Prenatal ossification as an indicator of exposure to toxic agents

Decrypting the skeletal toxicity of vertebrates caused by environmental pollutants from an evolutionary perspective: From fish to mammals

The rapid development of modern society has led to an increasing severity in the generation of new pollutants and the significant emission of old pollutants, exerting considerable pressure on the ecological environment and posing a serious threat to both biological survival and human health. The skeletal system, as a vital supportive structure and functional unit in organisms, is pivotal in maintaining body shape, safeguarding internal organs, storing minerals, and facilitating blood cell production. Although previous studies have uncovered the toxic effects of pollutants on vertebrate skeletal systems, there is a lack of comprehensive literature reviews in this field. Hence, this paper systematically summarizes the toxic effects and mechanisms of environmental pollutants on the skeletons of vertebrates based on the evolutionary context from fish to mammals. Our findings reveal that current research mainly focuses on fish and mammals, and the identified impact mechanisms mainly involve the regulation of bone signaling pathways, oxidative stress response, endocrine system disorders, and immune system dysfunction. This study aims to provide a comprehensive and systematic understanding of research on skeletal toxicity, while also promoting further research and development in related fields.

Teratogenic Evaluation of 80% Ethanol Extract of Embelia schimperi Vatke Fruits on Rat Embryo and Fetuses

Introduction

Embelia schimperi Vatke (family Myrsinaceae) is a commonly consumed anthelminthic plant in Ethiopia. The plant has significant efficacy in treating intestinal worms. However, there are limited data about the safety/toxicity of the plant. Moreover, the teratogenic effect of the plant is not yet well studied despite significant number of Ethiopian mothers consuming herbal medication during their pregnancy.

Purpose

This study aimed to evaluate the teratogenic effect of the hydroalcoholic extract of E. schimperi fruit on rat embryos and fetuses.

Methods

Pregnant albino Wistar rats were treated with 80% hydroalcoholic fruit extract of E. schimperi at 250 mg/kg, 500 mg/kg, and 1000 mg/kg dosage, whilst the controls were pair-fed and ad libitum groups. Maternal food intake, maternal weight gain, number of implantations, number of prior resorptions, fetal viability, fetal weight, fetal and embryonic crown-ramp length, placental weight, placental gross morphology and histopathology of placental tissue, number of somites, embryonic system, gross/visceral morphological malformations, and ossification centers were evaluated as teratogenicity indices.

Results

The crude extract of E. schimperi did not exhibit a significant difference in most developmental indices including the development of a circulatory system, nervous system, and musculoskeletal systems among treated animals and the controls. However, histopathological evaluation of placentas from the treatment groups showed that inflammatory reactions and calcifications compared to the pair-fed and ad libitum controls.

Conclusion

Administration of the 80% hydroalcoholic extract of E. schimperi fruit during the period of organogenesis in rats did not show a significant toxic effect on embryonic and fetal developmental indices. However, it might affect the structural integrity of the placenta as it is evidenced by inflammatory reactions and calcifications of decidua basalis of rat placenta.

The prenatal toxic effect of methylmercury on the development of the appendicular skeleton of rat fetuses and the protective role of vitamin E

Methylmercury (MeHg) is an environmental contaminant that is found in many ecosystems. Many studies reported that MeHg toxicity is accompanied by increased lipid peroxidation that may lead to oxidative damage to DNA, RNA, and proteins. Vitamin E is considered as the most effective antioxidant preventing lipid peroxidation. The aim of this study was to evaluate the effects of MeHg exposure during pregnancy on the development of the appendicular skeleton in rat fetuses and whether vitamin E administration could reduce this toxicity. Positively mated adult female Sprague-Dawley rats were used and divided into the following experimental groups: control group, received only deionized water, and four MeHg treated groups received 1 mg of MeHg/kg/d, 2 mg of MeHg/kg/d, 1 mg of MeHg/kg/d plus 150 mg of vitamin E/kg/d, and 2 mg of MeHg/kg/d, plus 150 mg of vitamin E/kg/d starting from Day 0 of gestation. On Day 20 of gestation, the fetuses from the pregnant rats were extracted and the fetal growth parameters were evaluated. Skeletal evaluation of ossification of both fore- and hind-limbs, and coxal bones were undertaken. Results showed that treatment with MeHg caused adverse effects on fetal growth parameters and ossification of the bones. The coadministration of vitamin E with MeHg revealed an improvement in these parameters. These results suggest that vitamin E may ameliorate some aspects of MeHg developmental toxicity. The underlying and human health implications warrant further investigations.

Interactions in developmental toxicology: combined action of restraint stress, caffeine, and aspirin in pregnant mice

BACKGROUND

Stress can result in an increased use of substances such as caffeine and aspirin. The effect of maternal stress on concurrent exposure to caffeine and aspirin on prenatal development was assessed in mice.

METHODS

On gestational day 9, mice were assigned to three treatment groups orally exposed to caffeine (30 mg/kg), aspirin (250 mg/kg), or a combination of caffeine (30 mg/kg) and aspirin (250 mg/kg). Three additional groups of pregnant animals received similar caffeine and aspirin doses and were immediately subjected to restraint for 14 hr. Control groups included unrestrained and restrained pregnant mice not exposed to caffeine or aspirin. All dams were euthanized on gestational day 18. Live fetuses were evaluated for sex, body weight, and external, internal, and skeletal malformations and variations.

RESULTS

A single oral dose of caffeine or aspirin did not cause significant maternal toxicity. However, coadministration of these drugs with restraint produced some adverse maternal effects (i.e., reduction in maternal weight gain and food consumption on gestational days 9-11). In relation to embryo/fetal toxicity, the incidence of some skeletal defects was significantly increased after exposure to caffeine, aspirin, or maternal restraint, and their binary and ternary combinations.

CONCLUSIONS

Although caffeine and aspirin were given in a single dose in this study, the results suggest that prenatal stress could slightly exacerbate the maternal and developmental toxicity of the combination of these drugs in mice.

Abnormal cholesterol biosynthesis as in Smith-Lemli-Opitz syndrome disrupts normal skeletal development in the rat

Smith-Lemli-Opitz syndrome (SLOS) in human infants is a common autosomal recessive malformation syndrome (estimated incidence, 1:20,000). It is characterized clinically by congenital anomalies, especially craniofacial and limb defects, and biochemically by a defect in 7-dehydrocholesterol-delta7-reductase activity (7DHC-reductase), the final enzyme in cholesterol biosynthesis. In previous studies, early administration of the 7DHC-reductase inhibitor AY9944 to pregnant rats resulted in a high frequency of holoprosencephaly, relevant to craniofacial anomalies of SLOS. In order to test the effect of AY9944 on limb development, we treated dams on gestation day 7 (GD7), which delays the biochemical defect to about GD13 to GD14. Sera were sampled on GD12, GD14, and GD21 and cholesterol and dehydrocholesterols (7DHC and 8DHC) were measured by gas-chromatography-mass spectrometry (GC-MS), as for the diagnosis of SLOS. GD21 fetuses were examined for gross malformations and skeletal development. In treated dams, the SLOS biochemical marker 7DHC accounted for one fourth and one third of total sterols, respectively, on GD12 and GD14, and cholesterolemia on these two gestation days was reduced by 50% and 43%, respectively, as compared with control values. This maternal metabolic defect was associated with decrease in fetal weight and delayed ossification. In addition, scapular malformations were observed in four fetuses from three litters. The malformations could have been caused by the same mechanism as holoprosencephaly after early treatment with AY9944. These cholesterol-deficiency-based malformations could have a common cause in the abnormal expression of Hedgehog or other developmental gene proteins, and may thus explain various congenital polymalformative syndromes in humans, including SLOS.

Effects of a prolonged administration of valepotriates in rats on the mothers and their offspring

Valeriana officinalis L. (Valerianaceae) is widely known to be associated with sedative properties. The effects of a valepotriates mixtures on mothers and progeny were evaluated in rats. A 30-day administration of valepotriates did not change the average length of estral cycle, nor the number of estrous phases during this period. Also, there were no changes on the fertility index. Fetotoxicity and external examination studies did not show differences, although internal examination revealed an increase in number of retarded ossification after the highest doses employed--12 and 24 mg/kg. No changes were detected in the development of the offspring after treatment during pregnancy. As for temperature, valepotriates caused a hypothermizant effect after administration by the intraperitoneal route but not after oral administration. Generally, the valepotriates employed induced some alterations after administration by the intraperitoneal route, but doses given orally were innocuous to pregnant rats and their offspring.

Acetazolamide with caffeine causes exencephaly in "resistant" SWV mice

Pregnant SWV mice were treated on day 9 of gestation (PC) with 50 mg/kg of caffeine (CAFF), 200 mg/kg (LD) or 1000 mg/kg (HD) of acetazolamide (ACZM), or a combination of both agents, or on day 8 PC with both agents (ACZM + CAFF). Untreated (UNTD) and vehicle-treated (VEH) groups served as controls. The SWV strain is widely reported to be resistant to ACZM; it was resistant to ACZM or CAFF + ACZM when treated on day 9 of gestation, but a significant frequency of malformations, primarily exencephaly, was produced by ACZM + CAFF on day 8 PC. This study provides evidence that ACZM, coupled with a subteratogenic dose of caffeine can produce abnormalities in the "resistant" SWV mice, using the endpoint of exencephaly on day 8 of gestation. The mean number of ossified caudal vertebrae in day-9 treatments and ossified cervical vertebral centra in day-8 treatments were reduced. The frequency of ossification of the first cervical vertebra (C1) was reduced from 93% in UNTD to 39% in HD-ACZM day 9 PC and 69% in HD-ACZM + CAFF day 9 PC groups, and was also significantly reduced in the HD-ACZM + CAFF day-8 treated group.

Bromodeoxyuridine leaves evidence of prenatal exposure in the postnatal skeleton in CD-1 mice

Mice from two series of experiments (S1, S2) involving intraperitoneal (ip) injection of dams with 300 (High or H), 60 (Low or L), or 0 (VEH) mg 5'-bromodeoxyuridine (BUDR) per kilogram body weight (mg/kg) in water (15 mL/kg) on day seven (D7), day eight (D8), or in S2 only, day nine (D9) of gestation (9DPC), and untreated (UNTD) controls, were examined between 60 and 65 days postnatal (DPN) for 88 variations of the skeleton. In S1, 65 variants occurred, and in S2 there were 58 variants that occurred. Substantial numbers of significant differences (P less than 0.01) in frequency of occurrence (%) were seen in High dose only. The number of variants that differed from UNTD were 13, 13, 12, 15, and 11 in S1-D7H, S2-D7H, S1-D8H, S2-D8H, and S2-D9H, respectively; the average absolute difference in frequency among significantly affected variants was 16% to 20%. In the same order as above, 13, 12, 8, 10, and 9 variants differed significantly from VEH, and 9, 8, 7, 8, and 8 variants differed significantly from both UNTD and VEH. In contrast, 0, 0, 1, 1, and 0 variants differed from both UNTD and VEH in S1-D7L, S2-D7L, S1-D8L, S2-D8L, and S2-D9L, respectively. Agreement between the two series was good; 11 traits were affected in High dose litters in both series in at least 3 or 4 comparisons (compared with UNTD, VEH, in S1, S2).(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of caffeine on parameters of osteoblast growth and differentiation of a mineralized extracellular matrix in vitro

The effects of caffeine exposure on bone formation were examined using a chick osteoblast culture system. Secondary cultures of normal diploid osteoblasts were exposed to chronic doses of 0, 0.1, 0.2, or 0.4 mM caffeine beginning on day 0 through day 28. Neither the rate of cell proliferation nor cell number, as measured by total DNA, was decreased for any of the doses examined. In contrast, osteocalcin levels, alkaline phosphatase activity, and total calcium levels showed a dose-related decrease in cultures treated with caffeine. These parameters were significantly decreased at the highest dose of 0.4 mM. The reduction in total protein levels ranged from 29 to 66% of control values and was independent of dose. In contrast, total collagen levels were more affected by the dose of caffeine used. Inhibition of collagen levels was most apparent on days 17 and 21, time points during the period of active formation of the matrix immediately preceding the deposition of mineral. By day 28 collagen levels in cultures exposed to the lower doses of caffeine had returned to control levels, and only the cultures exposed to the highest dose (0.4 mM) remained significantly inhibited with respect to both collagen and mineral. Histochemically, alkaline phosphatase and mineral staining of day 28 cultures mirrored the biochemical events with the 0.4 mM caffeine exposure. The results indicate that one of the effects of caffeine on bone development is to inhibit the formation of a competent extracellular matrix during the osteoblast differentiation sequence, which results in the inhibition of mineralization analogous to the delayed ossification observed in fetal animals after prenatal caffeine exposure.

Potentiating effect of caffeine on the teratogenicity of acetazolamide in C57BL/6J mice

Pregnant C57BL/6J mice were treated with 0 or 50 mg of caffeine (CAFF) per kg, and 0, 200 mg/kg (L) or 1,000 mg/kg (H) of acetazolamide (ACZM) during day 9 of gestation (9DPC). Individual fetuses were examined for gross morphological abnormalities and skeletal variations. The increase in fetal malformations seen, especially right forelimb electrodactyly, was augmented at both dose levels of acetazolamide by concomitant exposure to caffeine. Both frequency and severity of ectrodactyly were potentiated by caffeine. Skeletal examination revealed a reduction of the number of ossified cervical and caudal vertebral centra among litters exposed to ACZM at either dose. In either case (ACZM-H, ACZM-L) that effect was augmented by co-administration of CAFF. The first cervical vertebra (C1) appeared to provide the most sensitive index of teratogenic exposure. This study provides evidence that a subteratogenic dose of caffeine can potentiate the teratogenic effect of acetazolamide in C57BL/6J mice when dams are treated on day 9 of gestation. In addition, skeletal examination provided evidence that simultaneous treatment with both agents delayed fetal development. Many litters exposed to ACZM or both agents displayed a reduction in skeletal ossification even in the absence of gross morphological abnormalities, suggesting that ossification can be used as an indicator of prenatal exposure to potentially harmful substances in the C57BL/6 mouse strain.

Prenatal and postnatal assessment of Maneb-exposed CD-1 mice

Skeletons of CD-1 mice exposed in utero during days 6 to 15 of gestation by gavage of their dams with 1200 mg/kg/day of Maneb in 1.0% carboxymethylcellulose (CMC), were examined between 60 and 65 days postnatal (DPN) for the 88 variants of the skeletal variant assay system (SVAS). Of the 58 variants that appeared, 13 differed (P less than 0.01) from untreated (UNTD), and 15 from vehicle-treated (VEH), despite absence of malformations at birth, weaning, or time of sacrifice. Major changes in frequencies of Parted Frontals, Abnormal Metoptic Roots, Reduced Articular Processes of the Thoracic (Th) Vertebrae, and Carpal Fusions occurred. Several variants affecting the Spinous Process of Th2 occurred in significant proportions as an unusual effect of this compound. In a series of 20 Maneb-treated litters dissected at 18 days post coitus (DPC), of 168 live fetuses, 9 had minor abnormalities, one was exencephalic, and 14 showed growth retardation. Prenatal mortality (20%) was higher than in UNTD (7.5%); litter size and litter weight were not significantly reduced. Ossification of cervical vertebral centra, and caudal vertebrae were significantly reduced, sternebra and limb ossification were not. Occurrence of 14-Ribs was increased. Although maternal mortality complicates interpretation, both traditional prenatal and postnatal examination focusing primarily on the skeleton revealed effects of exposure in the absence of frank malformations.