Maternal lead exposure during lactation persistently impairs testicular development and steroidogenesis in male offspring

Lead (Pb) is a testicular toxicant. In the present study, we investigated the effects of maternal Pb exposure during lactation on testicular development and steroidogenesis in male offspring. Maternal mice were exposed to different concentration of lead acetate (200 or 2000 ppm) through drinking water from postnatal day (PND) 0 to PND21. As expected, a high concentration of Pb was measured in the kidneys and liver of pups whose mothers were exposed to Pb during lactation. In addition, maternal Pb exposure during lactation elevated, to a less extent, Pb content in testes of weaning pups. Testis weight in weaning pups was significantly decreased when maternal mice were exposed to Pb during lactation. The level of serum and testicular T was reduced in Pb‐exposed pups. The expression of P450scc, P450_17α and 17β‐HSD, key enzymes for T synthesis, was down‐regulated in testes of weaning pups whose mothers were exposed to Pb during lactation. Interestingly, the level of serum and testicular T remained decreased in adult offspring whose mothers were exposed to Pb during lactation. Importantly, the number of spermatozoa was significantly reduced in Pb‐exposed male offspring. Taken together, these results suggest that Pb could be transported from dams to pups through milk. Maternal Pb exposure during lactation persistently disrupts testicular development and steroidogenesis in male offspring. Copyright © 2012 John Wiley & Sons, Ltd.     

Maternal fenvalerate exposure during pregnancy persistently impairs testicular development and spermatogenesis in male offspring

Fenvalerate, a widely used pyrethroid insecticide, has been associated with poor semen quality. As yet, little is known about the effects of prenatal fenvalerate exposure on testicular development. The present study investigated the effects of prenatal fenvalerate exposure on testicular development and spermatogenesis. The pregnant mice were administered fenvalerate (30 mg/kg) by gavage daily from gestational day (gd) 13 to gd 18. The weights of testes and epididymides were significantly decreased in mice whose mothers were exposed to fenvalerate during pregnancy. Importantly, maternal fenvalerate exposure during pregnancy markedly decreased the number of mature seminiferous tubules (stages VII and VIII) in testes of adult male offspring. In addition, maternal fenvalerate exposure during pregnancy significantly reduced the number of epididymal spermatozoa in adult male offspring. Additional experiments showed that the level of serum testosterone (T) was significantly decreased in male fetuses whose mothers were exposed to fenvalerate during pregnancy. Correspondingly, mRNA and protein levels of P450_17α, a T synthetic enzyme, were significantly decreased in fetal testes. Moreover, the disruptive effect of prenatal fenvalerate exposure on testicular T synthesis was irreversible. In conclusion, prenatal fenvalerate exposure irreversibly impairs testicular development and spermatogenesis at least into early adulthood.     

Pre-pubertal exposure of cytarabine-induced testicular atrophy,impaired spermatogenesis and germ cell DNA damage in SD rats

Context: Cytarabine (Ara-C) is an effective chemotherapeutic drug for the treatment of acute leukaemias. It inhibits the DNA synthesis and repair, thereby causes cytotoxicity in the proliferating cells.

Objective: This study was aimed to investigate the effects of pre-pubertal exposure of Ara-C on testesticular development in juvenile SD rats and their function at puberty.

Materials and methods: Ara-C was injected at the doses of 50, 100 and 200?mg/kg/day from postnatal day (PND) 29–42 (14 days) by intraperitoneal (i.p.) route. Half of the animals were sacrificed on PND 43 and remaining on PND 70. End points of the evaluation included gross pathological examination, histomorphometric analysis, sperm count and sperm head morphology, cell proliferation and DNA damage as well as apoptosis analysis.

Results: Ara-C treatment significantly decreased food and water intake, weight gain, testes and epididymis weight and increased histological alterations in the seminiferous tubule. Furthermore, Ara-C treatment significantly decreased the PCNA-positive cells and sperm count in a dose-dependent manner. Ara-C treatment also increased the DNA damage and apoptosis in testes and sperm as evident from the comet and TUNEL assays results.

Discussion: The present study results clearly indicated that Ara-C treatment impaired spermatogenesis and adversely affects the testicular development and its function in rats by reducing the germ cell proliferation and the inducing DNA damage and apoptosis.     

Lactational fenvalerate exposure permanently impairs testicular development and spermatogenesis in mice

Fenvalerate, a widely used synthetic pyrethroid insecticide, has been associated with poor semen quality in human being. However, little is known about the effects of lactational fenvalerate exposure on testicular development and spermatogenesis. The purpose of the present study was to investigate the effects of maternal fenvalerate exposure during lactation on testicular development and spermatogenesis in male offspring. Maternal mice were administered with fenvalerate (60 mg/kg) by gavage daily from postnatal day (PND) 0 to PND21. Lactational fenvalerate exposure markedly decreased the absolute and relative weights of testes and increased the number of apoptotic cells in testes of pups at weaning. Histological examinations showed abnormal seminiferous tubules with large vacuoles or complete spermatogenic failure in testes of fenvalerate-treated mice at weaning. Additional experiment showed that lactational fenvalerate exposure markedly reduced mRNA and protein levels of testicular P450scc, a testosterone (T) synthesis enzyme. Consistent with down-regulation of testicular P450scc, the level of serum and testicular T at weaning was significantly decreased in pups whose mothers were exposed to fenvalerate during lactation. Although the expression of testicular P450scc and serum and testicular T in adulthood restored to control level, the decreased weight of testes and histological changes were irreversible. Importantly, the percentage of mature seminiferous tubules (stages VII and VIII) and the number of spermatozoa were obviously decreased in adult male mice whose mothers were exposed to fenvalerate during lactation. Taken together, these results suggest that lactational fenvalerate exposure permanently impairs testicular development and spermatogenesis.     

Chronic exposure to perfluorononanoic acid impairs spermatogenesis,steroidogenesis and fertility in male mice

Perfluoroalkyl acids (PFAAs) are widely used in commercial applications and that they are ubiquitous and persistent in the environment. Perfluorononanoic acid (PFNA), a member of PFAAs, has been detected in human and wildlife. Previous acute exposure studies have shown the adverse effect of PFNA on the testis. The present study was aimed to examine the effect of chronic PFNA exposure, from prepuberty to adulthood, on testicular functions and fertility in Parkes (P) male mice and to investigate the possible mechanism(s) of its action. PFNA (0.2 and 0.5 mg/kg) was orally administered to P male mice for 90 days from prepuberty (postnatal day [PND] 25) to adulthood (PND 114). Histologically, testes in PFNA‐treated mice showed non‐uniform degenerative changes in the seminiferous tubules. The treatment also had adverse effects on testicular expression of steroidogenic markers, serum levels of cholesterol and testosterone, sperm parameters and on litter size. A marked increase in the level of lipid peroxidation and decrease in the activities of antioxidant enzymes were observed in the testis of PFNA‐treated mice compared to controls. Further, a significant decrease in expression of proliferating cell nuclear antigen (PCNA) and in the number of PCNA‐positive cells, and an increase in expression of caspase‐3 were also noted in PFNA‐treated mice testis. In conclusion, the results suggest that chronic exposure to PFNA in male mice interferes with testosterone biosynthesis and causes oxidative stress in the testis, leading to alterations in spermatogenesis, sperm quality and fertility potential.     

Protective effect of lycopene on oxidative stress and antioxidant status in Cyprinus carpio during cypermethrin exposure

The aim of this study was to investigate the ameliorative properties of lycopene against the toxic effects of cypermethrin (CYP) by examining oxidative damage markers such as lipid peroxidation and the antioxidant defense system components in carp (Cyprinus carpio). The fish were divided into seven groups of 10 fish each and received the following treatments: group 1, no treatment; group 2, orally administered corn oil; group 3, oral lycopene (10 mg/kg body weight); group 4, exposure to 0.202 μg/L CYP; group 5, exposure to 0.202 μg/L CYP plus oral administration of 10 mg/kg lycopene; group 6, exposure to 0.404 μg/L CYP; and group 7, exposure to 0.404 μg/L CYP plus oral administration of 10 mg/kg lycopene. Treatment was continued for 28 days, and at the end of this period, blood and tissue (liver, kidney, and gill) samples were collected. Levels of malondialdehyde (MDA) and reduced glutathione (GSH) as well as superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GSH‐Px) activities were determined in blood and tissues for measurement of oxidant‐antioxidant status. MDA level, as an index of lipid peroxidation, increased in blood and tissues. Antioxidant enzyme activities in blood and tissues were modified in CYP groups compared with controls. Administration of lycopene ameliorated these parameters. The present results suggest that administration of lycopene might alleviate CYP‐induced oxidative stress. © 2011 Wiley Periodicals, Inc. Environ Toxicol 28:609–616, 2013.     

Pubertal cadmium exposure impairs testicular development and spermatogenesis via disrupting testicular testosterone synthesis in adult mice

Cadmium (Cd) is a well-known testicular toxicant. However, the effects of pubertal Cd exposure on testicular development and spermatogenesis remained to be elucidated. The present study investigated the effects of pubertal Cd exposure on testicular development and spermatogenesis. Male CD-1 mice were intraperitoneally injected with CdCl₂ (1 mg/kg) daily from postnatal day 35 (PND35) to PND70. As expected, pubertal Cd exposure significantly decreased the number of spermatozoa in epididymides. In addition, pubertal Cd exposure markedly reduced the weights of testes, epididymides and prostate and seminal vesicle in adult mice. A significant decrease in serum and testicular testosterone (T) was observed in mice exposed to Cd during puberty. Moreover, pubertal Cd exposure markedly reduced mRNA and protein levels of testicular StAR, P450scc, P450_17α and 17β-HSD. Taken together, these results suggest that the decreased testicular T synthesis might partially contribute to pubertal Cd-induced impairment on testicular development and spermatogenesis in mice.     

Maternal nicotine exposure during gestation and lactation induces cardiac remodeling in rat offspring

The aim of this study was to evaluate the effects of maternal nicotine exposure on heart morphology and fibrosis in rat offspring. Nicotine was administered to pregnant Sprague-Dawley rats by using a subcutaneous osmotic mini-pump at a dose of 6 mg/kg/day from Gestational Days 7–21 or Gestational Day 7 to Postnatal Day 14. A control group received an equal volume of saline by the same route as nicotine. Rats born to prenatal nicotine-treated dams exhibited significantly greater cell width of cardiomyocytes, fewer cardiomyocyte nuclei number, higher β-myosin heavy chain and transforming growth factor (TGF-β1) expression, and higher collagen deposition in heart compared with rats born to normal saline-treated dams on Postnatal Days 7 and 21. Postnatal nicotine exposure further enhances these effects. We conclude that TGF-β1 may be involved in the pathogenesis of cardiac remodeling induced by maternal nicotine exposure during gestation and lactation in rat offspring.     

Maternal exposure to butyl paraben impairs testicular structure and sperm quality on male rats

Parabens are hormonally active chemicals widely used as preservatives in foods and are frequently detected in human fluids and tissues. Therefore, the objective of this study was to determine the effects of maternal butyl paraben (BP) exposure on male sexual development. Pregnant Wistar rats received corn oil (control group), or BP at doses of 10, 100, or 200 mg/kg, subcutaneously, from gestational day 12 until postnatal day 21. Our results demonstrated that developmental BP exposure significantly increased the number of adult Leydig cells and the circulating concentrations of testosterone and attenuated FSH and LH concentrations at 200 mg/kg. BP exposure adversely affected spermatogenesis kinetics at doses of 10 and 200 mg/kg and provoked a decrease in the immunostaining of EsR1 and AR at 200 mg/kg. The sperm motility was impaired at the 10 mg/kg dose, and sperm head abnormalities were increased in all BP dose groups. We suggest that BP impairs testicular structure and function in the rat, affecting sperm quality. © 2016 Wiley Periodicals, Inc. Environ Toxicol 32: 1273–1289, 2017.     

Chronic oxytocin treatment during late gestation and lactation impairs development of rat offspring

The nonapeptide oxytocin (OT) plays an important role in timing and course of parturition, and in milk ejection during lactation. Exogenously enhanced OT levels were reported to impair body development of rat offspring at birth and during postnatal stages. In the present study, this effect was further investigated by giving pregnant rats of postcoital day 17 a SC implant that delivers small amounts of OT for 2 months (approximately threefold enhancement of OT levels), and by introducing a crossfostering protocol for the offspring. A slightly reduced body weight of 5 to 7% was again observed in pups born to OT-implanted dams. When reared postnatally by OT-treated mothers, pups lost weight gain (− 7 to −10%). During the weaning period, however, body size caught up with that of control animals. When nursed by an untreated mother, this recovery took place before that period. Growth of control offspring was also hampered when placed with OT-treated mothers, but these pups failed to recover from low body weights which lasted up to at least 70 days of age (−7%). Daily urine production of the pups born of and reared by the OT-treated mothers was reduced at 1 month of age, but this effect was only transient and had disappeared at 70 days of age. Notwithstanding, the recovery of body growth, brain sizes, and cerebellar DNA, i.e., cell content was reduced in the pups born and reared by OT-treated mothers, indicative of a lasting effect on brain development. Such late brain changes were not observed in pups of OT-treated mothers nursed by untreated mothers, and in control pups nursed by both types of mothers. In conclusion, one might say that physiologically enhanced levels of maternal OT can induce subtle alterations in brain development that are potentially indicative for lasting physiological and behavioral changes in the offspring.     

Maternal exposure to triclosan impairs thyroid homeostasis and female pubertal development in Wistar rat offspring

Although the effects of triclosan have been examined in male reproductive functions, it is unknown whether this potent antibacterial agent affects pregnancy and female pubertal development. Effects of maternal exposure to triclosan on thyroid homeostasis (TH) and reproductive-tract development in female Wistar rats were thus studied. Dams were exposed daily to triclosan (0, 1, 10, or 50 mg/kg/d) from 8 d before mating to lactation day 21. Offspring were also exposed after weaning. In vivo triclosan estrogenic activity was screened by uterotrophic assay and vaginal opening (VO), with first estrus and uterus and ovarian weight determined in offspring. Dam blood samples were taken during pregnancy and lactation to examine the effect of triclosan on TH. No apparent external signs of toxicity or differences in mean numbers of implantation sites were observed in treated rats. Triclosan treatment decreased total serum T(4) and T(3) in pregnant rats and also lowered sex ratio, lowered pup body weights on postnatal day (PND) 20, and delayed VO in offspring. In addition, the highest dose of triclosan significantly reduced the live birth index (percentage) and 6-d survival index. Data indicate that triclosan impairs thyroid homeostasis and reproductive toxicity in adult rats and produces fetal toxicity in offspring exposed in utero, during lactation, and after weaning.     

Pubertal and early adult exposure to fenvalerate disrupts steroidogenesis and spermatogenesis in mice at adulthood

Fenvalerate, a pyrethroid insecticide used worldwide, has been shown to have a potentially adverse effect on male reproduction. Our earlier study showed that maternal fenvalerate exposure during lactation impaired testicular development in male offspring. In this study, we investigated the effects of pubertal and early adult exposure to fenvalerate on steroidogenesis and spermatogenesis in mice. Male mice were administered fenvalerate (60 mg/kg) by gavage daily from postnatal day 35 (PND35) to PND63. Results showed that sperm count was significantly decreased in fenvalerate‐treated mice. In addition, fenvalerate markedly decreased the layers of spermatogenic cells, disturbed the array of spermatogenic cells and increased the number of apoptotic cells in testes. The adverse effects of fenvalerate on male reproduction seemed to be associated with a decrease in serum and testicular testosterone (T). Although pubertal and early adult exposure to fenvalerate had little effect on the number of Leydig cells in testes, mRNA and protein levels of testicular T biosynthetic enzymes including P450_17α and P450scc were significantly downregulated in fenvalerate‐treated mice. In conclusion, pubertal and early adult fenvalerate exposure induces a deleterious effect on steroidogenesis and spermatogenesis in adulthood. The decreased testicular T synthesis partially contributes to fenvalerate‐induced impairment on spermatogenesis. Copyright © 2010 John Wiley & Sons, Ltd.     

Chronic exposure to cannabidiol induces reproductive toxicity in male Swiss mice

Children and adults with frequent and severe episodes of epilepsy that do not respond to standard treatments (such as carbamazepine, phenytoin and valproate) have long been prescribed cannabidiol (CBD) as an anticonvulsant drug. However, the safety of its chronic use in relation to reproduction has not been fully examined. This study aimed to assess the effects of chronic CBD exposure on the male reproductive system. CBD was orally administered to 21‐day‐old male Swiss mice at doses of 15 and 30 mg kg^?1 daily (CBD 15 and 30 groups, respectively), with a control group receiving sunflower oil, for 34 consecutive days. After a 35 day recovery period, the following parameters were evaluated: weight of reproductive organs, testosterone concentration, spermatogenesis, histomorphometry, daily sperm production and its morphology. The CBD 30 group had a 76% decrease in total circulating testosterone, but it remained within the physiological normal range (240–1100 ng dl^?1). CBD treatment induced a significant increase in the frequency of stages I–IV and V–VI of spermatogenesis, and a decrease in the frequency of stages VII–VIII and XII. A significant decrease in the number of Sertoli cells was observed only in the CBD 30 group. In both CBD groups the number of spermatozoa in the epididymis tail was reduced by 38%, sperm had head abnormalities, and cytoplasmic droplets were observed in the medial region of flagellum. These results indicated that chronic CBD exposure was associated with changes in the male reproductive system, suggesting its reproductive toxicity.     

Ultrastructural changes during spermatogenesis,biochemical and hormonal evidences of testicular toxicity caused by TBT in freshwater prawn Macrobrachium rosenbergii (De Man, 1879)

The present investigation documents the impact of tributyltin (TBT) on the ultrastructural variation of spermatogenesis in freshwater prawn Macrobrachium rosenbergii. The environmentally realistic concentration of TBT can cause damages to the endocrine and reproductive physiology of crustaceans. In this context, three concentrations viz. 10, 100, and 1000 ng/L were selected and exposed to prawns for 90 days. The TBT exposed prawn exhibited decrease the reproductive activity as evidenced by sperm count and sperm length compared to control. Histopathological results revealed the retarded testicular development, abnormal structure of seminiferous tubule, decrease in the concentration of spermatozoa, diminution of seminiferous tubule membrane, abundance of spermatocytes and vacuolation in testis of treated prawns. Ultrastructural study also confirmed the impairment of spermatogenesis in treated prawns. Furthermore, radioimmunoassay (RIA) clearly documented the reduction of testosterone level in TBT exposed groups. Thus, TBT substantially reduced the level of male sex hormone as well as biochemical constituents which ultimately led to impairment of spermatogenesis in the freshwater male prawn M.rosenbergii. © 2013 Wiley Periodicals, Inc. Environ Toxicol 29: 1171–1181, 2014.     

Effects of maternal cadmium exposure during late pregnant period on testicular steroidogenesis in male offspring

Cadmium (Cd) is a testicular toxicant and endocrine disruptor. In the present study, we investigated the effects of maternal Cd exposure during the late pregnant period on testicular development and steroidogenesis in male offspring. Pregnant mice were injected intraperitoneally with CdCl₂ (0.5 mg/kg) daily from gestational day (gd) 13 to gd 17. As expected, fetal weight and crown length were significantly decreased in pups whose mothers were exposed to Cd. Importantly, absolute and relative weights of testes were significantly decreased in male fetuses. In addition, maternal Cd exposure during pregnancy markedly reduced serum T level and downregulated the expression of steroidogenic acute regulatory (StAR) protein, P450scc, P45017α and 17β-HSD in testes of male fetuses. Interestingly, the level of serum and testicular T at adulthood remained decreased in male offspring of Cd-exposed mice. Correspondingly, the expression of testicular P450scc was downregulated in male adult offspring whose mothers were exposed to Cd during pregnancy. Fertility analysis found that the number of live fetuses per litter in F2 generation was significantly decreased in Cd-treated group. Additional experiment showed that placental Cd level was increased about 750 folds in dams injected with Cd. However, only traces of blood Cd was measured in fetuses whose mothers were exposed to Cd during the late pregnant period. Taken together, these results suggest that placenta could deter most of Cd from passing from dams to fetuses. The impairments on testicular steroidogenesis in male offspring could not be attributed to a direct action of Cd on fetal testes.     

Maternal exposure to fenarimol promotes reproductive performance in mouse offspring

Although fenarimol is a widely used chlorinated fungicide applied to fruits and vegetables and is a suspected endocrine disrupter, transgenerational studies of low doses of fenarimol exposure are not currently available. The aims of this study are to address the effect of maternal exposure to low doses of fenarimol on the reproductive performance of offspring and to investigate the expression changes of genes associated with this effect. Pregnant mice were orally exposed to low doses (0, 2, 20, and 200 μg/kg body weight) of fenarimol during gestational and lactational periods, and their offspring were assessed. The body and organ weights and anogenital distance (AGD) of mice offspring (F1) maternally exposed to fenarimol were determined, and the reproductive performances of these mice were assessed by mating and ovarian follicular and sperm analyses. Fenarimol-exposed F1 mice had shortened AGDs, increased body weight with altered organ weights, increased number of pups, increased number of ovarian follicles, and enhanced sperm quality. Microarray data showed 82 upregulated and 743 downregulated genes in the ovaries of fenarimol-exposed mice, in which Cyp17a1, Cyp19a1, and ERβ were upregulated. In addition, Nobox, a pivotal gene required for proper folliculogenesis, was significantly increased in the ovaries of F1 mice. In conclusion, maternal exposure to fenarimol promotes normal reproductive function in female mouse offspring by increasing the expression levels of genes crucial for ovarian folliculogenesis, identifying fenarimol as a chemical that stimulates reproductive performance. Thus, consumption of fenarimol-contaminated diets by mothers may possibly alter normal reproductive function of offspring in humans and wildlife.     

Maternal exposure to atrazine during lactation suppresses suckling-induced prolactin release and results in prostatitis in the adult offspring.

The availability of prolactin (PRL) to the neonatal brain is known to affect the development of the tuberoinfundibular (TIDA) neurons and, as a consequence, lead to alterations in subsequent PRL regulation. Without early lactational exposure to PRL (derived from the dam's milk), TIDA neuronal growth is impaired and elevated PRL levels are present in the prepubertal male. These observations, combined with the finding that alterations in PRL secretion (i.e., hyperprolactinemia) in the adult male rat have been implicated in the development of prostatitis, led us to hypothesize that early lactational exposure to agents that suppress suckling-induced PRL release would lead to a disruption in TIDA development, altered PRL regulation, and subsequent prostatitis in the male offspring. To test this hypothesis, suckling-induced PRL release was measured in Wistar dams treated twice daily with the herbicide atrazine (ATR, by gavage, on PND 1-4 at 0, 6.25, 12.5, 25, and 50 mg/kg body weight), or twice daily with the dopamine receptor agonist bromocriptine (BROM, sc, at 0.052, 0.104, 0.208, and 0.417 mg/kg); BROM is known to suppress PRL release. Similarly, atrazine has also been reported to suppress PRL in adult females. Serum PRL was measured on PND 3 using a serial sampling technique and indwelling cardiac catheters. A significant rise in serum PRL release was noted in all control females within 10 min of the initiation of suckling. Fifty-mg/kg ATR inhibited suckling-induced PRL release in all females, whereas 25 and 12.5 mg/kg ATR inhibited this measure in some dams and had no discernible effect in others. The 6.25 mg/kg dose of ATR was without effect. BROM, used here as a positive control, also inhibited suckling-induced PRL release at doses of 0.104 to 0.417 mg/kg, with no effect at 0.052 mg/kg. To examine the effect of postnatal ATR and BROM on the incidence and severity of inflammation (INF) of the lateral prostate of the offspring, adult males were examined at 90 and 120 days. While no effect was noted at 90 days of age, at 120 days, both the incidence and severity of prostate inflammation was increased in those offspring of ATR-treated dams (25 and 50 mg/kg). The 12.5 mg/kg ATR and the two highest doses of BROM increased the incidence, but not the severity, of prostatitis. Combined treatment of ovine prolactin (oPRL) and 25 or 50 mg/kg ATR on PND 1-4 reduced the incidence of inflammation observed at 120 days, indicating that this increase in INF, seen after ATR alone, resulted from the suppression of PRL in the dam. To determine whether or not there is a critical period for these effects, dams were dosed with 25 and 50 mg/kg on PND 6-9 and PND 11-14. Inflammation was increased in those offspring from dams treated on PND 6-9, but this increase was not significant. Dosing on PND 11-14 was without effect. These data demonstrate that ATR suppresses suckling-induced PRL release and that this suppression results in lateral prostate inflammation in the offspring. The critical period for this effect is PND 1-9.     

Pulmonary exposure to metallic nanomaterials during pregnancy irreversibly impairs lung development of the offspring

Due to the growing commercial applications of manufactured nanoparticles (NPs), toxicological studies on NPs, especially during the critical window of development, are of major importance. The aim of the study was to assess the impact of respiratory exposure to metallic and metal oxide NPs during pregnancy on lung development of the offspring and to determine the key parameters involved in lung alterations. Pregnant mice were exposed to weekly doses of 100?μg (total dose 300?μg) of titanium dioxide (TiO₂), cerium oxide (CeO₂), silver (Ag) NPs or saline solution by nonsurgical intratracheal instillation. The offspring lungs were analyzed at different stages of lung development: fetal stage (gestational day 17.5), pulmonary alveolarization (post-delivery day 14.5) and lung maturity (post-delivery day 49.5). Regardless of the type of NP, maternal exposure during gestation induced long-lasting impairment of lung development of the offspring. This effect was accompanied by: i) decreased placental efficiency together with the presence of NPs in placenta, ii) no increase of inflammatory mediators present in amniotic fluid, placenta or offspring lungs and iii) decreased pulmonary expression of vascular endothelial growth factor-α (VEGF-α) and matrix metalloproteinase 9 (MMP-9) at the fetal stage, and fibroblast growth factor-18 (FGF-18) at the alveolarization stage. Respiratory exposure to metallic NPs during pregnancy induces stereotyped impairment of lung development with a lasting effect in adult mice, independently of the chemical nature of the NP.     

Exposure to cadmium during gestation and lactation affects development and function of Leydig cells in male offspring

Toxic effects of maternal exposure to Cadmium (Cd) on Leydig cells of male offspring arises much concern recently, but its toxic effects on the development of Leydig cells and androgen synthesis have not been elucidated. In this study, female rats were exposed to Cd during gestation and lactation, and the development of Leydig cells in the first filial‐generation (F1) male rats was investigated. The steroidogenic signaling pathway and biomarkers related to the development of Leydig cells were detected to disclose how maternal Cd‐exposure caused reproductive damage. F1 male rats with maternal Cd‐exposure gained a low relative weight of testis and declined levels of steroid hormones. Maternal Cd‐exposure interrupted the development of Leydig cells with high expression of SRD5α and cell morphology of immature Leydig cells in adulthood, inhibited the activation of cyclic adenosine monophosphate/ protein kinase A signaling pathway and down‐regulated the steroidogenic enzymes. These results would help to disclose the origin of male sexual dysfunction in the developmental stages of Leydig cells.