Lucie Boerrigter

Mutational activation of the K-ras oncogene and the effect of chemotherapy in advanced adenocarcinoma of the lung: a prospective study.

PURPOSE To determine whether the clinical course and the response to chemotherapy of patients with advanced adenocarcinoma of the lung depends on the presence or absence of a ras mutation in the tumor. Mutational activation of K-ras is a strong adverse prognostic factor in stage I or II lung cancer and laboratory studies have suggested that ras mutations lead to resistance against ionizing radiation and chemotherapy. PATIENTS AND METHODS Patients with advanced adenocarcinoma of the lung with measurable or assessable disease received chemotherapy with mesna, ifosfamide, carboplatin, and etoposide (MICE). Archival biopsies, fresh biopsies, or fine-needle aspirations were tested for the presence of ras gene mutations. Associations of ras mutations with clinical characteristics, response to chemotherapy, and survival were studied. RESULTS The presence or absence of ras gene mutations could be established in 69 of 83 patients (83%). A total of 261 courses of MICE were administered to 62 informative patients, 16 of whom were shown to have a K-ras mutation-positive tumor. The frequency of mutations (26%) and the type of mutations closely matched the pattern we have previously reported in operable disease. Patients with a ras mutation in their tumor were more likely to have a close relative with lung cancer, but other clinical characteristics, such as pattern of metastases, response, and survival, were similar between the ras mutation-positive and ras mutation-negative groups. CONCLUSION Patients with advanced lung adenocarcinoma who harbor a ras mutation may have major responses to chemotherapy and have similar progression-free and overall survival as patients with ras mutation-negative tumors. K-ras mutations may represent one of several ways in which early tumors are enabled to metastasize to distant sites.

A Rapid and Simple Procedure for the Routine Detection of ras Point Mutations in Formalin-Fixed, Paraffin-Embedded Tissues

The use of the polymerase chain reaction (PCR) to detect specific DNA sequences in small amounts of tissues or cells has become a widespread tool in the field of molecular biology. With the better understanding of the clinical significance of oncogene activations in human tumors, the application of PCR in a routine setting is rapidly gaining importance. We have developed a rapid and simple procedure for the detection of mutated ras oncogenes in routinely fixed, paraffin-embedded tissue samples. DNA is isolated from three 10 μm tissue sections by incubation with a nonionic detergent and proteinase K, and can be directly used for amplification by PCR. The amplified DNA fragments are then dot-blotted onto nylon membranes and are hybridized to radioactively labeled oligodeoxynucleotides, specific for each of the mutated ras sequences. After a selective washing procedure, only fully matched oligodeoxynucleotides remain bound to the membrane, thus revealing the nature of the sequences that were present in the starting material. With this method, the detection of point mutations in ras genes can be performed in a routine setting, and the results of the analyses can be available in as few as 3–4 days.

Delineation of Chondroid Lipoma: An Immunohistochemical and Molecular Biological Analysis

Aims. Chondroid lipoma (CL) is a benign tumor that mimics a variety of soft tissue tumors and is characterized by translocation t(11;16). Here, we analyze CL and its histological mimics. Methods. CL (n = 4) was compared to a variety of histological mimics (n = 83) for morphological aspects and immunohistochemical features including cyclinD1(CCND1). Using FISH analysis, CCND1 and FUS were investigated as potential translocation partners. Results. All CLs were strongly positive for CCND1. One of 4 myoepitheliomas, CCND1, was positive. In well-differentiated lipomatous tumors and in chondrosarcomas, CCND1 was frequently expressed, but all myxoid liposarcomas were negative. FISH analysis did not give support for direct involvement of CCND1 and FUS as translocation partners. Conclusions. Chondroid lipoma is extremely rare and has several and more prevalent histological mimics. The differential diagnosis of chondroid lipomas can be unraveled using immunohistochemical and molecular support.

Multifocal Myxoid Liposarcoma—Metastasis or Second Primary Tumor?: A Molecular Biological Analysis

The classification of multifocal myxoid/round cell liposarcoma, which is defined as tumor presentation in at least two separate sites before manifestation in the lungs, as either metastasis or as a second primary tumor, has essential clinical consequences. Genetically, myxoid/round cell liposarcoma is characterized by t(12;16)(q13;p11) or t(12;22)(q13;q12), and various exon fusion transcripts are described with varying incidences, which permits their use as markers for clonality. Moreover, in solid tumors, analysis of loss of heterozygozity is valuable for clonality analysis. Therefore, fifteen multifocal myxoid/round cell liposarcoma patients with two to five metachronous (n = 12) or synchronous (n = 3) localizations were investigated. Using RT-PCR, the detailed molecular characteristics of the FUS-CHOP and EWS-CHOP breakpoints were determined. Loss of heterozygozity analysis at twelve loci was then used to further analyze clonal relationships. In all patients, tumor sites showed identical FUS-CHOP fusion products. In six patients, identical rare fusion transcripts were found, supporting a clonal relationship. Nine patients had the common exon5-FUS/exon2-CHOP fusion transcript, and two of these were identified as clonally related by loss of heterozygozity analysis. In all other patients, loss of heterozygozity analysis was highly suggestive of a clonal relationship, and no evidence for interpretation of a second primary tumor was found. This study supports the metastatic nature of apparent multifocal myxoid/round cell liposarcoma.

Oligoclonal Peripheral T-Cell Lymphocytosis as a Result of Aberrant T-Cell Development in a Cortical Thymoma

A 42-year-old man presented with a locally invasive cortical thymoma. Before chemotherapy was commenced 36 months after presentation, an unusual peripheral lymphocytosis of 19 × 109/1 had slowly developed over time. After the first course of chemotherapy, the lymphocytosis showed a sharp decline to normal absolute cell numbers and subsequently remained at normal levels. Currently, the patient is in stable partial remission and doing well. Immunophenotypic analysis showed a mature T-cell phenotype with 78% TcR-aβ and 16% TcR-γ§ in the absence of an immature component. Pretreatment Southern blot analysis of peripheral blood mononuclear cells showed an oligoclonal pattern with 13–20 rearranged fragments of different intensity for the TcRβ-gene. TcRγ also showed a pattern compatible with an oligoclonal proliferation. After treatment, after normalization of absolute blood counts, the distribution of T-cell subsets still showed a slightly aberrant pattern. Immunophenotypic analysis of a blood sample taken 6 months later, also at normal absolute cell counts, showed an increase of thymocytes as well as of mature T cells with a polyclonal pattern on Southern blot analysis. These findings may be interpreted as the result of aberrant positive and negative selection and development of thymocytes in the microenvironment of neoplastic thymic epithelial cells and clonal selection through continuous peripheral stimulation. Moreover, this case stresses the importance of integrated interpretation of clinical, morphological, immunophenotypical, and molecular data to gain insight in unusual clinical problems.