铅对雄性生殖毒性的研究进展

从铅对睾丸与附睾形态、精子生成和发育以及生殖内分泌功能等三方面的影响综述了铅对雄性生殖毒性的研究进展;并从铅对睾丸的脂质过氧化损伤,对睾丸标志酶活性的影响,对染色体、DNA及基因的影响以及对CaM、Ca2 -ATP酶活性的影响等方面探讨了铅对雄性生殖毒性作用机理。同时,提出了铅对雄性生殖毒性的研究中存在的若干问题和发展方向。     

Weight of the Evidence Evaluation of Low-Dose Reproductive and Developmental Effects of Bisphenol A

A panel convened by the Harvard Center for Risk Analysis (HCRA) evaluated the weight of evidence for potential developmental and reproductive toxicity of bisphenol A (BPA, CASRN 80-05-7) in animals at doses well below the Lowest Observed Adverse Effect Level (LOAEL) of 50 mg/kg-day previously identified by the U.S. Environmental Protection Agency (US EPA) and even US EPA's reference dose (RfD) of 0.05 mg/kg-day. The effects are hypothesized to occur through an endocrine-modulating mode of action, specifically through estrogen receptors. The panel focused on potential male reproductive effects but also examined other endpoints possibly associated with hormone-like effects. The review considered studies published through April 2002. A formal deliberation framework focused on consistency, generalizability, and biological plausibility. The panel found no consistent affirmative evidence of low-dose BPA effects for any endpoint. Inconsistent responses across rodent species and strains made generalizability of low-dose BPA effects questionable. Lack of adverse effects in two multiple-generation reproductive and developmental studies casts doubt on suggestions of significant physiological or functional impairment. The panel was concerned about generalization of non-oral administration results to oral exposures. Differences in the pattern of BPA responses compared to estradiol or diethylstilbestrol (DES) cast doubt on estrogenicity as a low-dose mechanism of action for BPA. Finally, there is indirect evidence that humans may be less sensitive to possible estrogenic effects from BPA exposure due to pharmacodynamic factors. The panel recommended replication of existing studies under carefully controlled conditions and further study of BPA's pharmacokinetics and pharmacodynamics. The study was funded by a grant from the American Plastics Council.     

Reproductive and Developmental Toxicity of Orally Administered Botanical Composition,UP446‐Part II: Effects on Prenatal and Postnatal Development,Including Maternal Function in Sprague–Dawley Rats

Almost all herbal remedies could be therapeutic at one dose and toxic at another. These facts become more troubling and a double threat when uncharacterized medicinal herbs are blended together and used by expectant mothers as a supplement to conventional pregnancy management with an inherent belief of considering herbal remedies as harmless. Here we describe the potential adverse effects of UP446, a standardized bioflavonoid composition from the roots of Scutellaria baicalensis and the heartwoods of Acacia catechu, on the maternal and their first filial generation (F1) developmental and functional toxicity following exposure at doses of 250, 500, and 1000 mg/kg/day. Maternal gestation, viability index, sex ratio, body weight, and food consumption were evaluated. F1 growth and development, sexual function including mating index, fertility, implantation, and embryo mortality were also assessed. Test substance impacts on the maternal (F0) or F1 reproductive parameters were very minimal. There were no statistically significant differences in implantation, parturition, viability, and neonates’ sex ratios. There were no significant changes in maturation, behavioral, or functional developments between groups. No treatment‐related prenatal or postnatal in‐life or necropsy abnormalities were observed. Therefore, the no observed adverse effect level in the prenatal and postnatal developments, including maternal function study was considered to be greater than 1000 mg/kg     

An Evaluation of Reproductive and Developmental Toxicity of Sitaxentan (Thelin) in Rats

Sitaxentan sodium (Thelin) is a once daily, orally bioavailable, highly selective endothelin A receptor antagonist. Initially approved for the treatment of pulmonary arterial hypertension, sitaxentan was withdrawn in 2010 following the recognition of a pattern of idiosyncratic liver injury. During development of this drug, a series of nonclinical studies investigated the effects of orally administered sitaxentan on fertility, embryofetal development, and pre‐ and postnatal development in the rat; results of these studies are reported here. In the fertility study, sitaxentan did not affect mating behavior, fertility, sperm morphology, or estrous cycle. Sitaxentan was teratogenic in the embyrofetal development study, which was expected based on its pharmacologic mechanism of action. Teratogenic effects included malformations of the head, mouth, face, and large blood vessels. In the pre‐ and postnatal study, sitaxentan administration was associated with reduced pup survival, large or abnormally shaped livers, and delays in markers of auditory and sexual development. Sitaxentan was detected in plasma of suckling pups receiving milk from females dosed with sitaxentan. These nonclinical study findings were reflected in the sitaxentan product label warnings. Birth Defects Res (Part B) 00:1‐10, 2012. © 2012 Wiley Periodicals, Inc.     

Developmental and reproductive toxicity studies on artemisone

BACKGROUND: In order to justify clinical studies in women of child-bearing age with artemisone, a new artimisinin derivative, studies to assess fertility and early embryonic development in rats, developmental toxicity in rats and rabbits, and peri-post natal development in rats were performed. METHODS AND RESULTS: In the study on fertility and early embryonic development (dose levels 0-5-20-80 mg/kg bw/day), doses inducing clinical and organ toxicity were used. Only in severe toxicity conditions, a reduction of the number of estruses, a prolonged time to insemination, decreased numbers of corpora lutea, implantation sites, and viable fetuses were found. Two developmental toxicity studies were performed in rats (dose levels 0-1-2 mg/kg bw/day) and rabbits (dose levels 0-2.5-5.0-7.5 mg/kg bw/day). It was shown that rats were about 5 times more sensitive than rabbits. In rats, artemisone induced total litter loss (late resorptions) at 2 mg/kg body weight and above with an increased incidence of a common vascular variation and retarded ossification at this dose. In rabbits, maternal toxicity, abortion and a slightly increased incidence of cardiac ventricular septal defects was observed at 7.5 mg/kg body weight. In a pre- and postnatal developmental toxicity study in rats (dose levels 0-1-2-4 mg/kg bw/day), 4 mg/kg body weight artemisone induced clinical symptoms and affected postnatal survival, body weight gain in the F1 pups, and motor activity. CONCLUSIONS: In summary, artemisone was shown to be embryo- and fetotoxic and induced cardiac ventricular septal defects and retarded ossification in dosages where total litter loss and abortions were observed. However, no effect on reproductive and developmental parameters below severe toxic dosages could be observed. Birth Defects Res (Part B)86: 131-143, 2009. © 2009 Wiley-Liss, Inc.     

Species Differences in Developmental Toxicity of Epoxiconazole and Its Relevance to Humans

Epoxiconazole, a triazole‐based fungicide, was tested in toxicokinetic, prenatal and pre‐postnatal toxicity studies in guinea pigs, following oral (gavage) administration at several dose levels (high dose: 90 mg/kg body weight per day). Maternal toxicity was evidenced by slightly increased abortion rates and by histopathological changes in adrenal glands, suggesting maternal stress. No compound‐related increase in the incidence of malformations or variations was observed in the prenatal study. In the pre‐postnatal study, epoxiconazole did not adversely affect gestation length, parturition, or postnatal growth and development. Administration of epoxiconazole did not alter circulating estradiol levels. Histopathological examination of the placentas did not reveal compound‐related effects. The results in guinea pigs are strikingly different to those observed in pregnant rats, in which maternal estrogen depletion, pathological alteration of placentas, increased gestation length, late fetal death, and dystocia were observed after administration of epoxiconazole. In the studies reported here, analysis of maternal plasma concentrations and metabolism after administration of radiolabeled epoxiconazole demonstrated that the different results in rats and guinea pigs were not due to different exposures of the animals. A comprehensive comparison of hormonal regulation of pregnancy and birth in murid rodents and primates indicates that the effects on pregnancy and parturition observed in rats are not applicable to humans. In contrast, the pregnant guinea pig shares many similarities to pregnant humans regarding hormonal regulation and is therefore considered to be a suitable species for extrapolation of related effects to humans. Birth Defects Res (Part B) 98:230–246, 2013. © 2013 Wiley Periodicals, Inc.     

Developmental toxicity assessment of thermoresponsive poly(N-isopropylacrylamide-co-acrylamide) oligomers in CD-1 mice

BACKGROUND: Although polymers and hydrogels are used successfully in biomedical applications, including implants and drug delivery devices, smaller molecular weight oligomers, such as those investigated here, have not been extensively studied in vivo. Poly(N‐isopropylacrylamide‐co‐acrylamide), or P(NIPAAm‐co‐AAm), has a unique thermoresponsive behavior and is under investigation as a novel drug delivery system for metastatic cancer treatment. To date, no studies have been published regarding the safety of P(NIPAAm‐co‐AAm) to the conceptus. METHODS: From gestation days (GD) 6–16, pregnant CD‐1 mice were dosed via i.p. injection with aqueous solutions containing 500, 750, or 1,000 mg/kg/d P(NIPAAm‐co‐AAm). Dams were sacrificed on GD 17 and their litters were examined for abnormalities. RESULTS: P(NIPAAm‐co‐AAm) caused no statistically significant difference in maternal weight gain or percent resorbed or dead fetuses compared to control values, but fetal weight was significantly decreased in the two highest dosage groups. CONCLUSIONS: At the highest dosages employed, maternal exposure to P(NIPAAm‐co‐AAm) was associated with decreased fetal weight. However, as the estimated human exposure levels for persons using this system would be some 1,500‐fold lower than the lowest dosage administered in this study, the authors feel that this oligomer was not shown to pose a biologically significant risk at relevant human dosages. Birth Defects Res (Part B), 2008. © 2008 Wiley‐Liss, Inc.     

Developmental Toxicity Studies with Pregabalin in Rats: Significance of Alterations in Skull Bone Morphology

Pregabalin was administered to pregnant Wistar rats during organogenesis to evaluate potential developmental toxicity. In an embryo‐fetal development study, compared with controls, fetuses from pregabalin‐treated rats exhibited increased incidence of jugal fused to maxilla (pregabalin 1250 and 2500 mg/kg) and fusion of the nasal sutures (pregabalin 2500 mg/kg). The alterations in skull development occurred in the presence of maternal toxicity (reduced body weight gain) and developmental toxicity (reduced fetal body weight and increased skeletal variations), and were initially classified as malformations. Subsequent investigative studies in pregnant rats treated with pregabalin during organogenesis confirmed the advanced jugal fused to maxilla, and fusion of the nasal sutures at cesarean section (gestation day/postmating day [PMD] 21) in pregabalin‐treated groups. In a study designed to evaluate progression of skull development, advanced jugal fused to maxilla and fusion of the nasal sutures was observed on PMD 20–25 and PMD 21–23, respectively (birth occurs approximately on PMD 22). On postnatal day (PND) 21, complete jugal fused to maxilla was observed in the majority of control and 2500 mg/kg offspring. No treatment‐related differences in the incidence of skull bone fusions occurred on PND 21, indicating no permanent adverse outcome. Based on the results of the investigative studies, and a review of historical data and scientific literature, the advanced skull bone fusions were reclassified as anatomic variations. Pregabalin was not teratogenic in rats under the conditions of these studies     

Modulation of a Recombinant Glycine Transporter (GLYT1b) by Activation of Protein Kinase C

Abstract: Treatment of human embryonic kidney cells (HEK 293 cells) expressing the mouse glycine transporter 1 (GLYT1b) with the protein kinase C (PKC) activator phorbol 12-myristate 13-acetate (PMA) decreased specific [³H]glycine uptake. This down-regulation resulted from a reduction of the maximal transport rate and was blocked by the PKC inhibitors 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7) and staurosporine. The inhibitory effect of PMA treatment was also observed after removing all five predicted phosphorylation sites for PKC in GLYT1b by site-directed mutagenesis. These data indicate that glycine transport by GLYT1b is modulated by PKC activation; however, this regulation may involve indirect phosphorylation mechanisms.     

Developmental toxicity research of ginsenoside Rb1 using a whole mouse embryo culture model

BACKGROUND: Ginseng has been widely used around the world for many years. Knowledge is limited, however, on its effects on embryonic development. METHODS: Whole embryo culture was used to explore the developmental toxicity of ginsenoside Rb1 (GRb1) on mouse embryos. All embryos were exposed to different concentrations of GRb1, and scored for their growth and differentiation at the end of the 48-hr culture period. RESULTS: Total morphological score decreased significantly at the concentration of GRb1 of 30 microg/ml and was further reduced at 50 microg/ml. Yolk sac was affected at the lower concentration of 15 microg/ml. Developments of midbrain, forebrain, and optic system were relatively sensitive to GRb1 and were affected at the concentration of 30 microg/ml. Allantois, flexion, branchial arch, and limb buds were affected at 50 microg/ml. At this concentration, the embryonic crown-rump length, head length, and somite number were also reduced significantly compared to the control group. CONCLUSIONS: These results suggest that GRb1 has teratogenic effect during the mouse organogenetic period. We suggest that before more data in humans is available, ginseng should be used with caution by pregnant women in the first trimester.     

Embryo‐Fetal Developmental Toxicity Studies with Pregabalin in Mice and Rabbits

Pregabalin was evaluated for potential developmental toxicity in mice and rabbits. Pregabalin was administered once daily by oral gavage to female albino mice (500, 1250, or 2500 mg/kg) and New Zealand White rabbits (250, 500, or 1250 mg/kg) during organogenesis (gestation day 6 through 15 [mice] or 6 through 20 [rabbits]). Fetuses were evaluated for viability, growth, and morphological development. Pregabalin administration to mice did not induce maternal or developmental toxicity at doses up to 2500 mg/kg, which was associated with a maternal plasma exposure (AUC_0–24) of 3790 μg?hr/ml, ≥30 times the expected human exposure at the maximum recommended daily dose (MRD; 600 mg/day). In rabbits, treatment‐related clinical signs occurred at all doses (AUC_0–24 of 1397, 2023, and 4803 μg?hr/ml at 250, 500, and 1250 mg/kg, respectively). Maternal toxicity was evident at all doses and included ataxia, hypoactivity, and cool to touch. In addition, abortion and females euthanized moribund with total resorption occurred at 1250 mg/kg. There were no treatment‐related malformations at any dose. At 1250 mg/kg, compared with study and historical controls, the percentage of fetuses with retarded ossification was significantly increased and the mean number of ossification sites was decreased, which correlated with decreased fetal and placental weights, consistent with in utero growth retardation. Therefore, the no‐effect dose for developmental toxicity in rabbits was 500 mg/kg, which produced systemic exposure approximately 16‐times human exposure at the MRD. These findings indicate that pregabalin, at the highest dose tested, was not teratogenic in mice or rabbits     

大豆籽粒大小的发育遗传分析

籽粒大小是大豆产量的一个重要因素。有关大豆籽粒的遗传学和生理生态学研究已有一些研究,而对于籽粒发育过程中的遗传效应却报道很少。文章采用种子广义遗传模型,分析了大豆双列杂交组合3个世代遗传材料8个时期的鲜籽粒大小和干籽粒大小的数据,应用非条件和条件遗传方差及相关方法分析了发育遗传规律。8个时期的亲本、F1、F2的鲜籽粒大小和干籽粒大小的平均数分别在9／6和9／13达到最高值,鲜籽粒大小在9／6后迅速下降,干籽粒大小在9／13后区于稳定。非条件方差分析表明在整个生育期中,胚遗传效应、细胞质遗传效应和母体植株遗传效应对大豆鲜籽粒大小和干籽粒大小有影响。在多数生育阶段中,细胞质和母体植株的遗传效应对鲜籽粒大小和干籽粒大小影响较大。条件方差分析表明,在大豆生育期中,各遗传体系的基因间断性表达。在多数生育阶段中,细胞质和母体植株的净遗传效应高于胚净遗传效应。不同时期的各遗传体系的基因效应可以单独或同时影响鲜籽粒大小和干籽粒大小的最终表现。8／16的胚加性效应、8／9和8／16的胚显性效应、8／2和8／16的母体植株显性效应影响到鲜籽粒大小的最终表现。8／2和9／13的胚加性效应、8／9的细胞质效应、8／2的母体植株显性效应对干籽粒大小的最终表现有影响。     

Pharmacological Characterization of a Betaine/GABA Transporter 1 (BGT1) Inhibitor Displaying an Unusual Biphasic Inhibition Profile and Anti-seizure Effects

Neurochemical Research - Focal epileptic seizures can in some patients be managed by inhibiting γ-aminobutyric acid (GABA) uptake via the GABA transporter 1 (GAT1) using tiagabine...     

Numeric Estimates of Teratogenic Severity from Embryo–Fetal Developmental Toxicity Studies

A developing organism exposed to a toxicant will have a response that ranges from none to severe (i.e., death or malformation). The response at a given dosage may be termed teratogenic (or developmental toxic) severity and is dependent on exposure conditions. Prenatal/embryo–fetal developmental (EFD) toxicity studies in rodents and rabbits are the most consistent and definitive assessments of teratogenic severity, and teratogenesis screening assays are best validated against their results. A formula is presented that estimates teratogenic severity for each group, including control, within an EFD study. The developmental components include embryonic/fetal death, malformations, variations, and mean fetal weight. The contribution of maternal toxicity is included with multiplication factors to adjust for the extent of mortality, maternal body weight change, and other parameters deemed important. The derivation of the formula to calculate teratogenic severity is described. Various EFD data sets from the literature are presented to highlight considerations to the calculation of the various components of the formula. Each score is compared to the concurrent control group to obtain a relative teratogenic severity. The limited studies presented suggest relative scores of two‐ to <fivefold higher than control have detectable but a low level of teratogenic severity, and scores ≥fivefold higher than control have increasingly more severe teratogenicity. Such scores may help refine the concept of an exposure‐based validation list for use by proponents of screening assays (Daston et al., 2014) by estimating the severity of “positive” exposures, or in other situations by defining the severity of a LOAEL (lowest observed adverse effect level)     

Developmental Toxicity Studies with Atrazine and its Major Metabolites in Rats and Rabbits

Atrazine (ATR), hydroxyatrazine (OH‐ATR), and the three chloro metabolites of ATR (deethylatrazine [DEA], deisopropylatrazine [DIA], diaminochlorotriazine [DACT]) were evaluated for developmental effects in rats and rabbits. Three developmental toxicity studies were conducted on ATR in rats (two studies) and rabbits and a developmental toxicity study was conducted in rats for each of the four ATR metabolites DEA, DIA, DACT, and OH‐ATZ. ATR administration by gavage to pregnant rats and rabbits from implantation (gestation day [GD] 6 in rat, GD 7 in rabbit) through closure of the palate (GD 15 in rat and GD 19 in rabbit) did not statistically significantly alter the incidence of developmental abnormalities or malformations at dose levels up to 100 (rat) or 75 (rabbit) mg/kg bw/day. There were no effects on developmental toxicity parameters for DEA, DIA, DACT, or OH‐ATR at oral dose levels up to 100, 100, 150, or 125 mg/kg bw/day, respectively, with the exception of reductions in fetal body weight by DACT and OH‐ATR in the presence of decreased maternal body weight gain. ATR did not adversely affect developmental end points in a two‐generation study conducted in rats exposed to dose levels up to 500 ppm (38.7 mg/kg/day) in the diet. The 500‐ppm dose level resulted in significantly reduced maternal body weight gain. Overall, data show that neither ATR nor its metabolites statistically significantly affected rat or rabbit embryo‐fetal development even at dose levels producing maternal toxicity.