Showing papers by "Bruce E. Johnson published in 1987"

myc family oncogene amplification in tumor cell lines established from small cell lung cancer patients and its relationship to clinical status and course.

Abstract: 44 small cell lung cancer cell lines established from 227 patients were studied for myc family DNA amplification (c-myc, N-myc, and L-myc). Two of 19 lines (11%) established from untreated patients' tumors had DNA amplification (one N-myc and one L-myc), compared with 11 of 25 (5 c-myc, 3 N-myc, and 3 L-myc) cell lines (44%) established from relapsed patients' tumors (P = 0.04). The 19 patients who had tumor cell lines established before chemotherapy treatment survived a median of 14 wk compared with 48 wk for the 123 extensive stage patients who did not have cell lines established (P less than 0.001). Relapsed patients whose cell lines had c-myc DNA amplification survived a shorter period (median of 33 wk) than patients whose cell lines did not have c-myc amplification (median of 53 wk; P = 0.04). We conclude that myc family DNA amplification is more common in tumor cell lines established from treated than untreated patients' tumors, and c-myc amplification in treated patients' tumor cell lines is associated with shortened survival.

Characterization of Two Cell Lines with Distinct Phenotypes Established from a Patient with Small Cell Lung Cancer

Abstract: Two small cell lung cancer (SCLC) cell lines were established from pericardial and pleural effusions of a patient with histopathologically proven SCLC of the oat cell type. Chemotherapy was administered without response during the 148-day period prior to the establishment of the first cell line, SCLC-22H, and some of the same drugs were administered in the 15 days prior to the establishment of the second cell line, SCLC-21H. Both cell lines differed markedly in their biochemical, kinetic, and morphological properties. Although the biomarkers l-Dopa decarboxylase, bombesin, carcinoembryonic antigen, and neurotensin were detectable in SCLC-22H, they were undetectable or low in SCLC-21H. The population doubling time was twice as fast and the colony forming efficiency higher in SCLC-21H than in SCLC-22H. They both expressed high concentrations of the SCLC marker enzymes neuronspecific enolase and the creatine kinase isoenzyme BB and showed no significant differences in their chromosomal characteristics. c-myc was amplified and expressed in both cell lines, and SCLC-21H had an additional rearranged and amplified EcoRI c-myc fragment. Morphological differences were apparent in liquid culture, cytology, and xenograft histology; SCLC-21H grew much more loosely than SCLC-22H, and had more prominent nucleoli and more abundant cytoplasm. Ultrastructurally dense core granules were present in both cell lines. SCLC-21H thus expressed properties of the variant cell type of SCLC, whereas SCLC-22H had mixed classic/variant features. An in vivo progression of the patient9s tumor from a pure small cell to a mixed small cell/large cell morphology could be demonstrated, which suggests that cell line SCLC-22H represents a cell type characteristic for the transitional phase of the tumor. The features of this cell line therefore define a new subclass of SCLC called transitional cell type. SCLC-22H may be of use to study the mechanisms involved in the classic to variant transition, which probably has a considerable impact on the prognosis and response to therapy.

Small cell lung cancer cell line derived from a primary tumor with a characteristic deletion of 3p

Abstract: Chemotherapy plus surgery is feasible and potentially effective in selected patients with small cell lung cancer (SCLC) and provides a unique opportunity to study SCLC early in its biological history. The in vitro characteristics of a SCLC cell line derived from a resected lung primary tumor after treatment with 3 courses of chemotherapy is described. The original SCLC cell line UMC-SCLC-1 exhibited features of classic SCLC with typical morphology and growth characteristics, high levels of dopa decarboxylase, bombesin-like peptides, neuron-specific enolase and calcitonin, and the presence of neurosecretory granules and demonstrated the deletion of the short arm of chromosome 3. After multiple passages, UMC-SCLC-1 gradually changed its culture characteristics to a cell line, UMC-SCLC-1A, with morphological features of large cell anaplastic carcinoma, an altered growth pattern, decrease in calcitonin, and increase in radioresistance but retained the other biochemical markers of classic SCLC (bombesin and dopa decarboxylase production). Serial DNA content analyses showed that increased aneuploidy during continuous culture in vitro was associated with the morphological changes. Both UMC-SCLC-1 and UMC-SCLC-1A demonstrated the deletion of chromosome 3p, amplification and abundant expression of N- myc , and increased expression of c- raf . Chemotherapy sensitivities were stable throughout multiple passages and correlated with in vivo response. UMC-SCLC-1A represents a unique SCLC cell line with heterogeneous properties of both classic and morphological variant SCLC cell lines. In addition, the characteristic deletion of 3p, previously described in cultures derived from metastatic lesions and heavily pretreated patients, is seen in a primary lesion early in the natural history of SCLC.