Cadaverine turnover in soybean seedlings using 15N-labelled lysine and cadaverine.

The synthesis and translocation of the diamine cadaverine during soybean (Glycine max L. Meer cv. Sakai) germination were studied using 15N-labelled lysine (the cadaverine precursor) and 15N-labelled cadaverine, both under light/dark (12 h/12 h) and total dark germinating conditions. 15N-cadaverine and non-labelled polyamines were simultaneously detected using ionspray ionization-mass spectrometry. Both 15N-cadaverine and 15N-lysine were taken up by soybean. 15N-lysine was transported to the shoot and root and converted into 15N-cadaverine, whereas relatively little 15N-cadaverine was formed from 15N-lysine in the cotyledon. The acropetal translocation of 15N-cadaverine from the cotyledon to the shoot seemed to predominate over basipetal transport to the root. Although no other 15N-derivatised polyamines were found, supplying exogenous 15N-lysine seemed to indirectly affect the metabolism of 14N putrescine, spermidine and spermine, while no significant effect was detected after supplying 15N-cadaverine.

Analysis of polyamine metabolism in soybean seedlings using 15N-labelled putrescine.

The translocation and metabolism of polyamines during soybean germination were studied using 15N-labelled putrescine as a precursor. Both 15N-labelled and unlabelled polyamines were simultaneously detected using a novel application of ionspray ionization-mass spectrometry. 15N-putrescine was rapidly transported to the shoots and roots, where it was converted to spermidine and spermine. The main 15N-polyamine that accumulated in the root was 15N-spermine. It was found that there were differences in the way endogenous putrescine and exogenous 15N-putrescine were metabolized in soybean seedlings.

Apoptosis in the epididymal epithelium of adult male golden hamster exposed to diethylstilbestrol.

Apoptosis in the testis and prostate exposed to disrupters of endocrine function, including diethylstilbestrol (DES), during neonatal or postnatal periods has repeatedly been demonstrated, but not in the mature epididymis. We investigated the effects of DES, a potent and synthetic estrogen, on apoptosis in the adult. Adult male golden hamsters received an SC injection of DES and were then sacrificed to collect epididymides after 1, 4, or 7 days of treatment. A significant decrease in epididymal weight and an increase in apoptotic cells were shown on the first day after DES injection. Flow cytometry showed that DES treatment (1 mg/kg) for 1, 4, or 7 days induced significant apoptosis both in the caput and the cauda epididymides. Greater numbers of apoptotic cells were detected in the caput than in the cauda at a fixed time after DES treatment. Serum levels of testosterone decreased markedly within 24 hr after DES administration, reaching undetectable levels of 0.1 ng/ml at 4 days and thereafter. These results indicate that DES administration can increase epididymal apoptosis with a decrease in serum testosterone levels. Because DES used to be injected into domestic animals, adult males also have a chance to take this substance through food. Our study indicates that exposure to DES in adults is as toxic as that in the perinatal period.

Effect of diethylstilbestrol on polyamine metabolism in hamster epididymis.

AIM: To investigate the effect of diethylstilbestrol (DES), one of the most potent endocrine disruptors, on the metabolism of polyamines in hamster epididymis. METHODS: Male golden hamsters of 7-week-old were kept under a light and dark cycle of 14 h and 10 h for 1 week to stimulate maximally the gonadal function. DES was injected subcutaneously at doses of 0.01 mg . kg(-1) . day(-1), 0.1 mg . kg(-1) . day(-1) and 1 mg . kg(-1) . day(-1) for one week. RESULTS: DES treatment caused a significant decrease in the weight of epididymis. The activity of epididymal ornithine decarboxylase (ODC) increased 1 day after DES treatment, kept at a high level for 4 days and then decreased to nearly normal level at day 7. The activity of spermidine/spermine N1-acetyltransferase (SSAT) also increased transiently after DES treatment. The contents of putrescine, spermidine, spermine and N(1)-acetylspermidine were increased 1 day approximately 4 days after DES treatment and restored to normal at day 7. All these changes showed a marked difference between the caput and the cauda. CONCLUSION: The polyamine biosynthesis in the hamster epididymis can be affected by DES, a xenoestrogen. DES may probably affect polyamine metabolism in the epididymis by regulating the rate-limiting enzymes involved in the polyamine biosynthesis.

Suppressive effects of Active Hexose Correlated Compound on the increased activity of hepatic and renal ornithine decarboxylase induced by oxidative stress.

Active Hexose Correlated Compound (AHCC), an extract derived from fungi of Basidiomycetes family has been shown to act as a biological response modifier in various disorders. In our present study, ferric nitrilotriacetate (Fe-NTA), which generates hydroxyl radicals in vivo, was given intraperitoneally to rats and AHCC was tested for its ability to suppress oxidative stress and the activity of ornithine decarboxylase (ODC) in the liver and kidney. Substantial increments in glutathione-related enzymes including glutathione reductase, glutathione peroxidase activity as well as oxidized glutathione contents were shown in the liver at 12 h after treatment with Fe-NTA (7.5 mg Fe/kg body weight). Effects of oxidative stress induced by Fe-NTA were also demonstrated by the increase in serum lipid peroxidation, aminotransferases and urinary 8-hydroxy-2'-deoxyguanosine. However, the increases in these parameters were restored to normal in AHCC-pretreated rats. The ODC activity in the liver and kidney was significantly increased by Fe-NTA, while the increased ODC activity induced by Fe-NTA was normalized in AHCC-pretreated rats. These results suggest AHCC acts as a potent antioxidant and protects against disorders induced by oxidative stresses.