Effects of SCH 486757, a nociceptin-1 receptor agonist, on fertility and reproductive hormone levels in female CRL:CD®[SD] rats.

BACKGROUND: SCH 486757 is a nociceptin-1 receptor agonist that was in development as an antitussive. Studies were conducted to characterize its effects on female fertility and to examine its potential modes of action. METHODS: Female rats were administered up to 20 mg/kg SCH 486757 before/during mating through gestation day (GD) 7; female fertility and embryonic development were assessed on GD 14. In a subsequent study, pregnant rats were dosed up to 50 mg/kg SCH 486757 from GD 0 to 7. Reproductive hormones were assessed on GD 1, 3, 5, and 7, and embryonic development was assessed on GD 14. A subset of dosed dams were allowed to deliver, were subsequently re-mated, and reproductive hormones and fertility were assessed on GD 7 and 14, respectively. To determine the effects of SCH 486757 on nonpregnant rats, doses of up to 50 mg/kg SCH 486757 were administered for 4 days beginning on the day of estrus; reproductive hormones were assessed after the final dose. RESULTS: Female rats administered ≥20 mg/kg SCH 486757 exhibited abnormal estrous cycles; decreased fertility, number of corpora lutea, and implantation sites; and increased pre- and postimplantation loss. In general, administration of SCH486757 was associated with lower luteinizing hormone (LH) progesterone (P4), and estradiol (E2) levels in pregnant rats. These effects on fertility/embryonic development and reproductive hormones exhibited reversibility post dosing. Nonpregnant rats in the 50-mg/kg group exhibited apparent decreases in P4 and E2 levels, with no apparent effects on LH values. CONCLUSIONS: The SCH 486757-related effects on fertility and embryonic development were likely the result of decreases in P4, E2, and/or LH, rather than being due to decreased prolactin levels.

Assessment of hydroxypropyl methylcellulose, propylene glycol, polysorbate 80, and hydroxypropyl-ß-cyclodextrin for use in developmental and reproductive toxicology studies.

BACKGROUND: A series of studies were conducted to assess Polysorbate 80 (PS80), Propylene Glycol (PG), and Hydroxypropyl-ß-Cyclodextrin (HPßCD), when compared with Hydroxypropyl Methylcellulose (MC) in developmental and reproductive toxicology (DART) studies. METHODS: In the rat fertility study, 20 mg/kg MC, 10 mg/kg PS80, 1,000 mg/kg PG, 500 mg/kg HPßCD or 1,000 mg/kg HPßCD were administered orally before/during mating, and on gestation Day (GD) 0-7, followed by an assessment of embryonic development on GD 14. In the rat and rabbit teratology studies, the doses of MC, PS80, PG, and HPßCD were the same as those in the fertility study. In these teratology studies, pregnant females were dosed during the period of organogenesis, followed by an assessment of fetal external, visceral, and skeletal development. RESULTS: In the rat fertility and rat teratology studies, PS80, PG, and HPßCD did not exhibit toxicity, when compared with MC. Similarly, in the rabbit teratology study, there was no PS80 or PG-related toxicity, when compared with MC. However, individual rabbits in the 500 and 1,000 mg/kg HPßCD groups exhibited maternal toxicity, which included stool findings, decreased food consumption, and body weight gain. Furthermore, one rabbit each in the 500 and 1,000 mg/kg HPßCD groups exhibited evidence of abortion, which was considered secondary to maternal toxicity. CONCLUSIONS: Although HPßCD was not well tolerated in rabbits at doses of 500 and 1,000 mg/kg, PS80 and PG were comparable to MC and should be considered for use in developmental and reproductive toxicology studies.

Effects of the histamine H1 antagonist chlorcyclizine on rat fetal palate development.

BACKGROUND: The effects of histamine H1 antagonist chlorcyclizine on rat palate development were characterized following in utero exposure. METHODS: To identify the optimum dose for inducing cleft palate, pregnant rats were administered 30, 60, or 90 mg/kg chlorcyclizine on Gestation Days 11 to 14. Fetal palate gene expression was also assessed after 90 mg/kg chlorcyclizine at 8, 15 and 30 hours post-dose on Gestation Day 14 using microarray and qRT-PCR. RESULTS: Rats in the 60- and 90-mg/kg groups exhibited adverse clinical signs and body weight loss. Rats in the 90-mg/kg group also demonstrated increases in late resorptions and decreases in fetal weight. Effects in the low-dose group were limited to decreases in body weight gain. Fetal assessment on Gestation Day 21 revealed that findings were limited to the 60- and 90-mg/kg groups, and included cleft palate (80% of litters for both groups), high arched palate, small nose, micrognathia, high domed head, digits shortened/absent and small limb. The fetal incidence of cleft palate was higher at 90 mg/kg, thus this dose was selected to assess palate gene expression. The altered genes associated with chlorcyclizine-induced cleft palate included Wnt5a, Bmp2, Bmp4, Fgf10, Fgfr2, Msx1, and Insig1 but the magnitude of the change was relatively small (1.5- to 2-fold). CONCLUSIONS: Expression of several genes involved in palate, limb and digit development was altered in the fetal palate following in utero exposure to chlorcyclizine. The subtle perturbation and interplay of these genes may have profound effects on the dynamics of fetal palate development.

SCH 412499: biodistribution and safety of an adenovirus containing P21(WAF-1/CIP-1) following subconjunctival injection in Cynomolgus monkeys.

Monkey studies were conducted for the preclinical safety assessment of SCH 412499, an adenovirus encoding p21, administered by subconjunctival injection prior to trabeculectomy for postoperative maintenance of the surgical opening. Biodistribution of SCH 412499 was minimal and there was no systemic toxicity. Findings included swollen, partially closed or shut eye(s) and transient congestion in the conjunctiva. A mononuclear cell infiltrate was present in the conjunctiva, choroid and other ocular tissues, but completely or partially resolved over time. Electroretinograms and visual evoked potentials revealed no adverse findings. Thus, the findings are not expected to preclude the clinical investigation of SCH 412499.

Thyroid hormone, glucocorticoids, and prolactin at the nexus of physiology, reproduction, and toxicology.

A symposium at the 2003 Annual Meeting of the Society of Toxicology brought together an expert group of endocrinologists to review how non-reproductive hormones can affect the endocrine system. This publication captures the essence of those presentations. Paul Cooke and Denise Holsberger recapitulate the evidence of how thyroid hormones affect male and female reproduction, and reproductive development. Ray Witorsch summarizes the many effects of glucocorticoids on the reproductive system. Finally, Paul Sylvester reviews the mechanism of action of prolactin, and reminds us that this ancient hormone has many functions beyond lactation.

Effects of perinatal loratadine exposure on male rat reproductive organ development.

Normal pre- and postnatal male reproductive development and function is dependent upon testicular androgen production and is sensitive to antiandrogenic perturbations. It was of interest to determine if the H(1) histamine antagonist loratadine had the potential to alter androgen-mediated reproductive development in the rat, a sensitive species for detecting antiandrogenic effects. Loratadine was administered orally by gavage to pregnant Sprague-Dawley rats at doses of 4, 12 or 24 mg/kg from gestation day 7 to postnatal day 4, encompassing the period of androgen-dependent male reproductive development. Vehicle control rats received 0.4% aqueous methylcellulose. Dams were allowed to deliver naturally and rear their offspring until postnatal day 21. On postnatal day 21 male offspring were retained for further evaluation of androgen-dependent endpoints and the female offspring were euthanized and their sex confirmed internally. Males were necropsied from postnatal day 72 to 85. Dams administered 24 mg/kg of loratadine exhibited a transient 45% decrement in maternal body weight gain at the initiation of dosing (gestation days 7-9). Mean pup body weight on postnatal days 1 and 4 were approximately 4% lower than controls. No other effects on offspring growth were observed. Anogenital distance on postnatal day 1 was unaffected by loratadine exposure. Loratadine exposure did not induce the retention of nipples in male rats, affect preputial separation, or induce external malformations, including hypospadias. Seminal vesicle and prostate weights were not decreased by loratadine exposure. These data clearly demonstrate that systemic loratadine exposure, in multiples up to 26 times clinical exposure levels, does not exhibit in vivo antiandrogen activity, as evidenced by the absence of alterations or malformations in androgen-dependent reproductive tissues in male rats exposed to loratadine during the critical period of androgen-dependent development.