ServicenavigationHauptnavigationTrailKarteikarten

Forschungsstelle
INNOSUISSE
Projektnummer
12638.1;12 PFLS-LS
Projekttitel
TOWARDS A NOVEL COMBINATION THERAPY AGAINST HUMAN TUMORS BASED ON THE SYNERGISTIC ANTI-CANCER EFFECT OF TWO NON-CANCER DRUGS
Projekttitel Englisch
TOWARDS A NOVEL COMBINATION THERAPY AGAINST HUMAN TUMORS BASED ON THE SYNERGISTIC ANTI-CANCER EFFECT OF TWO NON-CANCER DRUGS

Texte zu diesem Projekt
 DeutschFranzösischItalienischEnglisch
Kurzbeschreibung
Anzeigen
-
-
Anzeigen
Abstract
Anzeigen
-
-
Anzeigen

Erfasste Texte


KategorieText
Kurzbeschreibung
(Deutsch)
TOWARDS A NOVEL COMBINATION THERAPY AGAINST HUMAN TUMORS BASED ON THE SYNERGISTIC ANTI-CANCER EFFECT OF TWO NON-CANCER DRUGS
Kurzbeschreibung
(Englisch)
TOWARDS A NOVEL COMBINATION THERAPY AGAINST HUMAN TUMORS BASED ON THE SYNERGISTIC ANTI-CANCER EFFECT OF TWO NON-CANCER DRUGS
Abstract
(Deutsch)
It was recently discovered at the University of Basel that combining a well known metabolic drug with a drug not previously reported to have any potential for the treatment of cancer led to an unexpected and synergistic anti-tumor effect. We aim to pursue this novel anti-cancer approach to the clinic. Proposed are chemical modifications to optimize one of the combination partners, as well as toxicological and pharmacological studies. In parallel, mechanistic studies, including identification of drug binding/effector genes, will be performed in order to define biomarkers of drug response and guide drug development.
Abstract
(Englisch)
It was recently discovered at the University of Basel that combining a well known metabolic drug with a drug not previously reported to have any potential for the treatment of cancer led to an unexpected and synergistic anti-tumor effect. We aim to pursue this novel anti-cancer approach to the clinic. Proposed are chemical modifications to optimize one of the combination partners, as well as toxicological and pharmacological studies. In parallel, mechanistic studies, including identification of drug binding/effector genes, will be performed in order to define biomarkers of drug response and guide drug development.