, compatible with the corresponding fusion transcripts. B7/CD28 co-signaling molecules, including CD28, CTLA4, and ICOS co-receptors, play pivotal roles in positive and negative regulations of TCR signaling. All the predicted chimeric proteins had the cytoplasmic part of CD28, and are expected to be expressed under the control of the regulatory element of CTLA4 or ICOS, likely leading to prolonged expression of CD28 co-stimulator.
Our findings suggest that deregulated TCR / NF-κB pathway caused by genetic alterations is a hallmark of ATL pathogenesis. The predominance of gain-of-function mutations in this pathway offers good opportunities for exploiting these mutations for the targets of novel drugs to better manage patients.
Tobinai:Gilead Sciences: Research Funding. Miyazaki:Sumitomo Dainippon: Honoraria; Celgene Japan: Honoraria; Chugai: Honoraria, Research Funding; Shin-bio: Honoraria; Kyowa-Kirin: Honoraria, Research Funding. Watanabe:Daiichi Sankyo Co., Ltd.: Research Funding.
Adult T-cell leukemia/lymphoma (ATL) is a distinct form of peripheral T-cell lymphoma, which is etiologically associated with human T-cell leukemia virus type 1 (HTLV-1) infection during early ...infancy. Although HTLV-1 can effectively immortalize human T cells, there is a long latency period of ~50 years before the onset of ATL, suggesting that HTLV-1 infection alone may be insufficient for the development of ATL, but additional acquired genetic events that accumulate during the later life are essential for the development of ATL. However, such somatic alterations underlying the pathogenesis of ATL have not been fully elucidated.
To obtain a complete registry of genetic alterations in ATL, we performed an integrated genetic study, in which whole-genome/exome and RNA sequencing (RNA-seq) was performed together with array-based methylation and genomic copy number analysis among a cohort of 50 paired ATL samples, followed by extensive validation using targeted deep sequencing of detected mutations in > 400 follow-up samples. Compared with other lymphoid malignancies, ATL cells carried higher numbers of mutations, copy number alterations, and rearrangements than in other lymphoid malignancies, suggesting the presence of global genomic instability in ATL. In addition to previously reported mutational targets in ATL (TP53,TCF8, and FAS) and known targets frequently mutated in other lymphoid malignancies (CARD11, GATA3, IRF4, POT1, and RHOA), we identified a variety of highly recurrent mutations affecting previously unknown mutational targets, many of which are involved in T-cell development, activation and migration, immunosurveillance, and transcriptional regulation. Molecular and functional analysis using human T-cell leukemia cell lines showed that some of these novel mutations actually augment T-cell receptor signaling, validating their biological significance in ATL. A comparison of mutations among disease subtypes revealed that several subtype-specific mutations, including TP53, CD58, IRF4 and TBL1XR1 mutations in acute and lymphoma types, and STAT3mutation in chronic and smoldering types, suggesting that different oncogenic mechanisms underlie different ATL subtypes. Furthermore, ATL cells had a distinct pattern of copy number changes and genomic rearrangements. Interestingly, their gene targets showed a significant overlap to mutational targets. Surprisingly, somatic focal deletions involving the 14q31.1 locus were observed in all the cases examined by whole-genome sequencing and therefore are thought to uniquely characterize ATL genomes, although their gene targets remained to be identified. Like other regions also frequently deleted in ATL, such as 7q31.1 and 1p21.3 loci, these deletions were thought to reflect high levels of genetic instability. Finally and conspicuously, pathway analysis revealed that multiple genes involved in the Tax interactome were systematically altered in ATL, although Tax itself underwent gene silencing in most cases. These data suggested that ATL cells can escape from cytotoxic T-lymphocytes by silencing immunogenic Tax expression, while developing alternative oncogenic mechanisms through acquiring somatic mutations or copy number alterations in the Tax-related pathway. Our findings suggest that deregulated T-cell functionalities caused by genetic alterations, especially those associated with HTLV-1 Tax oncoprotein, are central to ATL pathogenesis, and provide a novel clue to contrive new diagnostics and therapeutics for this intractable disease.
No relevant conflicts of interest to declare.
Abstract
Intracranial germ cell tumors (iGCTs) are the second most common central nervous system tumors in patients under 14 in Japan. The majority of germinomas respond well to combined chemo- and ...radiotherapy, however non-germinoma germ cell tumors (NGGCTs) may show resistance to therapy and have a poor clinical outcome. Despite their clinical significance, the biology of iGCTs is mostly unknown. The aim of this study is to elucidate the molecular pathogenesis of iGCTs through a comprehensive genomic analysis. A total of 198 germ cell tumors (GCTs) including 133 iGCTs (69 pure germinomas, 56 NGGCTs and 8 metastatic tumors) as well as 65 testicular germ cell tumors (tGCTs) (39 seminomas and 26 non-seminoma GCTs) were collected from 13 centers participating in the Intracranial Germ Cell Tumor Consortium in Japan. Matched normal DNA was available for 70 iGCTs and 4 tGCTs. Somatic mutations in all coding exons were investigated by whole exome sequencing (WES) using SureSelectXT Human All Exon v4 and a GAIIx or HiSeq 2000 system in 41 tumors and the matched normal DNAs. Targeted sequencing with a set of custom made PCR primers was performed using either an IonTorrent PGM or Proton System. The results were integrated with the patients' clinical information that was available for 124 iGCT patients. Mutations in selected candidate genes were further evaluated in an independent tumor cohort using the IonTorrent PGM system. On average, 15.4 non-synonymous somatic mutations were observed in each tumor, ranging from 1 to 140 by WES in 41 iGCTs. Based on the WES data, 41 candidate genes were selected according to the frequency and/or significance of the mutations found. All coding exons of these 41 genes spanning over 160kb were PCR-amplified in a further 157 GCTs using the IonTorrent system. The combined WES and IonTorrent screenings showed that KIT was the most frequently mutated gene in both iGCTs (27%) and tGCTs (18%). MTOR was the second most frequently mutated also in both iGCTs (7%) and tGCTs (6%). RAS mutations (KRAS, HRAS, NRAS) were altogether found in 13% of iGCTs and 12% of tGCTs. These mutations were mutually exclusive to each other and also to KIT mutations. Collectively, the genes involved in the MAPK pathway (e.g., KIT, RAS, NF1) and the PI3K/MTOR pathway (e.g., MTOR, PTEN) were mutated in 44% and 13% of all GCTs. These alterations were significantly more common among pure germinomas than NGGCTs. The mutated MTOR protein was shown to have increased kinase activity, which was suppressed by a specific MTOR inhibitor. Our comprehensive mutational genomic analysis of GCTs revealed that alterations of the MAPK and/or PI3K/MTOR pathways play a critical role in the pathogenesis of both iGCTs and tGCTs, although the extent of their involvement depends on the histopathological subtypes. Our findings will hopefully lead to the development of a targeted therapy for treatment-resistant iGCTs.
Citation Format: Koichi Ichimura, Shintaro Fukushima, Yasushi Totoki, Yuko Matsushita, Ayaka Otsuka, Arata Tomiyama, Tohru Niwa, Ryuichi Sakai, Toshikazu Ushijima, Taishi Nakamura, Tomonari Suzuki, Kouhei Fukuoka, Takaaki Yanagisawa, Kazuhiko Mishima, Yoichi Nakazato, Fumie Hosoda, Yoshitaka Narita, Soichiro Shibui, Akihiko Yoshida, Hirokazu Takami, Akitake Mukasa, Koki Aihara, Nobuhito Saito, Toshihiro Kumabe, Masayuki Kanamori, Teiji Tominaga, Keiichi Kobayashi, Saki Shimizu, Motoo Nagane, Toshihiko Iuchi, Masahiro Mizoguchi, Koji Yoshimoto, Kaoru Tamura, Taketoshi Maehara, Kazuhiko Sugiyama, Mitsutoshi Nakada, Keiichi Sakai, Yonehiro Kanemura, Masahiro Nonaka, Kiyotaka Yokogami, Hideo Takeshima, Nobutaka Kawahara, Tatsuya Takayama, Masahiro Yao, Hiromi Nakamura, Natsuko Hama, Masao Matsutani, Tatsuhiro Shibata, Ryo Nishikawa. Whole exome and targeted sequencing identified the MAPK and PI3K pathways as the main targets in intracranial and testicular germ cell tumors. abstract. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 4264. doi:10.1158/1538-7445.AM2014-4264