BACKGROUND/ PURPOSE: Dihydropyridmidine dehydrogenase (DPD) is the initial and rate-limiting enzyme in the catabolism of 5-fluorouracil (5FU). Although this catabolism is likely to occur in the liver in humans, there may be a local inactivation in tumours, modifying the efficacy of 5FU. The aim of this study was to examine the DPD activity in normal, inflammatory and malignant tissues from both the colon and the liver to assess the modifications of DPD activity in the process of tumourigenesis. METHODS: DPD activity was evaluated in 107 patients, corresponding to 194 samples (70 colorectal tumour and normal colon, nine metastases secondary to a colon cancer, ten inflammatory colon, 20 samples of normal liver, seven from primary liver cancer, and eight from inflammatory liver). DPD activity was determined using an enzymatic reaction followed by analysis of 5FU and its catabolite dihydro-5FU by high-performance liquid chromatograph. Results were expressed as pmol of 5FU catabolized/min x mg protein. RESULTS: DPD was highly variable in tumour and normal tissues, both from colon and liver. In colon, the correlation between DPD activity in tumour and normal mucosa was weak, even if it was statistically significant due to the higher number of samples. In inflammatory colon tissue (ulcerative colitis or Crohn's disease), DPD activity was significantly higher than in normal tissue (P = 0.006). In liver metastases from colon cancer, DPD activity was not significantly different from that observed in primary colon tumour (P = 0.32). In liver, DPD activity was significantly lower in primary liver tumour than in uninvolved liver specimens (P = 0.001). In inflammatory liver tissue (hepatitis), DPD activity ranged between normal and tumour tissues, and did not differ significantly either from normal tissue or primary liver cancer. CONCLUSIONS: DPD activity was modified in colon and in liver during a pathological process and the dysregulation of DPD increased from a benign to a malignant tissue.
BACKGROUND/ PURPOSE:Dihydropyridmidine dehydrogenase (DPD) is the initial and rate-limiting enzyme in the catabolism of 5-fluorouracil (5FU). Although this catabolism is likely to occur in the liver in humans, there may be a local inactivation in tumours, modifying the efficacy of 5FU. The aim of this study was to examine the DPD activity in normal, inflammatory and malignant tissues from both the colon and the liver to assess the modifications of DPD activity in the process of tumourigenesis. METHODS:DPD activity was evaluated in 107 patients, corresponding to 194 samples (70 colorectal tumour and normal colon, nine metastases secondary to a colon cancer, ten inflammatory colon, 20 samples of normal liver, seven from primary liver cancer, and eight from inflammatory liver). DPD activity was determined using an enzymatic reaction followed by analysis of 5FU and its catabolite dihydro-5FU by high-performance liquid chromatograph. Results were expressed as pmol of 5FU catabolized/min x mg protein. RESULTS:DPD was highly variable in tumour and normal tissues, both from colon and liver. In colon, the correlation between DPD activity in tumour and normal mucosa was weak, even if it was statistically significant due to the higher number of samples. In inflammatory colon tissue (ulcerative colitis or Crohn's disease), DPD activity was significantly higher than in normal tissue (P = 0.006). In liver metastases from colon cancer, DPD activity was not significantly different from that observed in primary colon tumour (P = 0.32). In liver, DPD activity was significantly lower in primary liver tumour than in uninvolved liver specimens (P = 0.001). In inflammatory liver tissue (hepatitis), DPD activity ranged between normal and tumour tissues, and did not differ significantly either from normal tissue or primary liver cancer. CONCLUSIONS:DPD activity was modified in colon and in liver during a pathological process and the dysregulation of DPD increased from a benign to a malignant tissue.
Authors: Silke Lassmann; Michael Hennig; Robert Rosenberg; Jörg Nährig; Joachim Schreglmann; Friedemann Krause; Manuela Poignee-Heger; Hjalmar Nekarda; Heinz Höfler; Martin Werner Journal: Int J Colorectal Dis Date: 2005-08-13 Impact factor: 2.571