ro-15-1570 and Abnormalities--Drug-Induced

ro-15-1570 has been researched along with Abnormalities--Drug-Induced* in 2 studies

Other Studies

2 other study(ies) available for ro-15-1570 and Abnormalities--Drug-Induced

ArticleYear
Comparative disposition, receptor affinity, and teratogenic activity of sulfon arotinoids.
    Teratology, 1995, Volume: 52, Issue:3

    To investigate the relationship between sulfon arotinoid biotransformation and teratogenic activity, the potency of the ethyl (Ro 15-1570) and methyl (Ro 14-9706) arotinoid sulfones and their in vivo disposition in pregnant hamsters were studied. Administration of Ro 15-1570 was teratogenic, but Ro 14-9706 showed no such activity. Total absorbed doses of the ethyl and methyl sulfones (measured as maternal plasma AUC) were very similar. Total delivered dose of Ro 14-9706 to liver and lung was 120-160% that of Ro 15-157, and Ro 14-9706 was transferred in greater amounts to the embryo as well. Placenta AUC for parent sulfon arotinoids was 160-250% that in the embryo. Plasma analyses by HPLC suggested that the ethyl sulfone was oxidized and appeared in maternal plasma as the corresponding sulfinic (Ro 14-9572) and sulfonic (Ro 14-3899) acids, amounting to 10% and 16%, respectively, of the mean maternal ethyl sulfone Cmax value. The concentrations of sulfinic and sulfonic metabolites were always less than the analytical limit of detection in placenta and embryo after maternal ethyl sulfone intubation. Neither the sulfinic nor the sulfonic acid were ever detected in maternal circulation, placenta, or embryo after methyl sulfone intubation. Comparisons of their binding affinities found that neither the ethyl nor the methyl arotinoid sulfone could act as a ligand for cellular retinoic acid-binding protein (CRABP), nor could these compounds bind retinoid nuclear receptors (RAR). Transcriptional activation of RARs was weak and similar for both compounds. The sulfinic and sulfonic acid arotinoids bind and transactivate RARs, and bind CRABP with efficiencies similar to all-trans-retinoic acid. Furthermore, they are active in cultured limb bud chondrocytes. The results suggest that the methyl sulfone (in accord with its lack of activity in cultured limb bud chondrocytes) is of no toxicologic significance in hamster embryo--even after relatively high delivered dose. Teratogenicity of the ethyl sulfone (which shows marked inhibition of chondrogenesis in cultured limb bud) does not appear to depend on measurable concentrations of these sulfinic/sulfonic acid metabolites in the hamster embryo.

    Topics: Abnormalities, Drug-Induced; Absorption; Administration, Oral; Animals; Confidence Intervals; Cricetinae; Embryo, Mammalian; Female; Limb Buds; Liver; Lung; Naphthalenes; Placenta; Pregnancy; Pregnancy, Animal; Receptors, Retinoic Acid; Retinoids; Sulfones

1995
Comparative teratogenicity of three retinoids: the arotinoids Ro 13-7410, Ro 13-6298 and Ro 15-1570.
    Archives of toxicology, 1990, Volume: 64, Issue:1

    Three retinoids of the arotinoid series, namely the free carboxylic acid Ro 13-7410, its ethyl ester Ro 13-6298, and the new arotinoid ethyl sulfone Ro 15-1570, were tested for their embryotoxic and teratogenic activity in rats. The retinoids were administered orally on either day 9 or 13 of gestation. Treatment on day 9 of gestation resulted mainly in malformations of the head and the trunk; whereas, on day 13 limb malformations were prominent. Ro 13-7410 and Ro 13-6298 were about 1000 times more embryotoxic and teratogenic than retinoic acid but induced a similar malformation pattern to retinoic acid. In contrast, the sulfur-containing arotinoid Ro 15-1570 was active at similar dose levels to retinoic acid but caused a peculiar malformation pattern on day 13 of gestation. This finding supports the hypothesis that the arotinoid ethyl sulfone Ro 15-1570 has unique biological properties, inducing no bone toxicity in adult rats and distinctly affecting limb development.

    Topics: Abnormalities, Drug-Induced; Animals; Benzoates; Embryo, Mammalian; Female; Gestational Age; Pregnancy; Rats; Retinoids; Time Factors

1990