Janice M. Larner scite author profile

The overall aim of these studies was to investigate the oral and i.m. bioavailability of CDB-2914 in intact female rhesus monkeys, and to compare the serum concentrations of CDB-2914 with that of mifepristone following oral administration. In the first study, a 50 mg bolus of CDB-2914 per monkey was administered intravenously, orally or intramuscularly. The area under the serum concentration-time curve for 72 h (AUC(0-72)) following i.v. injection was 18 320 +/- 2718 ng/ml*h, and that for oral administration was 10 464 +/- 3248 ng/ml*h. Thus, the oral bioavailability of CDB-2914 equivalents was 56%. The AUC(0-168 h) following i.m. injection was 11 226 +/- 1130 ng/ml*h. Therefore, the i.m. bioavailability of CDB-2914 equivalents was 62%. In the second study, the serum concentrations of CDB-2914 and mifepristone equivalents were compared following an oral bolus dose in two different formulations. When administered at 5 mg/kg in aqueous suspending vehicle (ASV), the mean peak serum concentration (C(max)) of CDB-2914 equivalents (192 +/- 64 ng/ml) occurred at 5 +/- 1 h, whereas the C(max) of mifepristone equivalents (82 +/- 25 ng/ml) occurred at 3 +/- 1 h. Following administration in gelatin capsules (35 mg/monkey), the C(max) of CDB-2914 equivalents (129 +/- 24 ng/ml) occurred at 5 +/- 1 h, while the C(max) of mifepristone equivalents (31 +/- 8 ng/ml) occurred at 3 +/- 1 h. The serum concentration (AUC(0-120 h)) of CDB-2914 equivalents was 4.7- or 5. 3-fold greater than that of mifepristone equivalents when administered orally in ASV or gelatin capsules respectively. The serum protein binding characteristics of CDB-2914 were also studied. CDB-2914 bound to human alpha(1)-acid glycoprotein (AAG), but not with as high an affinity as mifepristone. In contrast, neither CDB-2914 nor mifepristone bound with high affinity to AAG, corticosteroid binding globulin or sex hormone binding globulin in monkey serum. Collectively, these results indicated that CDB-2914 was more efficiently absorbed than mifepristone following oral administration to female rhesus monkeys.

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The Clearance and Metabolism of Estradiol and Estradiol-17-Esters in the Rat*

Larner

Hochberg

1985

Endocrinology

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The C-17 fatty acid esters of estradiol are naturally occurring estrogens which have been shown to circulate in blood. They are long-acting estrogens, analogous to the synthetic alkyl and aryl esters of estrogens which have been used pharmacologically for decades. To determine the mechanisms involved in the prolonged stimulation evoked by these nonpolar estrogens, several C-17 alkyl esters were synthesized and labeled with 3H at C-17 alpha, and their metabolism and clearance were studied and compared to those of estradiol in rats. The conversion of the C-17-3H to 3H2O was used as a marker of metabolism. While the clearance of the long chain esters from blood is somewhat slower than that of estradiol (t 1/2 = approximately 16 vs. 2 min, respectively), the rates of metabolism are dramatically different. For example, the t 1/2 of metabolism for two representative esters, estradiol-17-stearate and arachidonate, are 580 and 365 min, respectively, while the t 1/2 of metabolism for estradiol is about as fast as its clearance from blood (approximately 2 min). When the effect of chain length was studied, it was found that for the smaller esters, there was an inverse relationship between the size of the acyl group and the clearance from blood, i.e. the longer carboxylic acids were cleared more slowly. However, when the acyl group was lengthened from C12 to C14, the rate of clearance increased and was even faster with C18. Nevertheless, with all of the esters tested, the rate of metabolism steadily decreased as the chain length increased. These results are interpreted as indicating that the control point or rate-limiting step in the metabolism of the estradiol esters is the esterase that hydrolyzes the ester to estradiol. Thus, the prolonged estrogenic action of the C-17-alkyl esters is due to the slow release of estradiol from this hydrophobic reservoir.

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The Interaction of C-17 Esters of Estradiol with the Estrogen Receptor*

1984

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Janice M. Larner

Steroidal fatty acid esters

The naturally occurring C-17 fatty acid esters of estradiol are long-acting estrogens

Circulating concentrations of the antiprogestins CDB-2914 and mifepristone in the female rhesus monkey following various routes of administration

The Clearance and Metabolism of Estradiol and Estradiol-17-Esters in the Rat*

The Interaction of C-17 Esters of Estradiol with the Estrogen Receptor*

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