High resolution metrical analysis applied to the assessment of damage associated with induced mutations in the mouse

Morphometric methods were used to investigate variation in the skeletons of 1030 offspring produced from matings of male DBA/2J by female C57BL/6J mice. 751 offspring originated from males that had received a single intraperitoneal injection of ethyl nitrosourea (EtNU) at a dose of 250 mg/kg. The remainder of the mice served as controls. The male parents of the controls were injected only with the buffer used as vehicle for the EtNU. Offspring were obtained for 3 weeks following injection. The treated males were then sterile for about 8 weeks. Immediately after the sterile period another sample of progeny was obtained. In the treated group, litter sizes at birth and weaning were reduced and survival to adulthood was lower. However, none of the differences were statistically significant. The skeletons were evaluated by two independent approaches. The first relied upon gross observation for unusual phenotypic variation, the second on a series of metrical measurement and coordinate data. A considerable amount of variation was recorded by both approaches. Some of the variants were severe but others were mild and perhaps of little or no importance to the health of the mice. The gross observation method produced no evidence for increased mild or severe variants in any group of offspring from the treated mice. The metrical methods also showed no evidence for treatment-related effects in offspring produced during the first 3 weeks of mating. However, in offspring produced after the sterile period, a pronounced, very highly statistically significant increase in all levels of metrical variation was observed. This treatment group revealed both increased variant measures and increased numbers of mice with variant measures. Much of this variation was so slight that it would have escaped notice were it not for the exacting measurements used in the analysis. Our morphometric approach is an analytically powerful tool, suitable for detecting variation in virtually any biological structure that can be measured. If the increased variation reported here is due to induced mutations, the effects would be consistent with that expected from slightly harmful mutations distributed throughout the mouse genome. It is appropriate to consider such effect in connection with genetic risk estimation.     

Increased postimplantation loss and malformations among the F2 progeny of male rats chronically treated with cyclophosphamide.

Cyclophosphamide, administered to the male rat, produces increased pre- and postimplantation loss in the progeny as well as an increase in the numbers of malformed and growth retarded fetuses. The purpose of this study was to determine whether the adverse effects of chronic paternal cyclophosphamide exposure are transmissible to the next generation, the F2 progeny. Adult male rats were treated by gavage daily with saline or with cyclophosphamide (3.4 or 5.1 mg/kg) for 4 or 18 weeks and mated. The male and female offspring in each treatment group (F1 generation) were randomly mated. The resulting pregnant females were killed on day 20 of gestation to evaluate progeny outcome in the F2 generation. There was a significant increase in postimplantation loss among the offspring of the group whose fathers had been treated with cyclophosphamide at a dose of 5.1 mg/kg/day. Exposure to a dose of 5.1 mg/kg/day of cyclophosphamide also resulted in an F2 generation with a significantly decreased mean fetal weight per litter and a significant increase in the number of malformed fetuses. The malformations observed among the F2 progeny included open eyes, omphalocele, generalized edema, syndactyly, gigantism, and dwarfism. Thus, exposure of the father to cyclophosphamide does result in a specific and heritable alteration in the fertility of the surviving "apparently normal" F1 progeny. Interestingly, the adverse consequences of exposure of male rats to cyclophosphamide are similar in the F2 generation to those previously reported for the F1 progeny.     

Computerized morphometric quantitation of cellular features in splenocytes from normal and nutrient-restricted mice

The morphometric analysis of splenocytes reveals quantitative changes in the chromatin and cytoplasm that may be used to distinguish between cells from normally fed animals and cells from subjects fed restricted diets. Analysis of Feulgen-stained and Papanicolaou-stained cells from mice fed normal diets and mice fed either calorie-restricted diets or isocaloric but protein-restricted diets showed an approximately 10% reduction in the nuclear area and in the total optical density (TOD) of stained chromatin in cells from diet-restricted mice. Some changes in chromatin texture features were also observed. Utilization of nuclear area, TOD and one textural feature in a linear discriminant analysis produced a distinct separation of the cells from dietary-restricted mice and the cells from normally fed subjects; this was observed with both Feulgen-stained and Papanicolaou-stained cells. The cellular effect of dietary restriction was more noticeable in the cytoplasm than in the nucleoplasm; Papanicolaou-stained cells from diet-restricted animals showed a 23% reduction in the cytoplasmic TOD and a 10% reduction in the nuclear TOD. This study shows that computerized morphometric analysis may be used in place of or in conjunction with other measurement procedures and chemical tests to quantitate and differentiate cells subjected to different types and levels of nutritional stress.     

Pyrroloquinoline quinone improves growth and reproductive performance in mice fed chemically defined diets

Growth, reproductive performance, and indices of collagen maturation and expression were investigated in Balb/c mice fed chemically defined, amino acid-based diets with or without the addition 6 micro Mpyrroloquinoline quinone (PQQ)/kg diet. The diets were fed to virgin mice for 8 weeks before breeding. At weaning, the pups from successful pregnancies were fed the same diet as their respective dams. Reproductive performance was compromised in mice fed diets devoid of PQQ, and their offspring grew at slower rates than offspring from mice fed diets supplemented with PQQ. Successful mating (confirmed vaginal plugs) was not affected by the presence or absence of PQQ; however, pup viability (number of pups at parturition/number of pups at Day 4 of lactation) was decreased in PQQ-deprived mice. Conception (percentage of females giving live births) and fertility (percentage of births) were also decreased in PQQ-deprived mice. The slower rates of growth in offspring from PQQ-deprived mice were associated with decreased steady-state mRNA levels for Type I procollagen alpha(1)-chains in skin and lungs from neonatal mice. Values for lysyl oxidase accumulation as protein in PQQ-deficient mice also tended to be lower than corresponding values from PQQ-supplemented or -replete mice. Skin collagen solubility was increased in PQQ-deprived mice. These results indicate that PQQ supplementation can improve reproductive performance, growth, and may modulate indices of neonatal extracellular matrix production and maturation in mice fed chemically defined, but otherwise nutritionally complete diets.     

Respective contributions of maternal insulin resistance and diet to metabolic and hypothalamic phenotypes of progeny

Maternal obesity can influence susceptibility to obesity and type 2 diabetes in progeny. We examined the relationship of maternal insulin resistance (IR), a metabolically important consequence of increased adiposity, to adverse consequences of obesity for fetal development. We used mice heterozygous for a null allele of the insulin receptor (Insr) to study the contributions of maternal IR to offspring phenotype without the potential confound of obesity per se, and how maternal consumption of high-fat diet (HFD) may, independently and interactively, affect progeny. In progeny fed a 60% HFD, body weight and adiposity were transiently (5-7 weeks) increased in wild-type (+/+) offspring of Insr(+/-) HFD-fed dams compared to offspring of wild-type HFD-fed dams. Offspring of HFD-fed wild-type dams had increased body weight, blood glucose, and plasma insulin concentrations compared to offspring of chow-fed wild-type dams. Quantification of proopiomelanocortin (POMC) and neuropeptide-Y (NPY) populations in the arcuate nucleus of the hypothalamus (ARH) of offspring of wild-type vs. Insr(+/-) dams was performed to determine whether maternal IR affects the formation of central feeding circuits. We found a 20% increase in the number of Pomc-expressing cells at postnatal day 9 in offspring of Insr(+/-) dams. In conclusion, maternal HFD consumption-distinct from overt obesity per se-was a major contributor to increased body weight, adiposity, IR, and liver triglyceride (TG) phenotypes in progeny. Maternal IR played a minor role in predisposing progeny to obesity and IR, though it acted synergistically with maternal HFD to exacerbate early obesity in progeny.     

Progeny of male rats treated with methadone: physiological and behavioural effects

Male rats were injected with methadone HCl (METH) at 5 mg/kg s.c. for 4 days prior to mating with drug-free females. Offspring resulting from these matings were compared with offspring of drug-free males. The progeny of METH-treated males gained less weight after weaning and had lighter thymuses as adults (but not in infancy). Gonadal weights did not differ in infancy or adulthood, and adrenal weights were heavier in female offspring in adulthood. In adulthood METH offspring were significantly different from controls on all behavioural tests used (open field activity, activity cage activity, passive avoidance latencies, shuttle box avoidances, and rotarod latencies), with the differences frequently affected by test order, days of testing, or sex of offspring. The effects in progeny of METH-treated males in the absence of differences in litter size or neonatal mortality indicate that paternal drug ingestion prior to mating can produce physiological and behavioural changes in progeny that are not dependent on detectable effects on early viability or growth.     

The effect of long-term caloric restriction on function of T-cell subsets in old mice

The effect of caloric restriction (from weaning to old age) on CD3-stimulated CD4+ and CD8+ lymphocyte proliferation and calcium mobilization was examined. Young ad libitum (ad lib) fed, old ad lib fed, old calorically restricted, and old calorically restricted mice which were fed ad lib during the last 6 weeks of their life (restricted/refed) were compared in both BDF1 [(C57BL/6 x DBA/2)F1] and C57BL/6 mice. Proliferation of CD4+ cells was lower in old ad lib animals than in young animals; this difference was not seen in CD8+ cells. Those CD4+ cells which did proliferate in old ad lib animals underwent similar cell cycle progression as young cells. In calorically restricted and calorically restricted/refed animals, CD4+ cell proliferation was similar to the young animals, and CD8+ cells showed a higher proliferative capacity than cells from either young or old ad lib mice. Differences in proliferative capacity were not correlated with alterations in transmembrane signaling efficiency as peak [Ca2+]i was reduced in both T-cell subsets in all groups of old mice relative to young mice. Additionally, reduced [Ca2+]i was observed in the CD8+ subset for which there was no deficit in proliferation, and the enhanced proliferation seen in old restricted and old restricted/refed mice did not manifest as increased [Ca2+]i mobilization. The percentage of CD4+ cells from both mouse strains was reduced in all groups of old mice compared with young mice, while the percentage of CD8+ cells was generally similar in young and all groups of old mice. Our studies would suggest that lifelong caloric restriction of mice prevents the age-associated decrease in T-cell proliferative capacity but that the enhanced proliferation of these cells is not due to increased efficiency of transmembrane signaling.     

Heat stress and age induced maternal effects on wing size and shape in parthenogenetic Drosophila mercatorum

Maternal effects on progeny wing size and shape in a homozygous parthenogenetic strain of Drosophila mercatorum were investigated. The impact of external maternal factors (heat stress) and the impact of internal maternal factors (different maternal and grand maternal age) were studied. The offspring developed under identical environmental conditions, and due to lack of genetic variation any phenotypic difference among offspring could be ascribed to maternal effects. Wing size was estimated by centroid size, shape was analysed with the Procrustes geometric morphometric method and variation in landmark displacement was visualized by principal component analysis. Both kinds of maternal effects had a significant impact on progeny wing size and shape. Maternal heat stress led to the same pattern of response in size and shape among the progeny, with increased difference between the control group and progeny from heat stressed flies in both size and shape with increased maternal heat stress temperature. The effects of maternal age, however, led to different responses in size and shape between the different progeny groups. The observed variation in landmark displacements was similar, and in both cases mainly associated with shape differences of the posterior part of the wing. Finally, our results suggest that maternal effect has some evolutionary implications by altering the genetic correlations among traits, which can affect the response to selective pressures.     

Maternal obesogenic diet combined with postnatal exposure to high-fat diet induces metabolic alterations in offspring

Maternal obesity has been shown to impact the offspring health during childhood and adult life. This study aimed to evaluate whether maternal obesity combined with postnatal exposure to an obesogenic diet could induce metabolic alterations in offspring. Female CD1 mice were fed a control diet (CD, 11.1% of energy from fat) or with a high-fat diet (HFD, 44.3% of energy from fat) for 3 months. After weaning, pups born from control and obese mothers were fed with CD or HFD for 3 months. Both mothers and offspring were weighted weekly and several blood metabolic parameters levels were evaluated. Here, we present evidence that the offspring from mothers exposed to a HFD showed increased acetylation levels of histone 3 on lysine 9 (H3K9) in the liver at postnatal Day 1, whereas the levels of acetylation of H4K16, dimethylation of H3K27, and trimethylation of H3K9 showed no change. We also observed a higher perinatal weight and increased blood cholesterol levels when compared to the offspring on postnatal Day 1 born from CD-fed mothers. When mice born from obese mothers were fed with HFD, we observed that they gained more weight, presented higher blood cholesterol levels, and abdominal adipose tissue than mice born to the same mothers but fed with CD. Collectively, our results point toward maternal obesity and HFD consumption as a risk factor for epigenetic changes in the liver of the offspring, higher perinatal weight, increased weight gain, and altered blood cholesterol levels.     

Does Early Mismatched Nutrition Predispose to Hypertension and Atherosclerosis,in Male Mice?

Background

A link between early mismatched nutritional environment and development of components of the metabolic syndrome later in life has been shown in epidemiological and animal data. The aim of this study was to investigate whether an early mismatched nutrition produced by catch-up growth after fetal protein restriction could induce the appearance of hypertension and/or atherosclerosis in adult male mice.

Methodology/Principal Findings

Wild-type C57BL6/J or LDLr−/− dams were fed a low protein (LP) or a control (C) diet during gestation. Catch-up growth was induced in LP offspring by feeding dams with a control diet and by culling the litter to 4 pups against 8 in controls. At weaning, male mice were fed either standard chow or an obesogenic diet (OB), leading to 4 experimental groups. Blood pressure (BP) and heart rate (HR) were assessed in conscious unrestrained wild-type mice by telemetry. Atherosclerosis plaque area was measured in aortic root sections of LDLr−/− mice. We found that: (1) postnatal OB diet increased significantly BP (P<0.0001) and HR (P<0.008) in 3-month old OB-C and OB-LP offspring, respectively; (2) that maternal LP diet induced a significant higher BP (P<0.009) and HR (P<0.004) and (3) an altered circadian rhythm in addition to higher plasma corticosterone concentration in 9 months-old LP offspring; (4) that, although LP offspring showed higher plasma total cholesterol than control offspring, atherosclerosis assessed in aortic roots of 6-mo old mice featured increased plaque area due to OB feeding but not due to early mismatched nutrition.

Conclusions/Significance

These results indicate a long-term effect of early mismatched nutrition on the appearance of hypertension independently of obesity, while no effect on atherosclerosis was noticed at this age.     

Teratogenicity of paraxanthine (1,7-dimethylxanthine) in C57BL/6J mice

The teratogenicity of caffeine, as well as two of its three dimethylated metabolites (theobromine and theophylline), has been established in animal studies. The third metabolite, paraxanthine, has not been reported as being tested for teratogenicity even though it is actually the major demethylated metabolite of caffeine metabolism in man. Pregnant C57BL/6J mice were treated i.p. with 175 or 300 mg/kg/day paraxanthine (1,7-dimethylxanthine) dissolved in deionized water at 4 p.m. on day 11 and 9 a.m. on day 12 of gestation. All dams were sacrificed on day 18, and fetuses were fixed for Wilson's razor blade sectioning or double-staining skeletal examination. A dose-related increase in total malformations, primarily cleft palate and limb malformations, was found. The pattern of malformations was similar to that reported for caffeine, theobromine, and theophylline, i.e., an asymmetric response with the left forelimb most often affected. A 21% resorption and a 46% malformation rate was observed at 300 mg/kg/day of paraxanthine, indicating that paraxanthine was slightly less toxic to the embryo than caffeine. Therefore, the parent compound, caffeine, as well as all three of its dimethylated metabolites--paraxanthine, theophylline, and theobromine--are teratogenic.     

Gene expression profile in bone of diabetes-prone BB/OK rats fed a high-fat diet

A high-fat diet (HFD) has been recognized as a risk factor for diseases such as dyslipidemia, atherosclerosis, obesity, and osteoporosis. However, studies analyzing gene expression after HFD in bone are rare. That prompted us to analyze the expression of selected genes in bone of 4-week-old diabetes-prone B(io)B(reeding) rats. Two breeding pairs were fed a HFD (+10 % tallow) or were fed a normal diet (ND; Ssniff R-Z) before mating and afterward during pregnancy. After the birth of progeny, parents continued to be given HFD or ND until the progeny was weaned (3 weeks). Thereafter, offspring were weaned and were fed the same food as their parents up to an age of 4 weeks. Body weight was measured at an age of 4 weeks, and subsequently 13 HFD rats and 13 ND rats were killed and the tibial bone was harvested to analyze the expression of 53 genes in bone. All rats fed HFD were significantly heavier than rats fed ND after 3 and 4 weeks. The diet also influenced the expression of genes in bone. There were significant differences in 20 out of 53 genes studied between rats fed HFD compared with rats fed ND. Four out of 20 had a lower and 17 out of 20 genes a higher expression in HFD rats, but differences in gene expression showed obvious differences between males and females. There were only two genes that were similarly different between males and females: Bmp4 and Atf4. Two genes, Foxg1 and Npy, were inversely expressed in males and females. It seems that the gene expression is differently regulated by diet during pregnancy and later in life between males and females. Nevertheless, it cannot be excluded that HFD also acts as an epigenetic factor in the development of offspring in utero.     

Methamphetamine-enhanced embryonic oxidative DNA damage and neurodevelopmental deficits

Methamphetamine (METH) causes dopaminergic nerve terminal degeneration and functional deficits in adult mice, but its neurodevelopmental effects are unclear. We investigated METH-initiated oxidative DNA damage in brain during the embryonic and fetal periods, and the postnatal histological and functional consequences. Pregnant CD-1 mice were treated with a single dose of METH (20 or 40 mg/kg ip) or its saline vehicle on Gestational Day 14 or 17. METH enhanced conceptal DNA oxidation, determined by 8-oxoguanine formation, in brain and liver by at least 2-fold at 1 h (P < 0.05), and more so in some fetal brains at 4 h. After birth, motor coordination on the rotarod apparatus in the METH-exposed offspring was impaired for at least 12 weeks (P < 0.05). Unlike in adults, this postnatal functional deficit in offspring exposed in utero to METH was not associated with degeneration of striatal dopaminergic nerve terminals at 12 weeks of age determined by tyrosine hydroxylase staining, suggesting a novel pathological mechanism in utero. This is the first evidence of oxidative DNA damage in embryonic and fetal brain caused by amphetamines, leading to long-term postnatal neurodevelopmental deficits via a mechanism different from that underlying the neurodegeneration observed in METH-exposed adults.     

Maternal Obesity during the Preconception and Early Life Periods Alters Pancreatic Development in Early and Adult Life in Male Mouse Offspring

Maternal obesity induced by a high fat (HF) diet may program susceptibility in offspring, altering pancreatic development and causing later development of chronic degenerative diseases, such as obesity and diabetes. Female mice were fed standard chow (SC) or an HF diet for 8 weeks prior to mating and during the gestational and lactational periods. The male offspring were assessed at birth, at 10 days, and at 3 months of age. The body mass (BM) gain was 50% greater before pregnancy and 80% greater during pregnancy in HF dams than SC dams. Dams fed an HF diet showed higher oral glucose tolerance test (OGTT), blood pressure, serum corticosterone, and insulin levels than dams fed SC. At 10 days of age and at 3 mo old the HF offspring showed greater BM and higher blood glucose levels than the SC offspring. The mean diameter of the islets had increased by 37% in the SC offspring and by 155% in the HF offspring at 10 days of age. The islet mass ratio (IM/PM) was 88% greater in the HF offspring at 10 days of age, and 107% greater at 3 mo of age, compared to the values obtained at birth. The HF offspring had a beta cell mass (BCM)/PM ratio 54% lower than SC offspring at birth. However, HF offspring displayed a 146% increase in the BCM/PM ratio at 10 days of age, and 112% increase at 3 months of age than values at birth. A 3 mo of age, the HF offspring showed a greater OGTT and higher levels of than SC offspring. In conclusion, a maternal HF diet consumed during the preconceptional period and throughout the gestational and lactational periods in mice results in dramatic alterations in the pancreata of the offspring.     

Polyploidy and aneuploidy induced by colcemid in Drosophila melanogaster

Colcemid was fed to Drosophila melanogaster larvae throughout most of the larval period. Surviving individuals were then mated with untreated flies, and their progeny were examined for polyploid flies or flies resulting from X-chromosome nondisjunction. A total of 251 polyploid offspring was recovered from the experimental matings, none from the control. All of the polyploids were evidently triploids, and all but one were obtained from colcemid-fed females: males produced significantly lower frequencies of triploid offspring than females. The highest average frequency of triploid offspring obtained from any treatment group was 18%. Nonrandom distributions of triploid offspring were observed among females raised identically, indicating tht polyploidization occurs mitotically, rather than meiotically, giving rise to clones of tetraploid oogonia. 9 colcemid-fed females produced exclusively triploid offspring. Colcemid also caused a significant increase in X-chromosome nondisjunction in females, though the frequencies of such offspring were at least several-fold lower than the frequencies of triploid offspring. Somatic polyploidy was apparently also indiced since patches of large cells were found on the wings of some flies raised on colcemid-containing food. Various teratological abnormalities were observed among the treated flies, including deformed or missing eyes and partially duplicated thoraxes.     

Elevated hepatic mitochondrial and peroxisomal oxidative capacities in fed and starved adult obese (ob/ob) mice.

Hepatic mitochondrial and peroxisomal oxidative capacities were studied in young (4-5 weeks old) and adult (6-9 months old) lean and obese ob/ob mice that were fed or starved for 24 or 48 h. The adult obese mice showed elevated capacity for mitochondrial oxidation (ng-atoms of O consumed/min per mg of protein) of lipid and non-lipid substrates, with the exception of pyruvate + malate, and elevated activities of citrate synthase and total carnitine palmitoyltransferase. Oxidative rates and enzyme activities were not affected by starvation of lean or obese mice, and both males and females responded similarly. Peroxisomal palmitoyl-CoA oxidation (nmol/min per mg of peroxisomal protein) was also increased in livers of adult obese mice and did not change with starvation. In young mice, hepatic mitochondrial and peroxisomal oxidative capacities in lean and obese mice were comparable. The increased mitochondrial and peroxisomal oxidative capacities appear to develop with maturation in obese ob/ob mice.     

Brugia pahangi: effects of maternal filariasis on the responses of their progeny to homologous challenge infection.

Granulomatous lesion formation and immune responses to Brugia pahangi infections were compared in age-matched male progeny of homologously infected and uninfected female jirds. Infections initiated in 2-week-old offspring yielded mean +/- SD adult worm recoveries of 6.0 +/- 5.7 and 4.2 +/- 5.4 in offspring from infected or uninfected mothers, respectively. Infections initiated in 4-week-old offspring resulted in an mean +/- SD recovery of adult worms of 11.3 +/- 11.3 and 10.2 +/- 5.8 in offspring from infected and uninfected mothers, respectively. The ratio of intralymphatic thrombi per intralymphatic worm was similar between infected offspring from infected or uninfected mothers within experiments. Areas of granulomas around B. pahangi antigen-coated beads embolized in the lungs were not significantly affected by maternal origin in infected or uninfected progeny. Offspring infected at 2 or 4 weeks of age from infected mothers exhibited significantly reduced titers of serum IgG antibodies to Brugia antigens at 5-8 weeks postinfection compared to infected offspring of uninfected mothers. Infected offspring from infected mothers also had significantly fewer splenic IgG plaque-forming cells to B. pahangi antigens at 5 weeks postinfection than similarly infected offspring from uninfected mothers. Western immunoblot analysis indicated qualitative and quantitative reductions in serum antibody reactivity to adult B. pahangi antigens in infected progeny of infected females compared to age-matched infected controls. Reduced homologous serum antibody responses in progeny exposed to maternal B. pahangi infection suggest that maternal immunoregulation to filarial antigens may occur. Reduced antibody responsiveness to B. pahangi antigens observed in infected offspring from infected mothers, however, had no demonstrable effect on adult worm burdens, microfilaremias, lymphatic lesion formation, or antigen-specific granulomatous inflammatory responses compared to infected progeny of uninfected mothers.     

Effects of dietary cholesterol and fat, sex and sire on lecithin-cholesterol acyltransferase activity in baboons

We analyzed the effects of dietary cholesterol, type of dietary fat, sex and sire progeny family on lecithin-cholesterol acyltransferase activity in 80 adult baboons. The animals were the progeny of 80 dams and 6 sires and were randomly assigned at birth to breast feeding or to one of three formulas containing 0.02, 0.30 or 0.60 mg cholesterol/ml. After weaning at 4 months of age the animals were fed one of four diets that were either high or low in cholesterol with 40% of the calories from either saturated or unsaturated fat. The fractional and molar rates of lecithin-cholesterol acyltransferase activity were measured at 7-8 years of age by an HPLC method. Infant diet (breast vs. formula feeding or level of cholesterol in formula had no effect on enzyme activity later in life. The adult diets that were high in cholesterol decreased the fractional lecithin-cholesterol acyltransferase rate by 20% / compared to diets low in cholesterol (7.89 vs. 9.84%/h, P less than 0.002), but dietary cholesterol did not affect the molar activity. Animals fed the high cholesterol diets had higher unesterified cholesterol concentrations compared to those fed the low cholesterol diets (38.1 mg/dl vs. 31.6 mg/dl, P less than 0.0001). The molar lecithin-cholesterol acyltransferase rate was increased 13% by saturated compared to unsaturated fat (83.3 vs. 73.6 nmol/h per ml plasma, P less than 0.07), but no effect of dietary fat was observed on the fractional enzyme activity. Females compared to males had significantly higher fractional (10.9 vs. 7.14%/h, P less than 0.0001) and molar lecithin-cholesterol acyltransferase activities (99.3 vs. 61.7 nmol/h per ml plasma, P less than 0.0001). After adjustment for the effects of diet and sex we observed differences in the fractional activity (range, 7.2-10.8%/h, P less than 0.04) and in the molar rate (range, 63.6-99.8 nmol/h per ml plasma, P less than 0.07) among the six sire progeny groups. The differences among sire progeny groups are evidence for genetic differences in lecithin-cholesterol acyltransferase activities among the baboon families.     

Maternal cocaine administration in mice alters DNA methylation and gene expression in hippocampal neurons of neonatal and prepubertal offspring

Previous studies documented significant behavioral changes in the offspring of cocaine-exposed mothers. We now explore the hypothesis that maternal cocaine exposure could alter the fetal epigenetic machinery sufficiently to cause lasting neurochemical and functional changes in the offspring. Pregnant CD1 mice were administered either saline or 20 mg/kg cocaine twice daily on gestational days 8-19. Male pups from each of ten litters of the cocaine and control groups were analyzed at 3 (P3) or 30 (P30) days postnatum. Global DNA methylation, methylated DNA immunoprecipitation followed by CGI(2) microarray profiling and bisulfite sequencing, as well as quantitative real-time RT-PCR gene expression analysis, were evaluated in hippocampal pyramidal neurons excised by laser capture microdissection. Following maternal cocaine exposure, global DNA methylation was significantly decreased at P3 and increased at P30. Among the 492 CGIs whose methylation was significantly altered by cocaine at P3, 34% were hypermethylated while 66% were hypomethylated. Several of these CGIs contained promoter regions for genes implicated in crucial cellular functions. Endogenous expression of selected genes linked to the abnormally methylated CGIs was correspondingly decreased or increased by as much as 4-19-fold. By P30, some of the cocaine-associated effects at P3 endured, reversed to opposite directions, or disappeared. Further, additional sets of abnormally methylated targets emerged at P30 that were not observed at P3. Taken together, these observations indicate that maternal cocaine exposure during the second and third trimesters of gestation could produce potentially profound structural and functional modifications in the epigenomic programs of neonatal and prepubertal mice.     

The influence of maternal nicotine exposure on the interalveolar septal status of neonatal rat lung.

The aim of this study was to determine the effect of maternal nicotine exposure (1 mg nicotine/kg body mass/day, subcutaneously) on the status of the alveolar septa of the 1 to 21 day old offspring. The data obtained showed swelling of type II and interstitial cell mitochondria. The type I:type II cell ratio decreased as a result of type II cell proliferation. The number of capillaries per unit length of septum was also significantly lower than that of control lung. Ruptured blood-air barriers also occur in the nicotine exposed lungs of rats of all age groups. The results show that maternal nicotine exposure interfered with the morphometric and morphologic characteristics of the septa of lung tissue of the offspring.