Frekvence výskytu vybraných bodových polymorfismů CYP2C8 a MDR1 v české populaci a jejich vliv na působení amiodaronu / Frequency of occurrence of selected single nucleotide polymorphisms of CYP2C8 and MDR1 in the Czech population and their influence on the effect of amiodarone

Pechandová, Kristina

January 2013

Frequency of occurrence of selected single nucleotide polymorphisms of CYP2C8 and MDR1 in the Czech population and their influence on the effect of amiodarone Introduction: Variability in drug response is sometimes conditioned by genetic differences in the metabolism and the transport of drugs. Interindividual differences are often caused by polymorphisms affecting biotransformation activity of enzymes and expression of transporters. In the thesis we paid attention to the cytochrome P450 CYP2C8 and MDR1. First, we described the frequency of occurrence of selected variant alleles CYP2C8 * 2, CYP2C8 * 3 (2 substitution in exon 3 and 8, CYP2C8 and CYP2C8 * 3G416A * 3A1196G), CYP2C8 * 4, CYP2C8 P404A in the healthy Czech population and MDR1 variant alleles in these exons: 26 C3435T, 21 G2677A/T, 12 C1236T a 17 T-76A. Subsequently, we studied the influence of these polymorphisms on effects of amiodarone in the selected group of patients. Methods: We determined genotypes MDR1 a CYP2C8 by PCR-RFLP by using restriction enzymes and specific primers. We determined the frequency of MDR1 genotypes in 189 healthy volunteers and CYP2C8 in 161 healthy subjects. Further we included into the study 63 patients treated with amiodarone for longer than two months. Their treatment was assessed from medical records and...

Überwindung der P-Glykoprotein (MDR1)-abhängigen Multidrugresistenz mittels RNA-Interferenz

Stege, Alexandra Eva

11 January 2007

P-Glykoprotein als Produkt des MDR1-Gens stellt einen gut untersuchten Mediator der Multidrugresistenz (MDR) in humanen Malignomen dar. Die Überexpression dieses ABC-Transporters steht in Korrelation zu einer erniedrigten Tumorremission und einer kürzeren Überlebensrate der Patienten. Bisherige Versuche, das Protein über niedermolekulare Substanzen (MDR-Modulatoren) zu inhibieren, vermochten in allen bisherigen klinischen Studien nicht zu überzeugen, so daß diese bis heute keinen Eingang in Standardtherapieschemata gefunden haben. Ziel dieser Arbeit war es, mittels RNA-Interferenz Strategien die Expression von MDR1 zu hemmen und eine Reversion der zellulären Chemoresistenz sowohl im Zellkultur- als auch im Tiermodell zu erreichen. Für die in vitro Untersuchungen an drei humanen multidrug-resistenten Karzinomzellinien wurden verschiedene siRNA (short interfering) Duplexe und shRNA (short hairpin)-exprimierende Vektoren gegen die MDR1 mRNA entwickelt. Die Behandlung der Zellen mit siRNAs führte zu einer bis zu 91 %igen Inhibition der MDR1 mRNA-Expression und zu einer Sensitivierung der Zellen gegenüber dem Anthrazyklin um 89 %. Diese Effekte konnte über einen Zeitraum von drei bis fünf Tagen aufrechterhalten werden. Die stabile Expression von anti-MDR1 shRNAs führte in zwei der untersuchten Zellmodelle zu einer dauerhaften und kompletten Überwindung des MDR1-abhängigen Resistenzphänotyps. Im Mausmodell konnte durch intratumorale Applikation des anti-MDR1 shRNA-kodierenden Vektors mittels low-volume Jet-Injektion eine komplette Reversion der MDR1-Überexpression sowie eine Wiederherstellung der Chemosensitivität gegenüber Doxorubicin in dem resistenten Tumormodell erreicht werden. Die Effizienz der kombinierten Gen- und Chemotherapie wird durch die Verminderung des in vivo Tumorwachstums auf das Volumen des von der sensiblen Zellinien-abgeleiteten Tumors reflektiert. / Multidrug resistance (MDR) is the major cause of failure of effective chemotherapeutic treatment of disseminated neoplasms. The "classical" MDR phenotype of human malignancies is mediated by drug extrusion by the adenosine triphosphate binding cassette (ABC)-transporter P-glycoprotein (MDR1/P-gp). For stable reversal of "classical" MDR in three human cancer cell lines by RNA interference (RNAi) technology, two small interfering RNA (siRNA) constructs and four H1-RNA gene promoter-driven expression vectors encoding anti-MDR1/P-gp short hairpin RNA (shRNA) molecules were constructed. In all cellular systems, siRNAs could specifically inhibit MDR1 expression up to 91% at the mRNA and protein levels. Resistance against daunorubicin was decreased to a maximum of 89%. The introduction of anti-MDR1/P-gp shRNA expression vectors leads in two of the three human cancer cell lines to a complete reversion of the MDR phenotype. The reversal of MDR was accompanied by a complete suppression of MDR1/P-gp expression on mRNA and protein level, and by a considerable increased intracellular anthracyline accumulation in the anti-MDR1/P-gp shRNA-treated cells. In a mouse xenograft model a complete in vivo restoration of MDR1 overexpression and chemosensitivity to doxorubicin could be obtained by intratumorally jet-injected anti-MDR1 shRNA in a multidrug resistant human cancer tumor model.

siRNA

Multidrug-Resistenz (MDR)

P-Glykoprotein (MDR1)

RNA-Interferenz (RNAi)

shRNA

siRNA

multidrug resistance (mdr)

P-glycoprotein (MDR1)

RNA interference (RNAi)

shRNA

gene therapy

570 Biowissenschaften, Biologie

32 Biologie

XH 3104

ddc:570