Cell-based bioassays have been suggested for screening of hormones and drug bioactivities. They are a plausible alternative to animal based methods. The technique used is called receptor/reporter system. Receptor/reporter system was initially developed as a research technique to understand gene function. Often reporter constructs containing viral promoters were used because they could be expressed with very 'high' magnitude in a variety of cell types in the laboratory. On the other hand mammalian genes are expressed in a cell/tissue specific manner, which makes them (i.e. cells/tissues) specialized for specific function in vivo. Therefore, if the receptor/reporter system is to be used as a cell-based screen for testing of hormones and drugs for human therapy then the choice of cell line as well as the promoter in the reporter module is of prime importance so as to get a realistic measure of the bioactivities of 'test' compounds. We evaluated two conventionally used viral promoters and a natural mammalian promoter, regulated by steroid hormone progesterone, in a cell-based receptor/reporter system. The promoters were spliced into vectors expressing enzyme CAT (chloramphenicol acetyl transferase), which served as a reporter of their magnitudes and consistencies in controlling gene expressions. They were introduced into breast cell lines T47D and MCF-7, which served as a cell-based source of progesterone receptors. The yardstick of their reliability was highest magnitude as well as consistency in CAT expression on induction by sequential doses of progesterone. All the promoters responded to induction by progesterone doses ranging from 10-12 to 10-6 molar by expressing CAT enzyme, albeit with varying magnitudes and consistencies. The natural mammalian promoter showed the most coherence in magnitude as well as dose dependent expression profile in both the cell lines. Our study casts doubts on use of viral promoters in a cell-based bioassay for measuring bioactivities of drugs and hormones for human therapy and suggests caution regardingtranslation in toto, of a research technique as a cell-based bioassay for drug screening.
This study was carried out to investigate whether minute quantities of maternal drugs ingested over an extended period of time by a breast-feeding infant can alter the activity pattern of the infant's hepatic drug metabolizing enzyme (HDME). The HDME activity patterns of 12 breast-fed infants whose mothers were not on drug therapy were compared with those of 11 infants whose mothers had been taking 30 micrograms levo-norgesterel daily for 90 to 195 days (oral contraceptives group) and of 10 infants whose mothers had been taking ethambutol and isoniazid daily since pregnancy (tuberculosis group). As 6 beta hydroxycortisol in urine is considered to be a good and acceptable reflector of HDME activity, it was estimated from the infants' urine using enzyme-linked immunosorbent assay (ELISA) technique. A comparison of the patterns between 90 days of age and 195 days of age of the infants in the control group and the two study groups indicated an increase from 36.6 ng/mL to 58.4 ng/mL at 195 days in the control group. An initial decrease from 36.6 ng/mL to 26.2 ng/mL was noted with commencement of maternal levo-norgesterel therapy, followed by a slow and steady rise to 47.8 ng/mL at 195 days of age, with a shift in the peak from 120 to 135 days of infants age in the oral contraceptive group. A suppressed pattern with decreased levels of 6 beta hydroxycortisol ranging from 19.3 ng/mL to 26.5 ng/mL at 195 days was found in the tuberculosis group. The data were analyzed by two-way analysis of variance (ANOVA) coupled with Duncan's Multiple range test. Both treatment group showed significant differences from the control group at the 0.050 level. The HDME plays an important role in determining the final outcome of any drug in humans, as it controls the metabolism of drugs. Hence, alterations in its activity caused by the transfer of maternal drugs over a prolonged period of time could pose a serious problem to nurslings when they require drugs for their own benefit.
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