Pineal N-acetyltransferase (NAT) activity and radioimmunoassayable levels of melatonin were compared in 2-month-old (young), 12-month-old (middle-aged), and 29-month-old (old) female rats killed at 1600 h (during the light) and at 2300 h (4 h after darkness onset) and 0100 h (6 h after darkness onset). During the light period, NAT levels were equivalent in pineals from each age group. With the onset of darkness NAT levels rose sharply and were again equivalent in all groups at 2300 h. At 0100 h pineal NAT values in the old rats were lower than in the other two groups. Melatonin values were low in pineal glands of all animals killed at 1600 h in light. By 4 h after darkness onset pineal melatonin content in the young rats had increased 12-fold compared to a 6-fold rise in the old animals. Melatonin levels in the middle aged rats were intermediate between the other two groups. Similar relationships were observed in the rats killed at 0100 h. By this time the young rats had melatonin levels 17 times higher than during the day while the increase in the old rats was only 7-fold; 12-month-old rats again had intermediate levels. The finding show a marked reduction in pineal melatonin with aging in female rats.
The purpose of this study was to test the influence of various irradiances of cool white fluorescent light on the suppression of pineal N-acetyltransferase activity (NAT) and melatonin content in hamsters. Groups of animals were exposed to light irradiances ranging from 0.00-1.86 microwatts (microW)/cm2 for 20 min during the night. Both pineal NAT and melatonin were similarly depressed by the light irradiances in a dose-related manner. The shape of the resultant dose-response curves and the calculated ED50 for NAT (0.066 microW/cm2) and melatonin (0.058 microW/cm2) were remarkably similar. These findings may be relevant to the physiological control of the pineal by natural illumination.
This study defines human placental transport of cocaine and its two minor, but pharmacologically active, metabolites--norcocaine and cocaethylene. The experimental system was the single, isolated perfused cotyledon of a normal term human placenta, and antipyrine served as a freely diffusible marker. Cocaine was transferred rapidly by the placenta at a rate about 80% that of antipyrine. The transfer had characteristics of passive transport consistent with the high lipid solubility of the drug. We found no evidence of significant placental metabolism of cocaine during its rapid placental transfer. Ethanol did not alter the cocaine transfer rate. Norcocaine and cocaethylene were equally as rapidly transferred. Thus the placenta is no barrier to the transfer of cocaine and its derivatives to the fetus.
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