Project description:Hyperhomocysteinemia (HHcy) causes cardiovascular dysfunction and is associated with many complications during pregnancy related to reduced NO bioactivity. The mechanisms of HHcy on the NO-dependent control of myocardial metabolism was compared with L-NAME, which directly inhibits NO bioavailability, treated animals. We used microarrays to detail the global programme of gene expression underlying hyperhomocysteinemia during pregnancy and identified distinct classes of differentially regulated genes.

Project description:To identify potential regulators of late pregnancy-dependent thyroid weight increase, thyroid gene expression profiles of non-pregnant (NP) and late pregnant (LP, day 18) rats was analyzed using the RNA-seq approach. Identifying global gene changes in the maternal thyroid in rats

Project description:Kidney transplantation remains the optimal therapeutical option for end stage kidney disease. Current immunosuppressive regimens are efficient in combating acute kidney rejection. However, the insight in chronic kidney allograft injury remains limited. Simultaneously, pregnancy in kidney recipients appears more prevalent than during dialysis treatment. Due to ethical issues comprehensive studies on the impact of current immunosuppressive regimens on pregnancy are challenging. Omics- technology enables the systemic insight into biology both of immunity and pregnancy beyond up-to-date collected knowledge. The aim of the study was to investigate the proteomic status of lymphocytes obtained from pregnant female rats under immunosuppressive treatment. The group of 10 pregnant Wistar rat females, 5 of which treated with tacrolimus, mofetil mycophenolate and glicocorticosteroids, 5 used as control. The lymphocytes were obtained and analyzed with mass-spectrometry. The outcomes were verified statistically in terms of proteins up- and down regulation.

Project description:Pregnancy has been shown to decrease the risk of mammary carcinogenesis in human rretrospective epidemiological studies. In rodents, pregnancy prior to carcinogen administration or after carcinogen challenge has also been shown to reduce the incidence of palpable carcinomas. In this study our objective to determine the underlying genomic signature of the pregnancy and reproductive hormones on the mammary gland that contribute to the protection against mammary gland carcinogenesis. We used the rat microarray technology to observe total transcriptome changes after the pregnancy and exogenous reproductive hormone stimulation of the mammary gland. Fifteen 3 month old post-pubertal virgin Lewis rats were randomly assigned to three groups (5 rats per group): control (C), pregnancy (P) and hormone treatment (H). The P group animals had a full-term pregnancy (21-23 days) and rats in the group H were implanted subcutaneously on the dorsal midline with two silastic capsules [(0.078 inch inner diameter, 0.125 inch outer diameter) x 2 cm long; Dow Corning, Midland, MI) filled separately with 100 μg ethynyl estradiol (Sigma, St. Louis, MO) packed in a cellulose matrix (Sigma) and 30 mg of megesterol acetate (Sigma) for 21 days. The control animals had neither the hormone treatment nor being pregnant. The animals in C and P groups were also implanted with sham capsules filled with cellulose matrix only. The capsules were surgically implanted at the beginning of the experiment and removed from all animals after 21 days except that the capsules were removed from the P group following parturition (21-23 days). The delivered pups in the P group were euthanized within 4-6 hours of delivery to avoid suckling. After the removal of capsules all groups were rested a total of ~49 days before euthanasia. All animals were euthanized during metestrus stage, determined by vaginal cytology and total RNA was extracted from the mammary gland tissues using Trizol reagent.

Project description:Elevated testosterone levels increase maternal blood pressure and decrease uterine blood flow in pregnancy, resulting in abnormal perinatal outcomes. The placenta is the key in understanding the pathophysiological processes associated with pregnancy. The current study is designed to characterize the genes essential for placental function to understand the mechanisms underlying normal and pathological gestation. Timed pregnant Sprague-Dawley rats (day 12 of gestation; copulation plug on day 1; Charles River, Wilmington, MA) were selected. After acclimatization, on gestational day (GD) 13, dams were randomly divided into 2 groups. Dams in the treatment group were subcutaneously injected with testosterone propionate (0.5 mg/Kg/day, n=12) for 5 days from GD 15–19. The control group received vehicle (sesame oil, n=12).The animals were housed in a room with a controlled temperature and a 12-hour light-dark cycle. During 8-10 am on days 20 of pregnancy, rats were anaesthetized with carbon dioxide, three placentas each from male and female fetuses in control and testosterone-treated rats were disected and total RNAs were isolated. The isolated RNA from each animal was used for the cRNA preparation. cRNA was prepared and fragmented as suggested by Affymetrix technical manual, and simultaneously hybridized to Affymetrix Rat Expression Array 230 2.0. The data were analyzed with R statistical package (version 2.8.1), GeneSpring GX - Agilent Technologies and Ingenuity pathway analysis .

Project description:Cross-species hybridization analysis of mammary glands during pregnancy and lactation. Results provide insight into putative conserved molecular mechanisms regulating mammary gland development. This study was performed to identify orthologous transcripts that are differentially co-expressed in the mammary gland at 2 stages of development (pregnancy and lactation) in wild type Sprague-Dawley rats. Key points are examined in a time series of Sprague Dawley rat mammary gland development, secretory activation and lactation. Triplicate rat (three biological replicates) at each time point were used for statistical power totalling 12 individual arrays in this study. Rats were as staged pregnant day 1 the day that post coital plug was observed, and similarly, lactation day 1 was the first day after birth. Whole mammary glands No. 4 (inguinal) were obtained from female rats at stages of development: virgin (adulthood, 14 wks of age), Pregnant (5 and 14 days of pregnancy) and Lactating (day 1 and 12 postpartum). The two-color (Cy5/Cy3) microarray experiment was designed to hybridize samples from each group against a common reference, a pool of RNA from mammary gland of three parous or virgin female rats.

Project description:Pregnant rats were randomly divided into two groups. Dams were then housed individually and fed throughout gestation a 22 % protein diet, representing the control group (C, n=5), or an 9% isocaloric protein diet, representing the low-protein (LP, n=6). Both diets were isocaloric, because the protein deficiency in the LP diet was compensated by the addition of carbohydrates. Feeding of LP diet began on the day of conception and continuing throughout pregnancy. The low-protien diet resulted in Intra-Uterine Growth Restriction (IUGR) of the fetuses.<br><br> An additional processed data file, E-MEXP-1015_all_norm_calls.txt, is available for download from <a href="ftp://ftp.ebi.ac.uk/pub/databases/microarray/data/experiment/MEXP/E-MEXP-1015/">ftp://ftp.ebi.ac.uk/pub/databases/microarray/data/experiment/MEXP/E-MEXP-1015/</a>

Project description:Different inbred strains of rats differ in their susceptibility to OIR, an animal model of human retinopathy of prematurity. We examined gene expression profiles in Fischer 344 (F344, resistant to OIR) and Sprague Dawley (SD, susceptible to OIR) rats at the early time point of day 3 to identifying gene pathways related to the underlying genetic cause of phenotypic differences between strains. To examine gene expression changes in rats strains which are resistant and susceptible to OIR, four different experimental conditions were analysed: F344 cyclic hyperoxia (O2) exposed, F344 room air (RA) exposed, SD O2 exposed and SD RA exposed. A minimum of two samples of pooled RNA, comprising of 3 individual rats from 2 separate litters, was used for each experimental condition. Pooled RNA from different rats were used as biological replicates. An additional sample for F344 O2 and SD RA rats was included on the basis of the principal components analysis from the initial 8 samples. Pooled RNA from age-matched room air-exposed rats were used as controls.

Project description:Corpus luteum (CL) is a transient endocrine tissue formed from the remnants of the ovarian follicle after ovulation. In response to gonadotropin surge, the ovulating follicle undergoes dramatic changes in expression of genes and differentiation of follicular cells into luteal cells. In several species, of the several genes that are down- regulated post ovulation, Cyp19A1 that codes for aromatase, essential for biosynthesis of estradiol- 17M-NM-2 (E2), also get down- regulated but appears to get up- regulated at later time points in the estrous cycle to have critical role in E2 secretion. In primates and rodents, higher expression and higher E2 levels has been observed in CL. Surprisingly, in the recently carried out gene expression profiling of PGF2M-NM-1- induced luteolysis studies in the bovine species [GSE27961], it was observed that expression of one of the earliest genes that was down- regulated was Cyp19A1 in the CL. However, the specific role of E2 in the regulation of CL function remains poorly defined. Thus, in the present study, efforts were made to examine the temporal changes in the global gene expression profile in the CL of pregnant rats after treatment with aromatase inhibitor (AI), Anastrozole, and E2 supplementation. The results obtained will further expand our knowledge on E2 target/responsive genes and the basic mechanism(s) that regulates the CL function. Key words: CL, E2, AI, Gene expression The objective of this study was to identify the effect of E2 deprivation and supplementation on CL function and temporal changes in the transcriptome of pregnant rat CL during day 12 to 16 of pregnancy following E2 deprivation by Anastrozole (AI, Aromatase inhibitor) treatment in pregnant rats, AI (1mg/ kg bw orally) treatment beginning on day 12 daily for 4 days. In the E2 supplementation experiments, together with AI, the rats were treated with E2 (10M-BM-5g/ day s.c.). CL tissues were collected on day 12 (no treatment; n=3 animals/ time point), day 16 (vehicle treatment; n=3 animals/ time point), day 16 (AI treatment; n=3 animals/ time point) and day 16 (AI+ E2 treatment; n=3 animals/ time point) to examine gene expression changes associated with E2 deprivation and recovery in the system. Following retrieval of CL from the ovary, corpora lutea were flash frozen in liquid nitrogen and stored at -70oC for the purpose of RNA isolation. The isolated RNA was labelled and hybridized to Affymetrix GeneChipM-BM-. Rat Gene 1.0 ST arrays as per the manufacturerM-bM-^@M-^Ys instructions.

Project description:Following intrauterine low protein diet, the lumbar mammary gland of control and low protein rats were removed for further analysis via genarray on day 21 and day 28 postpartum. Virgin female Wistar rats came from Charles River. Throughout pregnancy the NP rats received 25g/d of Altromin C1000 containing 17.0% protein, while LP animals were fed 25g/d of Altromin C1003 containing 8.8% protein. At birth, litter size was reduced to 6 females in both groups, which were left to suckle for 21 days. During lactation (d1-d21) and after weaning (d21-d28) NP and LP animals were fed a standard chow and tap water ad libitum. At d21 and d28 3 dams were sacrificed under isofluran narcosis. The lumbar mammary gland (4th and 5th pair) were removed and cleared of visible lymph nodes before snap-freezing in liquid nitrogen.