Your search keyword '"Pascal, J.-C."' showing total 2 results

1. In vitro and in vivo models for the evaluation of potent inhibitors of male rat 17alpha-hydroxylase/C17,20-lyase.

Author

Duc I, Bonnet P, Duranti V, Cardinali S, Rivière A, De Giovanni A, Shields-Botella J, Barcelo G, Adje N, Carniato D, Lafay J, Pascal JC, and Delansorne R

Subjects

Administration, Oral, Androstenes, Androstenols pharmacology, Animals, Enzyme Inhibitors chemistry, Inhibitory Concentration 50, Luteinizing Hormone blood, Male, Microsomes enzymology, Organ Size, Rats, Rats, Wistar, Stereoisomerism, Testis enzymology, Testosterone blood, Enzyme Inhibitors pharmacology, Steroid 17-alpha-Hydroxylase antagonists & inhibitors

Abstract

The C(17,20)-lyase is a key enzyme in the biosynthesis of androgens by both the testes and adrenals. A complete inhibition of this enzyme would provide an alternative means of androgen suppression for the treatment of prostatic cancers. In the present study, the inhibitory effects of new non-steroidal compounds were tested in vitro on rat C(17,20)-lyase versus abiraterone, a reference steroidal inhibitor. Their activities were also evaluated in vivo on plasma testosterone (T) and luteinizing hormone (LH) levels and on testes, adrenals, seminal vesicles (SV) and ventral prostate (VP) weights after 3 days of oral treatment to adult male rats (50mg/kg per day p.o.). Inhibition in the nanomolar range was obtained with TX 977, the lead racemate product in this series, and optimization is ongoing based on a slight dissociation observed between its two diastereoisomers, TX 1196-11 (S) and TX 1197-11 (R). These non-steroidal compounds (including YM 55208, a reference competitor) proved to be more active in vivo than abiraterone acetate in this model, but the observed impact on adrenal weight suggests that the specificity of lyase inhibition versus corticosteroid biosynthesis deserves further investigations with this new class of potentially useful agents for the treatment of androgen-dependent prostate cancer.

Published

2003

2. In vitro and in vivo models for the evaluation of new inhibitors of human steroid sulfatase, devoid of residual estrogenic activity.

Author

Shields-Botella J, Bonnet P, Duc I, Duranti E, Meschi S, Cardinali S, Prouheze P, Chaigneau AM, Duranti V, Gribaudo S, Rivière A, Mengual L, Carniato D, Cecchet L, Lafay J, Rondot B, Sandri J, Pascal JC, and Delansorne R

Subjects

Animals, Aromatase metabolism, Coumarins pharmacology, Dose-Response Relationship, Drug, Endometrial Neoplasms metabolism, Female, Humans, Inhibitory Concentration 50, Rats, Rats, Sprague-Dawley, Rats, Wistar, Steryl-Sulfatase, Sulfatases metabolism, Sulfonamides pharmacology, Sulfonic Acids, Tumor Cells, Cultured, Uterus enzymology, Uterus metabolism, Arylsulfatases antagonists & inhibitors, Enzyme Inhibitors pharmacology, Estrogens metabolism

Abstract

The goal of our research project is to develop a new class of orally active drugs, estrone sulfatase inhibitors, for the treatment of estrogen-dependent (receptor positive) breast cancer. Several compounds were synthesized and their pharmacological potencies explored. Based on encouraging preliminary results, three of them, TX 1299, TX 1492 and TX 1506 were further studied in vitro as well as in vivo. They proved to be strong inhibitors of estrone sulfatase when measured on the whole human JEG-3 choriocarcinoma and MCF-7 breast cancer cells and their IC(50)s found to be in the range of known standard inhibitors. Their residual estrogenic activity was checked as negative in the test of induction of alkaline phosphatase (APase) activity in whole human endometrial adenocarcinoma Ishikawa cells. In addition, their effect on aromatase activity in JEG-3 cells was also examined, since the goal of inhibiting both sulfatase and aromatase activities appears very attractive. However, it has been unsuccessful so far. Then, in vivo potencies of TX 1299, the lead compound in our chemical series, were evaluated in comparison with 6,6,7-COUMATE, a non-steroidal standard, in two different rat models and by oral route. First, the absence of any residual estrogenic activity for these compounds was checked in the uterotrophic model in prepubescent female rats. Second, antiuterotrophic activity in adult ovariectomized rat supplemented with estrone sulfate (E(1)S), showed that both compounds were potent inhibitors, the power of TX 1299 relative to 6,6,7-COUMATE being around 80%. This assay was combined with uterine sulfatase level determination and confirmed the complete inhibition of this enzyme within the target organ. Preliminary studies indicated that other non-steroid compounds in the Théramex series were potent in vitro and in vivo inhibitors of estrone sulfatase in rats and further studies are in progress.

Published

2003