结直肠癌中错配修复蛋白缺陷与NTRK基因融合的相关性分析

目的探讨结直肠癌中错配修复蛋白缺陷(dMMR)与NTRK基因融合的相关性。方法收集南京大学医学院附属鼓楼医院病理科2015—2019年诊断为结直肠癌的组织蜡块830例, 分别运用免疫组织化学和荧光原位杂交(FISH)检测830例甲醛固定石蜡包埋(FFPE)肿瘤组织中错配修复蛋白表达情况以及NTRK1/2/3基因断裂情况。比较dMMR型和错配修复蛋白无缺陷(pMMR)结直肠癌中NTRK1/2/3基因融合的发生率, 进一步运用FFPE样本进行RNA Seq二代测序检测, 分析融合伴侣和融合方式。结果 830例原发性结直肠癌FFPE样本均成功进行免疫组织化学和FISH检测。dMMR病例82例(9.88%), pMMR病例748例(90.12%)。其中MLH1蛋白缺失比例为9.04%(75/830), PMS2蛋白缺失比例为9.04%(75/830), MSH2蛋白缺失比例为2.53%(21/830), MSH6蛋白缺失比例为4.10%(34/830), MLH1和PMS2共缺失比例为8.67%(72/830), MSH2和MSH6共缺失比例为2.17%(18/830)。伴有dMMR肿瘤与pM...     

NTRK3 kinase fusions in Spitz tumours

Oncogenic fusions in TRK family receptor tyrosine kinases have been identified in several cancers and can serve as therapeutic targets. We identified ETV6–NTRK3, MYO5A–NTRK3 and MYH9–NTRK3 fusions in Spitz tumours, and demonstrated that NTRK3 fusions constitutively activate the mitogen‐activated protein kinase, phosphoinositide 3‐kinase and phospholipase Cγ1 pathways in melanocytes. This signalling was inhibited by DS‐6051a, a small‐molecule inhibitor of NTRK1/2/3 and ROS1. NTRK3 fusions expand the range of oncogenic kinase fusions in melanocytic neoplasms and offer targets for a small subset of melanomas for which no targeted options currently exist. Copyright © 2016 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.     

Targeted next generation sequencing of MLH1‐deficient,MLH1 promoter hypermethylated,and BRAF/RAS‐wild‐type colorectal adenocarcinomas is effective in detecting tumors with actionable oncogenic gene fusions

Oncogenic gene fusions represent attractive targets for therapy of cancer. However, the frequency of actionable genomic rearrangements in colorectal cancer (CRC) is very low, and universal screening for these alterations seems to be impractical and costly. To address this problem, several large scale studies retrospectivelly showed that CRC with gene fusions are highly enriched in groups of tumors defined by MLH1 DNA mismatch repair protein deficiency (MLH1d), and hypermethylation of MLH1 promoter (MLH1ph), and/or the presence of microsatellite instability, and BRAF/KRAS wild‐type status (BRAFwt/KRASwt). In this study, we used targeted next generation sequencing (NGS) to explore the occurence of potentially therapeutically targetable gene fusions in an unselected series of BRAFwt/KRASwt CRC cases that displayed MLH1d/MLH1ph. From the initially identified group of 173 MLH1d CRC cases, 141 cases (81.5%) displayed MLH1ph. BRAFwt/RASwt genotype was confirmed in 23 of 141 (~16%) of MLH1d/MLH1ph cases. Targeted NGS of these 23 cases identified oncogenic gene fusions in nine patients (39.1%; CI95: 20.5%‐61.2%). Detected fusions involved NTRK (four cases), ALK (two cases), and BRAF genes (three cases). As a secondary outcome of NGS testing, we identified PIK3K‐AKT‐mTOR pathway alterations in two CRC cases, which displayed PIK3CA mutation. Altogether, 11 of 23 (~48%) MLH1d/MLH1ph/BRAFwt/RASwt tumors showed genetic alterations that could induce resistance to anti‐EGFR therapy. Our study confirms that targeted NGS of MLH1d/MLH1ph and BRAFwt/RASwt CRCs could be a cost‐effective strategy in detecting patients with potentially druggable oncogenic kinase fusions.     

Soft tissue tumors characterized by a wide spectrum of kinase fusions share a lipofibromatosis‐like neural tumor pattern

Gene fusions resulting in oncogenic activation of various receptor tyrosine kinases, including NTRK1‐3, ALK, and RET, have been increasingly recognized in soft tissue tumors (STTs), displaying a wide morphologic spectrum and therefore diagnostically challenging. A subset of STT with NTRK1 rearrangements were recently defined as lipofibromatosis‐like neural tumors (LPFNTs), being characterized by mildly atypical spindle cells with a highly infiltrative growth in the subcutis and expression of S100 and CD34 immunostains. Other emerging morphologic phenotypes associated with kinase fusions include infantile/adult fibrosarcoma and malignant peripheral nerve sheath tumor‐like patterns. In this study, a large cohort of 73 STT positive for various kinase fusions, including 44 previously published cases, was investigated for the presence of an LPFNT phenotype, to better define the incidence of this distinctive morphologic pattern and its relationship with various gene fusions. Surprisingly, half (36/73) of STT with kinase fusions showed at least a focal LPFNT component defined as >10%. Most of the tumors occurred in the subcutaneous tissues of the extremities (n = 25) and trunk (n = 9) of children or young adults (<30 years old) of both genders. Two‐thirds (24/36) of these cases showed hybrid morphologies with alternating LPFNT and solid areas of monomorphic spindle to ovoid tumor cells with fascicular or haphazard arrangement, while one‐third (12/36) had pure LPFNT morphology. Other common histologic findings included lymphocytic infiltrates, staghorn‐like vessels, and perivascular or stromal hyalinization, especially in hybrid cases. Mitotic activity was generally low (<4/10 high power fields in 81% cases), being increased only in a minority of cases. Immunoreactivity for CD34 (92% in hybrid cases, 89% in pure cases) and S100 (89% in hybrid cases, 64% in pure cases) were commonly present. The gene rearrangements most commonly involved NTRK1 (75%), followed by RET (8%) and less commonly NTRK2, NTRK3, ROS1, ALK, and MET.     

Paediatric and adult soft tissue sarcomas with NTRK1 gene fusions: a subset of spindle cell sarcomas unified by a prominent myopericytic/haemangiopericytic pattern

Neoplasms with a myopericytomatous pattern represent a morphological spectrum of lesions encompassing myopericytoma of the skin and soft tissue, angioleiomyoma, myofibromatosis/infantile haemangiopericytoma and putative neoplasms reported as malignant myopericytoma. Lack of reproducible phenotypic and genetic features of malignant myopericytic neoplasms have prevented the establishment of myopericytic sarcoma as an acceptable diagnostic category. Following detection of a LMNA–NTRK1 gene fusion in an index case of paediatric haemangiopericytoma‐like sarcoma by combined whole‐genome and RNA sequencing, we identified three additional sarcomas harbouring NTRK1 gene fusions, termed 'spindle cell sarcoma, NOS with myo/haemangiopericytic growth pattern'. The patients were two children aged 11 months and 2 years and two adults aged 51 and 80 years. While the tumours of the adults were strikingly myopericytoma‐like, but with clear‐cut atypical features, the paediatric cases were more akin to infantile myofibromatosis/haemangiopericytoma. All cases contained numerous thick‐walled dysplastic‐like vessels with segmental or diffuse nodular myxohyaline myo‐intimal proliferations of smooth muscle actin‐positive cells, occasionally associated with thrombosis. Immunohistochemistry showed variable expression of smooth muscle actin and CD34, but other mesenchymal markers, including STAT6, were negative. This study showed a novel variant of myo/haemangiopericytic sarcoma with recurrent NTRK1 gene fusions. Given the recent introduction of a novel therapeutic approach targeting NTRK fusion‐positive neoplasms, recognition of this rare but likely under‐reported sarcoma variant is strongly encouraged. Copyright © 2016 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.     

Biochemical characterization of MLH3 missense mutations does not reveal an apparent role of MLH3 in Lynch syndrome

So far 18 MLH3 germline mutations/variants have been identified in familial colorectal cancer cases. Sixteen of these variants are amino acid substitutions of which the pathogenic nature is still unclear. These substitutions are known as unclassified variants or UVs. To clarify a possible role for eight of these MLH3 UVs identified in suspected Lynch syndrome patients, we performed several biochemical tests. We determined the protein expression and stability, protein localization and interaction of the mutant MLH3 proteins with wildtype MLH1. All eight MLH3 UVs gave protein expression levels comparable with wildtype MLH3. Furthermore, the UV‐containing proteins, in contrast to previous studies, were all localized normally in the nucleus and they interacted normally with wildtype MLH1. Our different biochemical assays yielded no evidence that the eight MLH3 UVs tested are the cause of hereditary colorectal cancer, including Lynch syndrome. © 2009 Wiley‐Liss, Inc.     

NTRK testing: First results of the QuiP‐EQA scheme and a comprehensive map of NTRK fusion variants and their diagnostic coverage by targeted RNA‐based NGS assays

Gene fusions involving the three neurotrophic tyrosine receptor kinase genes NTRK1, NTRK2, or NTRK3 were identified as oncogenic drivers in many cancer types. Two small molecule inhibitors have been tested in clinical trials recently and require the detection of a NTRK fusion gene prior to therapeutic application. Fluorescence in situ hybridization (FISH) and targeted next‐generation sequencing (tNGS) assays are commonly used for diagnostic profiling of gene fusions. In the presented study we applied an external quality assessment (EQA) scheme in order to investigate the suitability of FISH and RNA‐/DNA‐based tNGS for detection of NTRK fusions in a multinational and multicentric ring trial. In total 27 participants registered for this study. Nine institutions took part in the FISH‐based and 18 in the NGS‐based round robin test, the latter additionally subdivided into low‐input and high‐input NGS methods (regarding nucleic acid input). Regardless of the testing method applied, all participants received tumor sections of 10 formalin‐fixed and paraffin‐embedded (FFPE) tissue blocks for in situ hybridization or RNA/DNA extraction, and the results were submitted via an online questionnaire. For FISH testing, eight of nine (88.8%) participants, and for NGS‐based testing 15 of 18 (83.3%) participants accomplished the round robin test successfully. The overall high success rate demonstrates that FISH‐ and tNGS‐based NTRK testing can be well established in a routine diagnostic setting. Complementing this dataset, we provide an updated in silico analysis on the coverage of more than 150 NTRK fusion variants by several commercially available RNA‐based tNGS panels.     

Emerging soft tissue tumors with kinase fusions: An overview of the recent literature with an emphasis on diagnostic criteria

A recent breakthrough in the classification of soft tissue tumors (STT) has been a significant expansion in the number of neoplasms associated with NTRK and other kinase related fusions. This is important not only for diagnostic purposes, but also because it opens new avenues for targeted therapy. Indeed, recent clincal trials have shown significant benefit across multiple tumor‐types, prompting approval of NTRK inhibitors for clinical use in the setting of advanced/metastatic NTRK‐rearranged neoplasms. Despite these therapeutic oportunities, diagnostic challenges have transpired in recognizing these emerging new histologic subtypes of kinase fusions positive‐STT prospectively. This, in part, is attributable to their wide morphologic spectrum, variable risk of malignancy, and non‐specific immunoprofile. As such, recommendations for pathologic criteria and immunohistochemical testing are needed to improve classification and streamline the small subset of potential candidates for further molecular validation. This overview summarizes the key histologic features of various STT associated with NTRK and other kinase fusions, which appear to share a similar morphologic spectrum. Immunohistochemically, many of these tumors, regardless of the kinase fusion type, notably show co‐expression of S100 and CD34; issues related to the utility of pan‐NTRK and NTRK1 immunostaining are therefore summarized. Finally, I discuss the role of confirmatory molecular testing and how, in some instances, this may also be of prognostic value. This review is intended as a critical summary of the current literature to emphasize pathologic criteria for improving recognition of this emerging and complex group of kinase fusion associated STT.     

BRAF mutation in sporadic colorectal cancer and Lynch syndrome

The aim of the study was to detect mutations of BRAF oncogene in colorectal cancer and to use this information to identify Lynch syndrome patients. Consecutive cases of primary colorectal cancer (n?=?137) were analyzed for MLH1 protein expression using immunohistochemistry (IHC). BRAF V600E mutation was detected by IHC using a specific monoclonal antibody (VE1) and by qPCR. All MLH1 protein-negative cases were subjected to microsatellite instability analysis and MLH1 promoter methylation assay. MLH1 protein expression deficiency and high microsatellite instability (MSI-H) were detected in 18 of the 137 (13.1 %) consecutive colorectal cancer specimens. Detection of the BRAF V600E mutation by IHC was 100 % sensitive and specific as compared to qPCR, and this mutation was frequently present in the MSI-H group (77.8 %; 14/18) and less frequently in the microsatellite-stable group (7.6 %; 9/118). All BRAF V600E mutated cases of the MSI-H group presented with a MLH1 promoter methylation (14/14) as detected by methylation-specific multiplex ligation-dependent probe amplification. When BRAF was wild type in the MSI-H group, only one MLH1 promoter methylation was detected (1/4), and of the remaining three cases without MLH1 methylation, two were identified to harbor an MLH1 mutation consistent with Lynch syndrome. Finally, 11 previously confirmed Lynch syndrome cases were analyzed for BRAF V600E mutation, and all of them were wild type. In conclusion, detection of BRAF V600E in colorectal cancer specimens by IHC is sensitive and specific and may help to identify Lynch syndrome patients.     

Protein expression profiles of deoxyribonucleic acid mismatch repair genes: Association with clinicopathological characteristics of Malaysian Lynch syndrome patients

Lynch syndrome, also known as hereditary nonpolyposis colorectal cancer, accounts for approximately 1–5% of all colorectal cancers. Germline mutations in a group of deoxyribonucleic acid (DNA) mismatch repair (MMR) genes (MLH1, MSH2, MSH6, PMS1, and PMS2) are responsible for Lynch syndrome cases. This study focuses on the determination of MMR (MLH1, MSH2, MSH6, and PMS2) protein expression profile by immunohistochemical analysis and its association with clinicopathological characteristics in clinically diagnosed Malaysian Lynch syndrome patients. Fifty patients who fulfilled any of the revised Bethesda Guidelines criteria were recruited from four collaborating centers in Malaysia. Clinicopathological information of clinically diagnosed Lynch syndrome cases that underwent bowel resection was reviewed. Immunohistochemical analysis for MLH1, MSH2, MSH6, and PMS2 proteins were performed on paraffin-embedded carcinomatous tissues. Colorectal cancer protein expression analysis for MLH1, MSH2, MSH6, and PMS2 antigens showed absence of expression of any MMR proteins in 18 out of 50 clinically diagnosed Lynch syndrome patients (36.0%). There was a significant association between abnormal MMR protein expression with tumor size (p = 0.012), histological differentiation of cancers (p = 0.012), and growth pattern of tumor (p = 0.01). Abnormal expression of MMR protein in colorectal cancers in clinically diagnosed Lynch syndrome patients was associated with specific clinicopathological characteristics such as tumor size, histological differentiation of cancers, and growth pattern of tumor. Immunohistochemical analysis proved to be an advantageous pre-screening tool for Lynch syndrome in Malaysian patients and highly predictive of a germline mutation in DNA MMR genes.     

MSH2 and MLH1 mutations in sporadic replication error-positive colorectal carcinoma as assessed by two-dimensional DNA electrophoresis

Replication errors (RER) are frequently seen in both sporadic and hereditary forms of colorectal cancer. In hereditary nonpolyposis colorectal cancer (HNPCC), RER is associated with defects in DNA mismatch repair genes. Two of these genes, MSH2 and MLH1, account for a major share of this cancer syndrome. In order to assess the role of these genes in sporadic RER+ colorectal carcinoma, we have carried out a mutation analysis of MSH2 and MLH1 by two-dimensional (2-D) DNA electrophoresis, including heteroduplexing and separation in a denaturing gradient. All exons were amplified using multiplex PCR and were separated on the basis of both size and base pair composition under a single set of experimental conditions. Exons showing a spot position different from normal were sequenced. In screening 33 unselected, sporadic RER+ colorectal tumors, a germline mutation accompanied by loss of heterozygosity in tumor tissue was found in two patients. They were among the 4 patients out of the 33 screened that were diagnosed before the age of 50 years. In 8 of the remaining 31 tumors (26%), presence of somatic mutations (9 in total) could be demonstrated. While suggesting involvement of other genes in a substantial part of sporadic RER+ colorectal carcinomas, our results also demonstrate a clear role of MSH2 and MLH1 in these sporadic tumors and show that young sporadic RER+ colorectal carcinoma patients have a high probability of germline mutations. This has important implications for genetic testing and management of young colorectal cancer patients and their families. Genes Chromosom. Cancer 18:269–278, 1997. © 1997 Wiley-Liss, Inc.     

Screening for common copy-number variants in cancer genes

For most cases of colorectal cancer that arise without a family history of the disease, it is proposed that an appreciable heritable component of predisposition is the result of contributions from many loci. Although progress has been made in identifying single nucleotide variants associated with colorectal cancer risk, the involvement of low-penetrance copy number variants is relatively unexplored. We have used multiplex amplifiable probe hybridization (MAPH) in a fourfold multiplex (QuadMAPH), positioned at an average resolution of one probe per 2 kb, to screen a total of 1.56 Mb of genomic DNA for copy number variants around the genes APC, AXIN1, BRCA1, BRCA2, CTNNB1, HRAS, MLH1, MSH2, and TP53. Two deletion events were detected, one upstream of MLH1 in a control individual and the other in APC in a colorectal cancer patient, but these do not seem to correspond to copy number polymorphisms with measurably high population frequencies. In summary, by means of our QuadMAPH assay, copy number measurement data were of sufficient resolution and accuracy to detect any copy number variants with high probability. However, this study has demonstrated a very low incidence of deletion and duplication variants within intronic and flanking regions of these nine genes, in both control individuals and colorectal cancer patients.     

Novel MLH1 duplication identified in Colombian families with Lynch syndrome

PurposeLynch syndrome accounts for 2–4% of all colorectal cancer, and is mainly caused by germline mutations in the DNA mismatch repair genes. Our aim was to characterize the genetic mutation responsible for Lynch syndrome in an extensive Colombian family and to study its prevalence in Antioquia.MethodsA Lynch syndrome family fulfilling Amsterdam criteria II was studied by immunohistochemistry and by multiplex ligation-dependent probe amplification (MLPA). Results were confirmed by additional independent MLPA, Southern blotting, and sequencing.ResultsIndex case tumor immunohistochemistry results were MLH1−, MSH2+, MSH6+, and PMS2−. MLPA analysis detected a duplication of exons 12 and 13 of MLH1. This mutation was confirmed and characterized precisely to span 4219 base pairs. Duplication screening in this family led to the identification of six additional carriers and 13 noncarriers. We also screened 123 early-onset independent colorectal cancer cases from the same area and identified an additional unrelated carrier.ConclusionA novel duplication of exons 12 and 13 of the MLH1 gene was detected in two independent Lynch syndrome families from Colombia. A putative founder effect and prescreening Lynch syndrome Antioquia families for this specific mutation before thorough mismatch repair mutational screening could be suggested. Genet Med 2011:13(2):155–160.     

Immunohistochemistry staining for the mismatch repair proteins in the clinical care of patients with colorectal cancer

PurposeThe Ohio State University was one of the first medical centers to begin routinely performing immunohistochemical staining for the four mismatch repair proteins (MLH1, MSH2, MSH6, and PMS2) on all newly diagnosed patients with colorectal cancer. The results of implementing this testing on a clinical basis are critically assessed.MethodsFrom March 1, 2006, to March 31, 2008, 270 newly diagnosed colorectal cancer tumors received immunohistochemical staining for MLH1, MSH2, MSH6, and PMS2. If any stain was absent, the cancer genetic counselors were alerted, so that they could contact the patient. A follow-up genetic consultation was recommended for all patients with any stain absent other than MLH1 and to patients with absence of MLH1 ± PMS2 who were diagnosed younger than 60 years had a multiple Lynch syndrome-associated cancers or had a first-degree relative with colorectal cancer or endometrial cancer. Those attending the genetic consultation were offered appropriate follow-up testing.ResultsThere were 57 (21.1%) cases with abnormal immunohistochemical results. Genetics was able to contact 54 (94.7%) of these patients. It was determined that 34 (62.9%) of these 54 patients should be referred for a cancer genetics consultation, however, only nine (26.5%) made an appointment. Seven of the nine underwent additional testing, which was informative in five of the patients. Two (0.7%) new cases of Lynch syndrome were diagnosed and three patients were found to have proven/probable MLH1 promoter methylation.ConclusionsRoutine immunohistochemical of the mismatch repair proteins on all newly diagnosed patients with colorectal cancer can be implemented clinically, however, patient uptake of follow-up genetic consultation is lower than expected.