1991
myc family DNA amplification in 107 tumors and tumor cell lines from patients with small cell lung cancer treated with different combination chemotherapy regimens.
Brennan J, O'Connor T, Makuch R, Simmons A, Russell E, Linnoila R, Phelps R, Gazdar A, Ihde D, Johnson B. myc family DNA amplification in 107 tumors and tumor cell lines from patients with small cell lung cancer treated with different combination chemotherapy regimens. Cancer Research 1991, 51: 1708-12. PMID: 1847842.Peer-Reviewed Original ResearchConceptsMyc family DNA amplificationSmall cell lung cancerCell lung cancerLung cancerTumor cell linesExtensive-stage small-cell lung cancer patientsSmall cell lung cancer patientsCell linesPatient specimensCell lung cancer patientsDNA copy numberDifferent combination chemotherapyEtoposide/cisplatinDifferent chemotherapy regimensInitiation of therapyLung cancer patientsFrequency of amplificationChemotherapy regimensUntreated patientsCombination chemotherapyCancer patientsSame patientPatientsClinical situationsDNA amplification
1987
myc family oncogene amplification in tumor cell lines established from small cell lung cancer patients and its relationship to clinical status and course.
Johnson B, Ihde D, Makuch R, Gazdar A, Carney D, Oie H, Russell E, Nau M, Minna J. myc family oncogene amplification in tumor cell lines established from small cell lung cancer patients and its relationship to clinical status and course. Journal Of Clinical Investigation 1987, 79: 1629-1634. PMID: 3034978, PMCID: PMC424486, DOI: 10.1172/jci112999.Peer-Reviewed Original ResearchConceptsMyc family DNA amplificationPatient tumorsTumor cell linesC-myc amplificationCell linesSmall cell lung cancer patientsCell lung cancer patientsSmall cell lung cancer cell linesCell lung cancer cell linesExtensive-stage patientsLung cancer patientsLung cancer cell linesCancer cell linesRelapsed patientsStage patientsClinical statusCancer patientsChemotherapy treatmentPatientsTumorsDNA amplificationOncogene amplification
1986
Changes in the phenotype of human small cell lung cancer cell lines after transfection and expression of the c-myc proto-oncogene.
Johnson B, Battey J, Linnoila I, Becker K, Makuch R, Snider R, Carney D, Minna J. Changes in the phenotype of human small cell lung cancer cell lines after transfection and expression of the c-myc proto-oncogene. Journal Of Clinical Investigation 1986, 78: 525-532. PMID: 3016030, PMCID: PMC423589, DOI: 10.1172/jci112604.Peer-Reviewed Original ResearchConceptsSmall cell lung cancer cell linesCell lung cancer cell linesLung cancer cell linesCancer cell linesBombesin-like immunoreactivityLarge cell morphologyC-myc messenger RNAC-myc expressionC-MycCell linesSmall cell lung cancerHuman small cell lung cancer cell linesCell lung cancerSmall cell lung cancer linesCell lung cancer linesMessenger RNALung cancer linesC-myc amplificationC-myc geneLung cancerVariant phenotypesCloning efficiencyDecarboxylase levelsCancer linesBiologic properties
1982
Classification of cell lines derived from undifferentiated lymphomas according to their expression of complement and Epstein-Barr virus receptors: Implications for the relationship between African and American Burkitt's lymphoma
Freeman C, Magrath I, Benjamin D, Makuch R, Douglass E, Santaella M. Classification of cell lines derived from undifferentiated lymphomas according to their expression of complement and Epstein-Barr virus receptors: Implications for the relationship between African and American Burkitt's lymphoma. Clinical Immunology 1982, 25: 103-113. PMID: 7151335, DOI: 10.1016/0090-1229(82)90169-6.Peer-Reviewed Original ResearchConceptsEBV nuclear antigenEpstein-Barr virus receptorUndifferentiated lymphomaComplement receptorsExpression of complementEBNA-positive cell linesCell linesVirus receptorAmerican Burkitt's lymphomaCell typesEBV receptorBurkitt's typeReceptor expressionBurkitt's lymphomaNeoplastic counterpartsLymphomaHigh levelsIndividual tumorsVirus producersDegree of expressionNuclear antigenLow levelsReceptorsTumorsEBV