Effects of paternal ethylene dibromide exposure on F1 generation behavior in the rat

The effects of ethylene dibromide (EDB) exposure to the male rat were studied through behavioral assessments of their F1 progeny. Exposed males were bred with untreated female rats at 4 or 9 weeks after 5 daily EDB treatments. Behavioral assessment of motor reflexes and motor coordination were examined up to 21 days of age. Significant differences in the development of motor coordination and motor activity were observed in the F1 progeny of EDB-exposed males. These results support the evidence of EDB genotoxicity and further demonstrates the utility of behavioral end-points of the offspring as a sensitive means of assessing paternal reproductive risk.     

Epistatic gene effects on the yield of the parents of F1, F2, BC1 and BC2 progeny

The genetic analysis of 5 tomato hybrids (Danubius F₁, Luna F₁, Lido F₁, Balkan F₁ and Mi-10 F₁) was made. We produced their F₁, F₂, BC₁ and BC₂ generations and analysed their yield (on the first three flower branches) as well as some of the yield components of tomato fruits (mean fruit weight, mean fruit weight on the first flower branch, fruit length, fruit width, and number of locules). In order to estimate the gene effects, we applied the additive-dominance mode with three and six parameters. Epistatic gene effects were estimated by applying the six-parameter mode (Mather and Jinks 1982). As for yield and yield components, there were significant differences between the mean values of parents and their progeny. On the basis of the investigated genetic parameters, the obtained results suggested that the additive and dominance gene effects prevailed in the yield and yield components (Danubius F₁, Luna F₁, Lido F₁, Mi-10 F₁), whereas epistatic gene effects were excluded. As for the hybrid Balkan F₁, we recorded significant gene effects, both the additive and the dominance ones in the yield inheritance: additive x additive and dominance x dominance (with the negative sign). The estimated values of the epistatic gene effects were the most prominent in inheriting the feature average fruit weight on the first flower branch — additive x dominance gene effects. They represented the most frequent type of the interallele interaction recorded in the investigated hybrids.     

Prenatal exposure: The effects of prenatal cocaine and methamphetamine exposure on the developing child

Prenatal substance use remains a significant issue in the United States. Initial reports regarding prenatal cocaine and methamphetamine exposure suggested profound adverse effects on child development. However, subsequent prospective, longitudinal investigations have found more subtle effects. What follows is a brief review of the health, growth, behavioral, and intellectual outcomes for children exposed to prenatal cocaine and prenatal methamphetamine. Factors that may mitigate or intensify subtle adverse effects manifested in exposed children will also be discussed. Birth Defects Research (Part C) 108:142–146, 2016. © 2016 Wiley Periodicals, Inc.     

Reversibility of the effects of chronic paternal exposure to cyclophosphamide on pregnancy outcome in rats

Low-dose chronic treatment of the male rat with the antitumor drug cyclophosphamide causes a time- and dose-dependent increase in pre- and post-implantation loss in the untreated females to which he is mated. The objective of the present study was to determine whether such effects are reversed, and if so at what time after cessation of drug treatment. Adult male Sprague-Dawley rats were gavage fed daily, 6 times per week for 9 weeks, with saline (control) or with 1 of 3 doses of cyclophosphamide, 1.4, 3.4 or 5.1 mg/kg/day. After the 9 weeks of treatment and at 2-week intervals thereafter, each male was mated with 2 females in proestrus. The females were caesarian sectioned 20 days later and pregnancy outcome assessed. After 9 weeks of drug treatment, pre-implantation loss increased more than 3-fold from 6% in the control group to 21% in the 5.1 mg/kg/day cyclophosphamide treatment group. Post-implantation loss increased in a dose dependent fashion from 5% in the control group to 74% in the 5.1 mg/kg/day cyclosphosphamide treatment group. Pre-implantation loss rapidly decreased upon cessation of treatment with cyclophosphamide: within 2 weeks it had returned to within the control range. Within just 2 weeks after termination of drug treatment in the 5.1 mg/kg/day cyclophosphamide treatment group, post-implantation loss decreased by half to 44%; it had decreased to 11% by 4 weeks and then was maintained at 4-6% thereafter. In the 3.4 mg/kg/day cyclophosphamide treatment group, post-implantation loss returned to the control range by 4 weeks. Thus, the effects of paternally administered cyclophosphamide on progeny outcome are reversible. The timing of reversal suggests that the effects on pre-implantation loss are due to a drug effect on spermatozoa either in the epididymis or near the time of spermiation while those on post-implantation loss are due to an additional effect on spermatids in the seminiferous tubules.     

Cholesterol esters in developing rat brain: enzymes of cholesterol ester metabolism

Abstract— Three enzymes of cholesterol ester metabolism, a cholesterol-esterifying enzyme which incorporates free fatty acids into cholesterol esters without participation of CoA, and two cholesterol ester hydrolases with differing pH optima, all showed distinct changes in developing rat brains. The specific activity of the esterifying enzyme was approx. 20 percent of the adult level at birth, increased gradually to the adult level by 20 days of age and remained constant thereafter. The pH 4.2 hydrolase at birth also had a specific activity of about 20 per cent of the adult level but it increased rapidly to reach a peak at 13 days, by which time the activity had increased eight-fold. The activity declined somewhat thereafter to reach the adult level by 23–30 days. In contrast, there already was 60 per cent of the adult specific activity of the pH 6.6 cholesterol ester hydrolase at birth. The activity remained constant until 12 days and then doubled during the next two weeks, reaching a broad peak, then declining slightly to reach the adult activity by 50 days. Therefore, the developmental changes of both of the hydrolases appeared to be related to the process of myelination. The period of active myelination (10–30 days) was characterized by the sharp rise in the activity of pH 6.6 cholesterol ester hydrolase and by the rapid decrease of pH 4.2 cholesterol ester hydrolase.     

Cytotoxic effects of methylnitrosourea on developing brain

The effect of methylnitrosourea (MNU) on cerebellar and cerebral DNA, RNA, protein, lysosomal enzymes (acid DNase, RNase, phosphatase, and beta-glucuronidase), and 2',3'-cyclic nucleotide 3'-phosphohydrolase (2',3'-CNPase) activities was studied in rats from birth through 12 days of age. Subcutaneous injection of MNU in a dose of 0.625 mmol/kg caused a suppression of increase in weights and content of DNA, RNA, and protein of cerebellum, but no changes in those of the cerebrum or in body weight. Ratios of protein and RNA to DNA were substantially elevated by MNU in the cerebellum but not in the cerebrum. Acid DNase and acid RNase activities of MNU-treated rats were significantly elevated beyond the increase of these activities in controls in the cerebellum, but no change in these activities by MNU was observed in the cerebrum. A slight elevation in acid phosphatase activity was observed in the cerebellum but not in the cerebrum after MNU pretreatment. Beta-glucuronidase and 2',3'-CNPase activities were not changed in the cerebellum or in the cerebrum. These results suggest that in the developing brain, especially in the cerebellum at the mitotic stage, MNU caused cell damage and inhibited cell mitosis.     

Prenatal and early life arsenic exposure induced oxidative damage and altered activities and mRNA expressions of neurotransmitter metabolic enzymes in offspring rat brain

To better understand the effect of arsenic on central nervous system by prenatal and early life exposure, the oxidative stress and neurotransmitter metabolic enzymes were determined in offspring rats' brain cortex and hippocampus. Forty‐eight pregnant rats were randomly divided into four groups, each group was given free access to drinking water that contained 0, 10, 50, and 100 mg/L NaAsO₂ from gestation day 6 (GD 6) until postnatal day 42 (PND 42). Once pups were weaned, they started to drink the same arsenic (As)‐containing water as the dams. The level of malondialdehyde in 100 mg/L As‐exposed pup's brain on PND 0 and cortex on PND 28 and 42 were significantly higher than in the control group (p < 0.05). Reduced glutathione (GSH) levels showed a clear decreasing trend in pup's cortex and hippocampus on PND 42. Activity of acetylcholinesterase was significantly higher in 100 mg/L As‐exposed pup's hippocampus than in control group on PND 28 and 42. mRNA expression of glutamate decarboxylase (GAD₆₅ and GAD₆₇) in 100 mg/L As‐exposed pup's cortex or hippocampus on PND 28 and 42 were significantly higher than in control (p < 0.05). These alterations in the neurotransmitters and reduced antioxidant defence may lead to neurobehavioral and learning and memory changes in offspring rats. © 2010 Wiley Periodicals, Inc. J Biochem Mol Toxicol 24:368–378, 2010; View this article online at wileyonlinelibrary.com . DOI 10.1002/jbt.20349     

Fetal alcohol exposure alters neurosteroid levels in the developing rat brain

Neurosteroids are modulators of neuronal function that may play important roles in brain maturation. We determined whether chronic prenatal ethanol exposure altered neurosteroid levels in the developing brain. Rat dams were exposed to: (i) a 5% ethanol-containing liquid diet that produces peak maternal blood alcohol levels near the legal intoxication limit (approximately 0.08 g/dL); (ii) an isocaloric liquid diet containing maltose-dextrin instead of ethanol with pair-feeding; (iii) rat chow ad libitum. Neurosteroid levels were assessed in offspring brains using radioimmunoassay or gas chromatography-mass spectrometry techniques. A prenatal ethanol exposure-induced increase in pregnenolone sulfate levels, but not dehydroepiandrosterone sulfate levels, was evident at the earliest time point studied (embryonic day 14). This effect lasted until post-natal day 5. Levels of other neurosteroids were assessed at embryonic day 20; pregnenolone levels, but not allopregnanolone levels, were elevated. Pregnenolone sulfate levels were not altered in the maternal brain. Neither pregnenolone nor pregnenolone sulfate levels were significantly altered in the fetal liver, placenta and maternal blood, indicating that the effect of ethanol is not secondary to accumulation of peripherally-produced steroids. Fetal ethanol exposure has been shown to decrease both cellular and behavioral responsiveness to neurosteroids, and our findings provide a plausible explanation for this effect.     

Neural tube-derived factors influence differentiation of neural crest cells in vitro: effects on activity of neurotransmitter biosynthetic enzymes

Previously, we have demonstrated that a factor present in chick embryo extract or medium conditioned by neural tube cells supports adrenergic differentiation of some neural crest cells in vitro. These studies have been extended here to examine the effects of this factor(s) on the development of enzymes involved in neurotransmitter biosynthesis. The time course of expression of choline acetyltransferase (ChAT), a marker for cholinergic cells, and dopamine-beta-hydroxylase (DBH), a marker for adrenergic cells, was examined in neural crest cell cultures grown under three conditions: in medium containing 10% embryo extract, in medium containing 2% embryo extract, and in medium containing 2% embryo extract that was conditioned by neural tube cells (NTCM). Significant levels of DBH activity were measured in neural crest cell cultures grown in 10% embryo extract containing medium or in NTCM, while only low levels were present in cultures grown in medium containing 2% embryo extract. In contrast, ChAT activity was inhibited by NTCM in comparison to levels in both 10 and 2% embryo extract containing medium. As a preliminary characterization of the factor(s) present in chick embryo extract, we have fractionated embryo extract and find that a pool of 10 kDa or less can support adrenergic differentiation of some neural crest cells. These results suggest that low molecular weight factors present in embryo extract and NTCM support adrenergic expression of neural crest cells, whereas NTCM suppresses cholinergic expression.     

Differential effects of ethanol on regional glutamatergic and GABAergic neurotransmitter pathways in mouse brain

This study investigates the effects of ethanol on neuronal and astroglial metabolism using ¹H‐[¹³C]‐NMR spectroscopy in conjunction with infusion of [1,6‐¹³C₂]/[1‐¹³C]glucose or [2‐¹³C]acetate, respectively. A three‐compartment metabolic model was fitted to the ¹³C turnover of Glu_C3, Glu_C4, GABA_C2, GABA_C3, Asp_C3, and Gln_C4 from [1,6‐¹³C₂]glucose to determine the rates of tricarboxylic acid (TCA) and neurotransmitter cycle associated with glutamatergic and GABAergic neurons. The ratio of neurotransmitter cycle to TCA cycle fluxes for glutamatergic and GABAegic neurons was obtained from the steady‐state [2‐¹³C]acetate experiment and used as constraints during the metabolic model fitting. ¹H MRS measurement suggests that depletion of ethanol from cerebral cortex follows zero order kinetics with rate 0.18 ± 0.04 μmol/g/min. Acute exposure of ethanol reduces the level of glutamate and aspartate in cortical region. Gln_C4 labeling was found to be unchanged from a 15 min infusion of [2‐¹³C]acetate suggesting that acute ethanol exposure does not affect astroglial metabolism in naive mice. Rates of TCA and neurotransmitter cycle associated with glutamatergic and GABAergic neurons were found to be significantly reduced in cortical and subcortical regions. Acute exposure of ethanol perturbs the level of neurometabolites and decreases the excitatory and inhibitory activity differentially across the regions of brain.

     

Segregation of random amplified DNA markers in F1 progeny of conifers

Summary The recently developed approach to deriving genetic markers via amplification of random DNA segments with single primers of arbitrary nucleotide sequence was tested for its utility in genetic linkage mapping studies with conifers. Reaction conditions were optimized to reproducibly yield clean and specific amplification products. Template DNA from several genotypes of Douglas-fir (Pseudotsuga menziesii) and white spruce (Picea glauca) were tested against eight ten-base oligonucleotide primers. Most of the tested primer/parent tree combinations yielded polymorphic PCR products (RAPD markers). Selected primers were then used in PCR reactions with template DNA isolated from offspring in Douglas-fir and black spruce diallel crosses among the same parental lines. The diallel study confirmed the appropriate inheritance of RAPD markers in the F₁ generation. The value of these dominant RAPD markers for genetic linkage mapping in trees was established from both theoretical and applied perspectives.     

Tritium toxicity in postnatally developing mouse brain: Neurochemical changes after continuous exposure

Since tritium may emerge as a major radiopollutant, an attempt has been made to evaluate changes in total cholesterol, phospholipid and glycogen content in the postnatally developing mouse brain from 1 to 6 weeks of age; the exposure, at a dose level of 11.1 kBq (0.3 μCi)/mL of ³H, through maternal drinking water, was from gestation day 15 until the last interval studied (after a maternal priming injection). The brain-to-body weight ratio was increased during postnatal development as compared to that of sham-irradiated controls. The phospholipid concentration decreased significantly in all age groups. By contrast, glycogen content tended to increase from 1 to 5 weeks of age, and cholesterol content increased by 40.35 and 44.75% during the 2nd and 3rd weeks, respectively, and returned to a near normal level at later intervals.