Fetal Exposure to Acetochlor Impaired Cognitive Function in Rats via Abnormal Gut Microbiome and Metabolic Disorders

Background: Current evidence has shown that acetochlor has adverse effects on health, which has been widely used in agricultural production, while the evidence on the effects of fetal acetochlor exposure on nervous system is quite limited. The fetus period is the most sensitive window period in the whole lifetime to external stimuli. Therefore, we established a rat model fetal exposed to acetochlor. Results: Impaired cognitive function, abnormal gut microbiome and significant changes in the hippocampus and colon could be observed in the acetochlor-exposed group. We also observed remarkable impairment in the hippocampal cells in the histomorphology observation. Fecal microbiota transplantion(FMT) was performed to elucidate whether the gut microbiome mediated the acetochlor-induced abnormal behavior. Then the proteomics analysis and metabonomics analysis in the hippocampus indicated that differential expression proteins were mainly enriched in amino acid neurotransmitter-related pathways, long-term potentiation, and synaptic-related pathways and differential metabolite were mainly enriched in mutiple neurotransmitter-related pathways. Then we observed remarkable changes in the Camk2b/Erk1/2/NF-κB pathway and Prkaca/p-CREB1/BDNF pathway in the FMT group, which may cause abnormal cognitive behaviors. Conclusions: Our results demonstrate that fetal exposure to acetochlor could induce abnormal behaviors in rats via disrupting the intestinal microbiome.

Pharmacokinetics of Baclofen in a Full-Term Newborn after Intrauterine Exposure: A Case Report

Intrauterine exposure to baclofen can lead to syndrome of withdrawal during the first days of the newborn. We report the case of a full-term baby exposed to baclofen during pregnancy. The mother was treated with baclofen 10 mg 4 times daily. Blood samples were collected from the mother before entering labor and from the baby at H0, H11, H31, and H102 after birth to measure baclofen concentrations and monitor its elimination. Baclofen maternal and neonate pharmacokinetics (PK) and placental transfer were assessed using a physiologically based PK model. Baclofen PK in the neonate after birth followed a monoexponential elimination with a half-life of 10 h, 3-fold longer than that in adults. The newborn was monitored for 11 days without experiencing any symptoms of withdrawal. Reducing baclofen dosing regimen of the mother to the lowest and therefore reducing fetal exposure to baclofen is essential. This case reports for the first time the baclofen pharmacokinetic profile in a newborn.

Non-Nutritive Sweeteners in Human Amniotic Fluid and Cord Blood: Evidence of Transplacental Fetal Exposure

Objective This study aimed to investigate human fetal exposure to non-nutritive sweeteners (NNS) by analyzing amniotic fluid and umbilical cord blood. Study Design Concentrations of four NNS (acesulfame-potassium [ace-K], saccharin, steviol glucuronide, and sucralose) were measured in amniotic fluid (n = 13) and cord blood samples (n = 15) using liquid chromatography-mass spectrometry. Amniotic fluid samples were obtained for research purposes at the time of term elective cesarean birth or clinically indicated third trimester amnioreduction at Mercy Hospital for Women (Melbourne, Australia). All except four women were in the fasting state. Cord blood samples were obtained from an independent cohort of newborns whose mothers were enrolled in a separate clinical trial at the National Institutes of Health. Results Ten of 13 amniotic fluid samples contained at least one NNS (ace-K, saccharin, steviol glucuronide, and/or sucralose). Maximum amniotic fluid NNS concentrations of ace-K, saccharin, steviol glucuronide, and sucralose were 78.9, 55.9, 93.5, and 30.6 ng/mL, respectively. Ace-K and saccharin were present in 100% and 80% of the cord blood samples, with maximal concentrations of 6.5 and 2.7 ng/mL, respectively. Sucralose was not detected and steviol glucuronide was not measurable in any of the cord blood samples. Conclusion Our results provide evidence of human transplacental transmission of NNS. Based on results predominantly obtained from rodent models, we speculate that NNS exposure may adversely influence the offsprings' metabolic health. Well-designed, prospective clinical trials are necessary to understand the impact of NNS intake during pregnancy on human development and long-term health. Key Points

Abstract MP237: Multi-omics Profiling Reveals Stearoylcarnitine As A Novel Biomarker Of Cardiometabolic Disease Development In Rat Offspring Exposed To Gestational Diabetes

Through unknown mechanisms, fetal exposure to gestational diabetes mellitus (GDM) increases the risk for cardiovascular disease development later in life. We hypothesize that fetal exposure to GDM alters offspring cardiomyocyte metabolism and left ventricular (LV) function with age. To induce GDM, female rats were fed a high fat (45% kcal) and sucrose diet prior to mating, throughout pregnancy and lactation. Lean controls received a low fat (10% kcal) diet. Fetal rat ventricular cardiomyocytes (FRVC) were isolated from e20 offspring for U-13C glucose metabolic flux analysis, mitochondrial respiration and calcium handling. The cardiac transcriptome and metabolome were measured in 3-month old offspring. LV morphology and function was assessed in the offspring from e18 to 12-months of age by transthoracic ultrasound. Offspring exposed to GDM exhibited increased LV posterior wall thickness and impaired LV filling across their life course (fetal to 12-months of age; p<0.05). Consistent with the development of diastolic dysfunction in vivo, alterations in calcium flux and sarcoplasmic reticulum-dependent calcium re-uptake (1.5 and 1.6-fold greater, respectively) were observed in FRVC isolated from GDM offspring (p<0.05). When FRVC were treated with isoproterenol, U-13C glucose metabolic flux through glycolysis and the citric acid cycle was reduced in GDM offspring, compared to Lean controls. In 3-month old GDM offspring serum and cardiac metabolomics revealed an altered acylcarnitine profile, with specific elevation in long chain acylcarnitine species including stearoylcarnitine. Alterations in the metabolome corresponded to changes in gene expression patterns identified by RNA-Seq associated with glucose metabolism and fatty acid transport pathways (e.g. Irs2, Slc2a4, Pfkfb2, Pdk4 and Cpt1a). These alterations corresponded with mitochondrial dysfunction, impaired cardiomyocyte metabolic flux and contractility, in concert with LV hypertrophy and diastolic dysfunction in the rat offspring. Multi-omics profiling reveals stearoylcarnitine as a novel biomarker and implicates mitochondrial oxidative metabolism as a mechanism that links early-life GDM exposure to the development of cardiovascular disease later in life.

Multigenerational endometriosis : consequence of fetal exposure to diethylstilbestrol ?

Background Endometriosis, which affects 10–15 % of women of reproductive age, is an estrogen-driven condition influenced by environmental and genetic factors. Exposition to estrogen-like endocrine-disrupting chemicals (EDCs) has been reported to contribute to the fetal origin of this disease. Case presentation We report here an informative family in which all prenatally DES-exposed daughters and subsequent granddaughters presented endometriosis, whereas the unexposed first daughter and her progeny presented no gynecological disorders. Moreover, the only post-pubertal great-granddaughter, who presents chronic dysmenorrhea that remains resistant to conventional therapy, is at risk of developing endometriosis. The mother (I-2) was prescribed DES (30 mg/day for 3 months) to inhibit lactation after each delivery. Conclusions Although a direct causal link between the grandmother’s treatment with DES and the development of endometriosis in possibly three exposed generations remains speculative, this report strengthens the suspicion that fetal exposition to DES contributes to the pathogenesis of adult diseases, such as endometriosis. It also highlights a multigenerational and likely transgenerational effect of EDCs.