Pharmacogenetics of Extraordinary Responses to 5-FU/Cisplatin Chemotherapy in Advanced Gastric Cancer – Report of 2 Cases

Background: Gastric cancer is often diagnosed in the metastatic stage, and only 10% of patients survive for as long as 2 years. Current chemotherapy regimens show significant treatment-related toxicities. It is crucial to identify the patients that will benefit most from certain chemotherapy regimens in order to avoid unnecessary side effects. Patients and Methods: 2 patients with advanced gastric cancer repeatedly received 5-FU/cisplatin combination chemotherapy. Genomic DNA was extracted from tumor tissue and mononuclear blood cells. Genotype analysis of genes of metabolizing and DNA repair enzymes was carried out using a PCR-RFLP technique. Direct sequencing was used to identify mutations of the gene dihydropyrimidine dehydrogenase (DPD). Results: Prolonged survival of 51 and 29 months, respectively were observed in our 2 patients. Both patients were positive for genotypes of thymidylate synthase - the target enzyme of 5-FU - that are associated with improved drug response. DPD variants connected with increased toxicity were not observed. However, both patients also showed genotypes in cisplatin metabolizing enzymes which enhance the effect of the drug. Conclusion: Genotype analysis in drug metabolizing enzymes of 5-FU and cisplatin provide a possible explanation for extraordinary therapy effects observed in 2 patients with advanced gastric cancer.Hintergrund: Das Magenkarzinom wird häufig im fortgeschrittenen Stadium diagnostiziert, und nur etwa 10% der Patienten überleben 2 Jahre. Aktuelle Chemotherapien zeigen eine hohe therapiebedingte Toxizität. Es ist daher von großer Bedeutung, diejenigen Patienten zu identifizieren, die von einer bestimmten Therapie profitieren, um anderen Patienten die Nebenwirkungen einer solchen Therapie zu ersparen. Patienten und Methoden: 2 Patienten mit fortgeschrittenem Magenkarzinom erhielten wiederholt eine Kombinationschemotherapie aus 5-FU/Cisplatin. Genomische DNS wurde aus Tumorgewebe und Leukozyten isoliert. Genotypanalysen von Genen, die am Metabolismus der Substanzen und am DNS-Reparaturprozess beteiligt sind, wurden mithilfe einer PCRRFLP-Methode durchgeführt. Das Gen der Dihydropyrimidindehydrogenase (DPD) wurde direkt sequenziert. Ergebnisse: Beide Patienten zeigten ein deutlich verlängertes Überleben von 51 bzw. 29 Monaten. Genotypen des 5-FU-Zielenzyms Thymidylatsynthase, die mit einem verbesserten Ansprechen assoziiert sind, konnten in beiden Patienten nachgewiesen werden. DPD-Varianten, die mit einer erhöhten Toxizität verbunden sind, wurden nicht beobachtet. Zusätzlich konnten bei beiden Patienten Genotypen in Cisplatin metabolisierenden Genen gefunden werden, die eine prolongierte Wirkung der Substanz bedingen. Schlussfolgerungen: Durch Genotypanalysen in Genen des 5-FU- und Cisplatin-Metabolismus konnte ein spezifisches pharmakogenetisches Profil identifiziert werden, das möglicherweise die Ursache eines außergewöhnlich guten Therapieeffektes in 2 Patienten mit fortgeschrittenem Magenkarzinom ist.Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich

Genetic abnormalities in chronic lymphocytic leukemia and their clinical and prognostic implications

Clonal chromosome abnormalities can be detected in approximately 50% of patients with chronic lymphocytic leukemia (CLL). The most common changes are trisomy 12, followed by structural abnormalities of 13q, 11q, 6q, and 14q. By fluorescence in situ hybridization (FISH), these aberrations can be demonstrated even in cases with insufficient mitotic yield or a normal karyotype. The biologic consequences of trisomy 12 are unknown, but a gene dosage effect is suspected and studies on partial trisomy 12 indicate that the region 12q13 to 12q22 might be of particular pathogenetic importance. Trisomy 12 is strongly associated with atypical lymphocyte morphology and seems to be a secondary event in leukemogenesis, as shown by combined immunophenotyping and interphase FISH. Structural abnormalities of 13q frequently involve hetero- and homozygous deletions of a region in 13q14, distal to the retinoblastoma gene, which may be the site of a tumor suppressor gene. In contrast to a normal karyotype or structural changes of 13q, complex karyotypic abnormalities, high percentage of abnormal metaphases, trisomy 12 and structural changes involving the P53 tumor suppressor gene on 17p13 are adverse prognostic indicators. Cytogenetic and molecular findings provide important diagnostic, clinical, and prognostic information which can contribute to treatment decisions and follow-up of CLL patients. (C) Elsevier Science Inc., 1997

Imatinib dose reduction in major molecular response of chronic myeloid leukemia: results from the German Chronic Myeloid Leukemia-Study IV

Standard first-line therapy of chronic myeloid leukemia is treatment with imatinib. In the randomized German Chronic Myeloid Leukemia-Study IV, more potent BCR-ABL inhibition with 800 mg ('high-dose') imatinib accelerated achievement of a deep molecular remission. However, whether and when a de-escalation of the dose intensity under high-dose imatinib can be safely performed without increasing the risk of losing deep molecular response is unknown. To gain insights into this clinically relevant question, we analyzed the outcome of imatinib dose reductions from 800 mg to 400 mg daily in the Chronic Myeloid Leukemia-Study IV. Of the 422 patients that were randomized to the 800 mg arm, 68 reduced imatinib to 400 mg after they had achieved at least a stable major molecular response. Of these 68 patients, 61 (90%) maintained major molecular remission on imatinib at 400 mg. Five of the seven patients who lost major molecular remission on the imatinib standard dose regained major molecular remission while still on 400 mg imatinib. Only two of 68 patients had to switch to more potent kinase inhibition to regain major molecular remission. Importantly, the lengths of the intervals between imatinib high-dose treatment before and after achieving major molecular remission were associated with the probabilities of maintaining major molecular remission with the standard dose of imatinib. Taken together, the data support the view that a deep molecular remission achieved with high-dose imatinib can be safely maintained with standard dose in most patients