Christopher Lau

Subtype-specific genomic alterations define new targets for soft tissue sarcoma therapy

Soft-tissue sarcomas, which result in approximately 10,700 diagnoses and 3,800 deaths per year in the United States, show remarkable histologic diversity, with more than 50 recognized subtypes. However, knowledge of their genomic alterations is limited. We describe an integrative analysis of DNA sequence, copy number and mRNA expression in 207 samples encompassing seven major subtypes. Frequently mutated genes included TP53 (17% of pleomorphic liposarcomas), NF1 (10.5% of myxofibrosarcomas and 8% of pleomorphic liposarcomas) and PIK3CA (18% of myxoid/round-cell liposarcomas, or MRCs). PIK3CA mutations in MRCs were associated with Akt activation and poor clinical outcomes. In myxofibrosarcomas and pleomorphic liposarcomas, we found both point mutations and genomic deletions affecting the tumor suppressor NF1. Finally, we found that short hairpin RNA (shRNA)-based knockdown of several genes amplified in dedifferentiated liposarcoma, including CDK4 and YEATS4, decreased cell proliferation. Our study yields a detailed map of molecular alterations across diverse sarcoma subtypes and suggests potential subtype-specific targets for therapy.

Coexistence of PIK3CA and Other Oncogene Mutations in Lung Adenocarcinoma–Rationale for Comprehensive Mutation Profiling

Phosphoinositide-3-kinase catalytic alpha polypeptide (PIK3CA) encodes the p110α subunit of the mitogenic signaling protein phosphoinositide 3-kinase (PI3K). PIK3CA mutations in the helical binding domain and the catalytic subunit of the protein have been associated with tumorigenesis and treatment resistance in various malignancies. Characteristics of patients with PIK3CA-mutant lung adenocarcinomas have not been reported. We examined epidermal growth factor receptor (EGFR), Kirsten rate sarcoma viral oncogene homolog (KRAS), v-Raf murine sarcoma viral oncogene homolog B1 (BRAF), human epidermal growth factor receptor 2 (HER2), PIK3CA, v-akt murine thymoma vial oncogene homolog 1 (AKT1), v-ras neuroblastoma viral oncogene homolog (NRAS), dual specificity mitogen-activated protein kinase kinase 1 (MEK1), and anaplastic lymphoma kinase (ALK) in patients with adenocarcinoma of the lung to identify driver mutations. Clinical data were obtained from the medical records of individuals with mutations in PIK3CA. Twenty-three of 1,125 (2%, 95% CI: 1–3) patients had a mutation in PIK3CA, 12 in exon 9 (10 E545K and 2 E542K), and 11 in exon 20 (3 H1047L and 8 H1047R). The patients (57% women) had a median age of 66 at diagnosis (range: 34–78). Eight patients (35%) were never smokers. Sixteen of 23 (70%, 95% CI: 49–86) had coexisting mutations in other oncogenes—10 KRAS, 1 MEK1, 1 BRAF, 1 ALK rearrangement, and 3 EGFR exon 19 deletions. We conclude that PIK3CA mutations occur in lung adenocarcinomas, usually concurrently with EGFR, KRAS, and ALK. The impact of PIK3CA mutations on the efficacy of targeted therapies such as erlotinib and crizotinib is unknown. Given the high frequency of overlapping mutations, comprehensive genotyping should be carried out on tumor specimens from patients enrolling in clinical trials of PI3K and other targeted therapies. Mol Cancer Ther; 11(2); 485–91. ©2011 AACR.

Comprehensive histologic assessment helps to differentiate multiple lung primary nonsmall cell carcinomas from metastases.

The pathologic classification of nonsmall cell lung cancer (NSCLC) is evolving. Lung adenocarcinoma is morphologically heterogeneous, with mixtures of acinar, papillary, bronchioloalveolar, and solid patterns in more than 80% of cases. In case of synchronous or metachronous multiple NSCLC, the distinction of intrapulmonary metastases from independent primary tumors is of great clinical importance as it influences staging and potentially the therapeutic strategy. Here we took advantage of a cohort of 20 patients with 42 multiple NSCLC tumors (24 potential pair comparisons) that were annotated molecularly using genomic and mutational profiling to evaluate the value of comprehensive histologic assessment in this setting. Using the Martini-Melamed criteria, paired tumors were characterized as multiple primary NSCLCs in 21 cases and as intrapulmonary metastases in 3 cases. Genomic and mutational data led to a diagnosis of multiple primaries in 14 cases and of metastases in 8 cases; 2 cases could not be assessed. This molecular characterization contradicted the Martini-Melamed diagnosis in 7 (32%) of the 22 assessable comparisons. Adenocarcinoma was found in 32 (76%) of the 42 tumors. After review in a blinded fashion, semiquantitative comprehensive histologic assessment of paired tumors was different in 16 and similar in 8 paired tumors. We found that comparing adenocarcinomas is a complex issue that requires assessment not only of percentages of the histologic subtypes, but also the recording of additional histologic details such as cytologic features, patterns of stroma, necrosis, discrete nodularity versus miliary growth and variants such as clear cell, signet ring, mucinous, and fetal patterns. We also found that paired squamous cell carcinomas could be compared based on histologic subtyping in addition to cytologic and stromal characteristics. Considering histologically different tumors as multiple primaries, and similar tumors as metastases, comprehensive histologic subtyping was consistent with the molecular characterization in 20 (91%) of the 22 pairs comparisons. In summary, based on a well characterized cohort with detailed clinical, pathologic and molecular data, we found comprehensive histologic assessment is a powerful tool that seems to be a promising way to determine whether multiple lung adenocarcinomas or squamous cell carcinomas are metastatic or multiple primaries. This has great clinical implications for staging and therapeutic management of lung cancer patients with multiple tumors. Given its high correlation with molecular characterization of such tumors, it may provide a much cheaper and faster method to address this problem.

EGFR Exon 20 Insertion Mutations in Lung Adenocarcinomas: Prevalence, Molecular Heterogeneity, and Clinicopathologic Characteristics

In contrast to other primary epidermal growth factor receptor (EGFR) mutations in lung adenocarcinomas, insertions in exon 20 of EGFR have been generally associated with resistance to EGFR-tyrosine kinase inhibitors. Their molecular spectrum, clinicopathologic characteristics, and prevalence are not well established. Tumors harboring EGFR exon 20 insertions were identified through an algorithmic screen of 1,500 lung adenocarcinomas. Cases were first tested for common mutations in EGFR (exons 19 and 21) and KRAS (exon 2) and, if negative, further analyzed for EGFR exon 20 insertions. All samples underwent extended genotyping for other driver mutations in EGFR, KRAS, BRAF, ERBB2/HER2, NRAS, PIK3CA, MEK1, and AKT by mass spectrometry; a subset was evaluated for ALK rearrangements. We identified 33 EGFR exon 20 insertion cases [2.2%, 95% confidence interval (CI), 1.6–3.1], all mutually exclusive with mutations in the other genes tested (except PIK3CA). They were more common among never-smokers (P < 0.0001). There was no association with age, sex, race, or stage. Morphologically, tumors were similar to those with common EGFR mutations but with frequent solid histology. Insertions were highly variable in position and size, ranging from 3 to 12 bp, resulting in 13 different insertions, which, by molecular modeling, are predicted to have potentially different effects on erlotinib binding. EGFR exon 20 insertion testing identifies a distinct subset of lung adenocarcinomas, accounting for at least 9% of all EGFR-mutated cases, representing the third most common type of EGFR mutation after exon 19 deletions and L858R. Insertions are structurally heterogeneous with potential implications for response to EGFR inhibitors. Mol Cancer Ther; 12(2); 220–9. ©2012 AACR.

Oncogene Mutation Profiling of Pediatric Solid Tumors Reveals Significant Subsets of Embryonal Rhabdomyosarcoma and Neuroblastoma with Mutated Genes in Growth Signaling Pathways

Purpose: In contrast to the numerous broad screens for oncogene mutations in adult cancers, few such screens have been conducted in pediatric solid tumors. To identify novel mutations and potential therapeutic targets in pediatric cancers, we conducted a high-throughput Sequenom-based analysis in large sets of several major pediatric solid cancers, including neuroblastoma, Ewing sarcoma, rhabdomyosarcoma (RMS), and desmoplastic small round cell tumor (DSRCT). Experimental Design: We designed a highly multiplexed Sequenom-based assay to interrogate 275 recurrent mutations across 29 genes. Genomic DNA was extracted from 192 neuroblastoma, 75 Ewing sarcoma, 89 RMS, and 24 DSRCT samples. All mutations were verified by Sanger sequencing. Results: Mutations were identified in 13% of neuroblastoma samples, 4% of Ewing sarcoma samples, 21.1% of RMS samples, and no DSRCT samples. ALK mutations were present in 10.4% of neuroblastoma samples. The remainder of neuroblastoma mutations involved the BRAF, RAS, and MAP2K1 genes and were absent in samples harboring ALK mutations. Mutations were more common in embryonal RMS (ERMS) samples (28.3%) than alveolar RMS (3.5%). In addition to previously identified RAS and FGFR4 mutations, we report for the first time PIK3CA and CTNNB1 (β-catenin) mutations in 5% and 3.3% of ERMS, respectively. Conclusions: In ERMS, Ewing sarcoma, and neuroblastoma, we identified novel occurrences of several oncogene mutations recognized as drivers in other cancers. Overall, neuroblastoma and ERMS contain significant subsets of cases with nonoverlapping mutated genes in growth signaling pathways. Tumor profiling can identify a subset of pediatric solid tumor patients as candidates for kinase inhibitors or RAS-targeted therapies. Clin Cancer Res; 18(3); 748–57. ©2011 AACR.

Detection of KRAS and BRAF Mutations in Colorectal Carcinoma: Roles for High-Sensitivity Locked Nucleic Acid-PCR Sequencing and Broad-Spectrum Mass Spectrometry Genotyping

KRAS and BRAF mutations predict the resistance of colorectal carcinomas to therapy targeted to the epidermal growth factor receptor, but their detection can be challenging because of high testing volume, frequently low tumor content, and the spectrum of rarer mutations in these genes. To address these issues, we evaluated a locked nucleic acid (LNA)-PCR sequencing assay to detect low levels of mutant DNA, and we also evaluated a mass spectrometry genotyping assay (Sequenom, San Diego, CA) that is suitable for broad mutation screening. Clinical cases (n = 308) previously tested for KRAS and BRAF by standard sequencing were retested by LNA-PCR sequencing incorporating an LNA oligonucleotide to suppress amplification of nonmutant DNA, and by a Sequenom assay panel targeting common mutations in both genes. Standard sequencing detected 121 KRAS (39%) and 10 BRAF mutations; retesting with the LNA-based method and the Sequenom assay detected 19 (140/308, 45%) and 6 (127/308, 41%) additional KRAS mutants, respectively. One additional BRAF mutant was detected by the Sequenom assay. The analytical sensitivities were 0.3% for both KRAS and BRAF by LNA-PCR and from 1% to 10% for the Sequenom assays, depending on the specific mutation. Given these results, standard sequencing is suboptimal for mutation detection in metastatic and treated lesions even with predissection for tumor enrichment. High-sensitivity LNA-PCR sequencing detects significantly more mutations, whereas the Sequenom platform shows intermediate sensitivity but offers significant advantages for broader mutation screening.

Comprehensive Genomic Analysis Reveals Clinically Relevant Molecular Distinctions between Thymic Carcinomas and Thymomas

Purpose: Thymomas and thymic carcinomas are rare intrathoracic malignancies that can be invasive and refractory to conventional treatment. Because these tumors both originate from the thymus, they are often grouped together clinically. However, whether the underlying biology of these tumors warrants such clustering is unclear, and the optimum treatment of either entity is unknown. Experimental Design: All thymic tumors were profiled for mutations in genes encoding components of the EGFR and KIT signaling pathways, assessed for EGFR and KIT expression by immunohistochemistry, and analyzed by array-based comparative genomic hybridization. Previously untreated tumors were subjected to global gene expression arrays. Results: We analyzed 45 thymic tumors [thymoma, n = 38 (type A, n = 8; type B2, n = 22; type B3, n = 8); thymic carcinoma, n = 7]. One thymoma and one thymic carcinoma harbored KRAS mutations (G12A and G12V, respectively), and one thymoma had a G13V HRAS mutation. Three tumors displayed strong KIT staining. Two thymic carcinomas harbored somatic KIT mutations (V560del and H697Y). In cell viability assays, the V560del mutant was associated with similar sensitivities to imatinib and sunitinib, whereas the H697Y mutant displayed greater sensitivity to sunitinib. Genomic profiling revealed distinct differences between type A to B2 thymomas versus type B3 and thymic carcinomas. Moreover, array-based comparative genomic hybridization could readily distinguish squamous cell carcinomas of the thymus versus the lung, which can often present a diagnostic challenge. Conclusions: Comprehensive genomic analysis suggests that thymic carcinomas are molecularly distinct from thymomas. These data have clinical, pathologic, and therapeutic implications for the treatment of thymic malignancies. (Clin Cancer Res 2009;15(22):67909)

Frequency of EGFR and KRAS mutations in lung adenocarcinomas in African Americans.

Introduction: The detection of mutations in the epidermal growth factor receptor (EGFR) gene, which predict sensitivity to treatment with EGFR tyrosine kinase inhibitors, represents a major advance in the treatment of lung adenocarcinoma. KRAS mutations confer resistance to EGFR-tyrosine kinase inhibitors. The prevalence of these mutations in African American patients has not been thoroughly investigated. Methods: We collected formalin-fixed, paraffin-embedded material from resected lung adenocarcinomas from African American patients at three institutions for DNA extraction. The frequencies of EGFR exon 19 deletions, exon 21 L858R substitutions, and KRAS mutations in tumor specimens from African American patients were compared with data in white patients (n = 476). Results: EGFR mutations were detected in 23 of the 121 specimens from African American patients (19%, 95% confidence interval [CI]: 13–27%), whereas KRAS mutations were found in 21 (17%, 95% CI: 12–25%). There was no significant difference between frequencies of EGFR mutations comparing African American and white patients, 19% versus 13% (61/476, 95% CI: 10–16%; p = 0.11). KRAS mutations were more likely among whites, 26% (125/476, 95% CI: 23–30%; p = 0.04). Conclusions: This is the largest study to date examining the frequency of mutations in lung adenocarcinomas in African Americans. Although KRAS mutations were somewhat less likely, there was no difference between the frequencies of EGFR mutations in African American patients, when compared with whites. These results suggest that all patients with advanced lung adenocarcinomas should undergo mutational analysis before initiation of therapy.

Genomic and Mutational Profiling to Assess Clonal Relationships Between Multiple Non–Small Cell Lung Cancers

Purpose: In cases of multiple non–small cell lung cancer, clinicians must decide whether patients have independent tumors or metastases and tailor treatment accordingly. Decisions are currently made using the Martini and Melamed criteria, which are mostly based on tumor location and histologic type. New genomic tools could improve the ability to assess tumor clonality. Experimental Design: We obtained fresh-frozen tumors specimens from patients who underwent surgery on at least two occasions for presumptively independent NSCLC. We did array comparative genomic hybridization (aCGH), mutational profiling of select genes, and detailed clinicopathologic review. Results: We analyzed a total of 42 tumors from 20 patients (6 patients with synchronous tumors, 14 patients with metachronous tumors, 24 potential tumor pair comparisons); 22 tumor pairs were evaluable by aCGH. Surprisingly, classification based on genomic profiling contradicted the clinicopathologic diagnosis in four (18%) of the comparisons, identifying independent primaries in one case diagnosed as metastasis and metastases in three cases diagnosed as independent primaries. Matching somatic point mutations were observed in these latter three cases. Another four tumor pairings were assigned an “equivocal” result based on aCGH; however, matching somatic point mutations were also found in these tumor pairs. None of the tumor pairs deemed independent primaries by aCGH harbored matching mutations. Conclusion: Genomic analysis can help distinguish clonal tumors from independent primaries. The development of rapid, inexpensive, and reliable molecular tools may allow for refinement of clinicopathologic criteria currently used in this setting. (Clin Cancer Res 2009;15(16):5184–90)

Primary lung adenocarcinomas in children and adolescents treated for pediatric malignancies.

Introduction: Primary lung adenocarcinoma is extremely rare in the pediatric age group. There have been anecdotal reports of lesions that are histologically indistinguishable from adult-type pulmonary adenocarcinoma in young patients after treatment for nonpulmonary cancers. Herein, we present clinical, histopathologic, and molecular data on eight such cases. Methods: Histopathologic evaluation of the tumors was performed according to the World Health Organization classification. Molecular studies for EGFR and KRAS mutations were performed on six patients with sufficient material. Results: All eight patients were never smokers, four males and four females. Median age at nonpulmonary cancer diagnosis was 14 years (range, 3–23 years). Pulmonary adenocarcinomas were diagnosed at a median age of 15 years (range, 10–24 years); tumors were 0.1 to 2.0 cm in size and in some cases coexisted with metastases from the original cancer. Retrospective review showed that in at least three patients, the nodules were radiographically present before chemotherapy. Of six patients whose tumors were tested for common EGFR and KRAS mutations, two were positive for the former and one for the latter. At a median follow-up of 11 months (range, 2–29 months), six patients remained well without lung nodules and two had additional small, peripheral lung nodules that have not been biopsied. Conclusions: Pulmonary lesions found in young patients with pediatric cancers can be histologically indistinguishable from lung adenocarcinoma seen in adults, may display typical adenocarcinoma-associated mutations of EGFR and KRAS, and may precede the administration of cytotoxic chemotherapy.