Targeted RNA-sequencing analysis for fusion transcripts detection in tumor diagnostics: assessment of bioinformatic tools reliability in FFPE samples.

Aim: Diagnostic laboratories are progressively introducing next-generation sequencing (NGS) technologies in the routine workflow to meet the increasing clinical need for comprehensive molecular characterization in cancer patients for diagnosis and precision medicine, including fusion-transcripts detection. Nevertheless, the low quality of messenger RNA (mRNA) extracted from formalin-fixed paraffin-embedded (FFPE) samples may affect the transition from traditional single-gene testing approaches [like fluorescence in situ hybridization (FISH), immunohistochemistry (IHC), or polymerase chain reaction (PCR)] to NGS. The present study is aimed at assessing the overall accuracy of RNA fusion transcripts detection by NGS analysis in FFPE samples in real-world diagnostics. Methods: Herein, NGS data from 190 soft tissue tumors (STTs) and carcinoma cases, discussed in the context of the institutional Molecular Tumor Board, are reported and analyzed by FusionPlex© Solid tumor kit through the manufacturer's pipeline and by two well-known fast and accurate open-source tools [Arriba (ARR) and spliced transcripts alignment to reference (STAR)-fusion (SFU)]. Results: The combination of FusionPlex© Solid tumor with ArcherDX® Analysis suite (ADx) analysis package has been proven to be sensitive and specific in STT samples, while partial loss of sensitivity has been found in carcinoma specimens. Conclusions: Albeit ARR and SFU showed lower sensitivity, the use of additional fusion-detection tools can contribute to reinforcing or extending the output obtained by ADx, particularly in the case of low-quality input data. Overall, our results sustain the clinical use of NGS for the detection of fusion transcripts in FFPE material.

A new case of myelodysplastic syndrome associated with t(3;3)(q21;q26) and inv(11)(p15q22).

INTRODUCTION: Myeloid malignancies are associated with a number of recurrent and sporadic rearrangements that may be oncogenic by ensuring growth advantage and/or increased survival. t(3;3)(q21;q26) has been recognized as a recurrent abnormality in myelodysplastic syndromes (MDS) with poor prognostic significance. Inversion of chr(11) engendering NUP98-DDX10 chimeric product is sporadic and usually associated with diseases with poor prognosis (therapy-related myeloid neoplasm). To date, these cytogenetic abnormalities have been described as isolated events. CASE DESCRIPTION: We report the first case of an 80-year-old man with high-risk MDS harboring a translocation t(3,3)(q21q26) jointly with an inv(11)(p15q22) detected by fluorescent in situ hybridization analysis and conventional cytogenetic techniques. CONCLUSION: A similar pattern of acquisition was never described before in MDS. The coexistence of two independent, high-risk oncogenic, rare events in the same clone suggests that there may be a functional constraint for synergy between the two events, leading to a proliferative advantage and suggests the utility of extended genotyping in myeloid malignancies.

A novel WT1 mutation in a 46,XY boy with congenital bilateral cryptorchidism, nystagmus and Wilms tumor.

The WT1 gene plays a crucial role in urogenital and gonadal development. Germline WT1 alterations have been described in a wide spectrum of pathological conditions, including kidney diseases, genital abnormalities and Wilms tumor (WT), frequently occurring in combination. We report on a novel WT1 nonsense mutation (c.1105C>T), introducing a premature stop codon in exon 8 (p.Q369X), in a young XY male patient who presented with bilateral cryptorchidism, nystagmus, mild proteinuria and WT, but no sign of severe nephropathy. Although the majority of congenital urogenital abnormalities are not due to constitutional defects of the WT1 gene, our findings provide a rational for considering WT1 mutational analysis as one of the screening options in newborns with congenital defects of the urogenital tract due to the associated high risk of WT.

Deciphering intra-tumor heterogeneity of lung adenocarcinoma confirms that dominant, branching, and private gene mutations occur within individual tumor nodules.

While pulmonary adenocarcinoma (ADC) is morphologically heterogeneous, little is known about intra-tumor gene mutation heterogeneity (ITH). We therefore subjected 20 ADC nodules, 5 mutated for EGFR and 5 for KRAS, 5 with an ALK translocation, and 5 wild type (WT) for these alterations, to unsupervised next-generation sequencing of tumor regions from diverse architectural patterns. When 2 or more different gene mutations were found in a single tumor, this fulfilled the criteria for ITH. In the 84 studied tumor regions with diverse architecture, 71 gene mutations and 34 WT profiles were found. ITH was observed in 9/15 (60 %) ADC, 3 with an EGFR, 3 with a KRAS, and 3 with an ALK aberration, as reflected in 5, 6, and 9 additional mutations, respectively, detected in these tumors. EGFR mutations were observed in 21/22 and KRAS mutations in 18/22 tumor regions, suggesting that they appear early and have a driver role (dominant or trunk mutations). Branching mutations (in EZH2, PIK3CA, TP53, and EGFR exon 18) occurred in two or more regions, while private mutations (in ABL1, ALK, BRAF, HER2, KDR, LKB1, PTEN, MET, SMAD4, SMARCB1, and SRC) were confined to unique tumor samples of individual lesions, suggesting that they occurred later on during tumor progression. Patients with a tumor showing branching mutations ran a worse clinical course, independent of confounding factors. We conclude that in ADC, ITH exists in a pattern suggesting spatial and temporal hierarchy with dominant, branching, and private mutations. This is consistent with diverse intra-tumor clonal evolution, which has potential implications for patient prognosis or development of secondary therapy resistance.

Doing more with less: fluorescence in situ hybridization and gene sequencing assays can be reliably performed on archival stained tumor tissue sections.

Little is known about molecular testing on tumor tissue retrieved from stained sections, for which there may be a clinical need. We retrospectively analyzed 112 sections from 56 tumor patients using either fluorescence in situ hybridization (FISH) with different probes (19 sections from 17 patients) or Sanger or targeted next generation sequencing for detection of BRAF, EGFR, KRAS, C-KIT, and TP53 mutations (93 sections from 39 patients). Tumor tissue sections had been stained by hematoxylin and eosin (H&E) (42 sections) or by immunohistochemistry for cytoplasmic or nuclear/nuclear-cytoplasmic markers (70 sections) with a peroxidase (P-IHC, with 3,3'-diaminobenzidine as chromogen) or alkaline phosphatase label (AP-IHC, with Warp Red™ as chromogen). For FISH analysis, the concordance rate between the original diagnosis and that obtained on H&E- or P-IHC-stained tissue sections (AP-IHC was not on record for this set of patients) was 95% (18 out of 19 tumor sections). Only one tumor sample, diffusely positive for MLH1, did not yield any nuclear hybridization signal. For sequencing analysis, the concordance rate was 100% on negative P-IHC and positive AP-IHC-stained sections, regardless of the subcellular localization of the reaction product. Mutations were detected in only 52% of cases expressing nuclear/nuclear-cytoplasmic markers, regardless of the sequencing technology used (p = 0.0002). In conclusion, stained sections may be a valuable resource for FISH or sequencing analysis, but on cases expressing nuclear markers sequencing results need to be interpreted cautiously.

UQCRH gene encoding mitochondrial Hinge protein is interrupted by a translocation in a soft-tissue sarcoma and epigenetically inactivated in some cancer cell lines.

We previously reported the identification of a novel zinc-finger gene, designated ZSG, fused to Ewing sarcoma gene (EWS) by a submicroscopic paracentric inversion of 22q12 in a small round cell sarcoma presenting a translocation t(1;22)(p34;q12). We report here the molecular cloning and characterization of the breakpoint in 1p34, which encompasses the gene coding for mitochondrial Hinge protein ubiquinol-cytochrome C reductase hinge gene (UQCRH). All the three breakpoints, two on 22q12 and one in 1p34, interrupt different genes: EWS, ZSG and UQCRH. We determined the genomic structure of UQCRH, characterized its splicing variants and identified a transcribed processed pseudogene. The analysis of UQCRH expression in normal tissues and cancer cell lines revealed absent expression of UQCRH in two ovarian and one breast cancer cell lines and reduced expression in a further breast carcinoma cell line. CpG island methylation upstream exon 1 was detected in all the three cell lines with absent expression. Moreover, treatment with demethylating agent 5-azacytidine restored UQCRH expression in OAW42 ovarian cancer cells. These data provide preliminary evidence of the inactivation of UQCRH gene in cancer either by structural rearrangements or epigenetic mechanisms.

Clear cell sarcoma-like tumor with osteoclast-like giant cells in the small bowel: further evidence for a new tumor entity.

Most mesenchymal neoplasms of the gastrointestinal tract belong to the category of gastrointestinal stromal tumors (GISTs) and are characterized by the immunohistochemical expression of KIT receptor. In cases without detectable KIT receptor expression several differential diagnoses have to be taken into consideration. Here, we report a case of a 41-year-old man with a tumor of the small bowel composed of large epithelioid tumor cells arranged in solid and alveolar sheets including scattered osteoclast-like multinucleated giant cells. Immunohistochemically, the tumor cells expressed strongly S-100 protein, vimentin, and to a lesser extent, bcl-2. HMB-45, melan-A, KIT receptor, desmin, smooth-muscle actin, and CD-34 were not detectable. Ki-67 index was 20%. The diagnosis was established by 2 different FISH strategies demostrating the presence of a t(12;22)(q13;q12) translocation, the diagnostic hallmark of clear cell sarcoma of soft parts. Our results provide further evidence for the existence of a new tumor entity designated gastrointestinal clear cell sarcoma with osteoclast-like giant cells. The diagnosis of this entity should be considered in the presence of S-100-positive tumors of the gastrointestinal tract containing multinucleated giant cells and can be established by FISH analysis.

Dissecting Pulmonary Large-Cell Carcinoma by Targeted Next Generation Sequencing of Several Cancer Genes Pushes Genotypic-Phenotypic Correlations to Emerge.

INTRODUCTION: Little is known about genotypic and phenotypic correlations in undifferentiated large-cell carcinoma (LCC) of the lung. METHODS: Thirty LCC were dissected by unsupervised targeted next generation sequencing analysis for 50 cancer-associated oncogenes and tumor suppressor genes. Cell differentiation lineages were unveiled by using thyroid transcription factor-1 (TTF1) for adenocarcinoma (ADC) and p40 for squamous cell carcinoma (SQC), dichotomizing immunohistochemistry (IHC) results for TTF1 as negative or positive (whatever its extent) and for p40 as negative, positive, or focal (if <10% of reactive tumor cells). RESULTS: Three LCC were wild type (all TTF1+/p40-), whereas the remaining 27 (90%) tumors had at least one gene mutation. Twenty-four cases featuring TTF1+/p40-, TTF1+/p40±, TTF1-/p40±, or TTF1-/p40- phenotypes comprised ATM, BRAF, CDKN2A, EGFR, ERBB4, FBXW7, FLT3, KRAS, NRAS, PIK3CA, PTPN11, RET, SMAD4, SMO, STK11, or TP53 mutations in keeping with ADC lineage, whereas three tumors showing TTF1-/p40+ phenotype harbored TP53 only and no ADC-related mutations in keeping with SQC lineage. Single, double, triple, quadruple, and quintuple mutations occurred in 16, 6, 2, 2, and 1 patient, respectively. The occurrence of three mutations or more but not any immunohistochemistry categorization predicted shorter overall survival (OS, p = 0.001) and disease-free survival (DFS, p = 0.007), independent of age, sex, and tumor stage. CONCLUSIONS: Albeit preliminary also because of the relatively small number of LCC under evaluation, this targeted next generation sequencing study, however, revealed gene mutation heterogeneity in LCC with some genotypic-phenotypic correlations. Negativity or focal occurrence of p40 made SQC diagnosis unlikely on molecular grounds, but suggested ADC confirming validity of the axiom "no p40, no squamous."

Peritoneal malignant mesothelioma metastatic to supraclavicular lymph nodes.

Distinguishing between malignant mesothelioma and reactive mesothelial hyperplasia is often inestimable, but may be a challenging gauntlet for pathologists. A 62-year-old man underwent appendectomy after the identification of a peritoneal mass and the histological examination showed mesothelial proliferation along the appendix surface with no clear images of infiltration. After a few months the patient developed mediastinal and supraclavicular lymphadenopathies, and a nodal biopsy showed mesothelial cell proliferation invading lymphatic sinuses, consistent with the cells seen in the abdominal cavity. Since overt morphologic criteria for malignancy were lacking and reactive mesothelial cell deposits have been documented in lymph nodes, a molecular investigation of the CDKN2A (henceforth simply p16) gene status via fluorescence in situ hybridization was performed, which showed homozygous deletion in 100% tumor cells. These data ruled out the hypothesis of reactive mesothelial cells inclusion in lymph nodes, thus confirming the diagnosis of epithelioid malignant mesothelioma.

Desmoplastic small cell tumor with bizarre giant nuclei.

A case is reported of an intra-abdominal desmoplastic small cell tumor featuring giant bizarre nuclei, an event not previously recorded in this entity to the best of the authors' knowledge. The diagnosis was confirmed by immunohistochemistry and molecular genetics. A list is provided of the many other conditions in which this morphologically spectacular but clinically inconsequential nuclear change has been recorded.

Identification of MET and SRC activation in melanoma cell lines showing primary resistance to PLX4032.

PLX4032/vemurafenib is a first-in-class small-molecule BRAF(V600E) inhibitor with clinical activity in patients with BRAF mutant melanoma. Nevertheless, drug resistance develops in treated patients, and strategies to overcome primary and acquired resistance are required. To explore the molecular mechanisms involved in primary resistance to PLX4032, we investigated its effects on cell proliferation and signaling in a panel of 27 genetically characterized patient-derived melanoma cell lines. Cell sensitivity to PLX4032 was dependent on BRAF(V600E) and independent from other gene alterations that commonly occur in melanoma such as PTEN loss, BRAF, and MITF gene amplification. Two cell lines lacking sensitivity to PLX4032 and harboring a different set of genetic alterations were studied as models of primary resistance. Treatment with the MEK inhibitor UO126 but not with PLX4032 inhibited cell growth and ERK activation. Resistance to PLX4032 was maintained after CRAF down-regulation by siRNA indicating alternative activation of MEK-ERK signaling. Genetic characterization by multiplex ligation-dependent probe amplification and analysis of phosphotyrosine signaling by MALDI-TOF mass spectrometry analysis revealed the activation of MET and SRC signaling, associated with the amplification of MET and of CTNNB1 and CCND1 genes, respectively. The combination of PLX4032 with drugs or siRNA targeting MET was effective in inhibiting cell growth and reducing cell invasion and migration in melanoma cells with MET amplification; similar effects were observed after targeting SRC in the other cell line, indicating a role for MET and SRC signaling in primary resistance to PLX4032. Our results support the development of classification of melanoma in molecular subtypes for more effective therapies.

Bilateral preaxial polydactyly in a WAGR syndrome patient.

We report on a 30-month-old baby girl with typical clinical features of WAGR syndrome. In addition, the patient showed bilateral preaxial polydactyly of the feet. Cytogenetic and fluorescent in situ hybridization (FISH) analyses identified a deletion, del(11)(p13p14.1), extending from 6.1 to 21.7 Mb in size. Although the simultaneous appearance of WAGR and polydactyly has been already described, to our knowledge this is the first case in which the characterization at the cytogenetic molecular level of a patient with these phenotypes is reported. These observations indicate that preaxial polydactyly may be another feature of the WAGR syndrome and suggest the existence of a related gene in the WAGR critical region or in its proximity.