Developmental and epigenetic anomalies in cloned cattle.

Many of the developmental anomalies observed in cloned animals are related to foetal and placental overgrowth, a phenomenon known as the 'large offspring syndrome' (LOS) in ruminants. It has been hypothesized that the epigenetic control of imprinted genes, that is, genes that are expressed in a parental-specific manner, is at the root of LOS. Our recent research has focused on understanding epigenetic alterations to imprinted genes that are associated with assisted reproductive technologies (ART), such as early embryo in vitro culture (IVC) and somatic cell nuclear transfer (SCNT) in cattle. We have sought and identified single nucleotide polymorphisms in Bos indicus DNA useful for the analysis of parental-specific alleles and their respective transcripts in tissues from hybrid embryos derived by crossing Bos indicus and Bos taurus cattle. By analysing differentially methylated regions (DMRs) of imprinted genes SNRPN, H19 and the IGF2R in cattle, we demonstrated that there is a generalized hypomethylation of the imprinted allele and the biallelic expression of embryos produced by SCNT when compared to the methylation patterns observed in vivo (artificially inseminated). Together, these results indicate that imprinting marks are erased during the reprogramming of the somatic cell nucleus during early development, indicating that such epigenetic anomalies may play a key role in mortality and morbidity of cloned animals.

Loss of methylation at H19 DMD is associated with biallelic expression and reduced development in cattle derived by somatic cell nuclear transfer.

Although cloning of mammals has been achieved successfully, the percentage of live offspring is very low because of reduced fetal size and fewer implantation sites. Recent studies have attributed such pathological conditions to abnormal reprogramming of the donor cell used for cloning. The inability of the oocyte to fully restore the differentiated status of a somatic cell to its pluripotent and undifferentiated state is normally evidenced by aberrant DNA methylation patterns established throughout the genome during development to blastocyst. These aberrant methylation patterns are associated with abnormal expression of imprinted genes, which among other genes are essential for normal embryo development and gestation. We hypothesized that embryo loss and low implantation rates in cattle derived by somatic cell nuclear transfer (SCNT) are caused by abnormal epigenetic reprogramming of imprinted genes. To verify our hypothesis, we analyzed the parental expression and the differentially methylated domain (DMD) methylation status of the H19 gene. Using a parental-specific analysis, we confirmed for the first time that H19 biallelic expression is tightly associated with a severe demethylation of the paternal H19 DMD in SCNT embryos, suggesting that these epigenetic anomalies to the H19 locus could be directly responsible for the reduced size and low implantation rates of cloned embryos in cattle.

Enhanced kangaroo mother care for heel lance in preterm neonates: a crossover trial.

OBJECTIVE: To test if enhancing maternal skin-to-skin contact, or kangaroo mother care (KMC) by adding rocking, singing and sucking is more efficacious than simple KMC for procedural pain in preterm neonates. STUDY DESIGN: Preterm neonates (n=90) between 32 0/7 and 36 0/7 weeks' gestational age participated in a single-blind randomized crossover design. The infant was held in KMC with the addition of rocking, singing and sucking or the infant was held in KMC without additional stimulation. The Premature Infant Pain Profile was the primary outcome with time to recover as the secondary outcome. A repeated-measures analysis of covariance was employed for analyses. RESULT: There were no significant differences in any of the 30 s time periods over the 2 min of blood sampling nor in time to return to baseline. Compared to historical controls of the same age in incubator, the pain scores were lower and comparable to other studies of KMC. There were site differences related to lower scores with the use of sucrose in one site and higher scores in younger, sicker infants in another site. CONCLUSION: The sensorial stimulations from skin-to-skin contact that include tactile, olfactory sensations from the mother are sufficient to decrease pain response in premature neonates. Other studies showing that rocking, sucking and music were efficacious were independent of skin-to-skin contact, which, when used alone has been shown to be effective as reported across studies.

Molecular cloning and induction of bovine prostaglandin E synthase by gonadotropins in ovarian follicles prior to ovulation in vivo.

Prostaglandin E(2) (PGE(2)) is thought to be an ultimate prostaglandin effector during the ovulatory process, and the objectives of this study were to clone bovine PGE synthase (PGES) and to characterize its regulation by gonadotropins in preovulatory follicles in vivo. The bovine PGES complementary DNA (cDNA) was shown to contain a 5'-untranslated region of eight base pairs (bp), an open reading frame of 462 bp and a 3'-untranslated region of 406 bp. The putative bovine PGES open reading frame encodes a 153-amino acid protein that is 85, 78, and 78% identical to the human, rat, and mouse PGES homologs, respectively. The regulation of PGES during ovulation was studied using three different models in vivo: 1) human chorionic gonadotropin (hCG)-induced ovulation during a normal estrous cycle; 2) hCG-induced ovulation following ovarian hyperstimulation; and 3) spontaneous ovulation during natural estrus. Results from semi-quantitative reverse transcription-polymerase chain reaction/Southern blotting analyses showed that the hCG/luteinizing hormone surge caused a significant increase in PGES mRNA. Levels of PGES transcripts were low or undetectable prior to hCG/luteinizing hormone but increased markedly 18-24 h after hCG in models 1 and 2, and 18-24 h after the onset of natural estrus in model 3 (p < 0.05). Analyses on isolated preparations of granulosa and theca interna cells indicated that the granulosa cell layer was the predominant site of follicular PGES expression. The regulation of the protein was studied in the same models using a specific antibody raised against a fragment of bovine protein (Delta PGES; from Glu(49) to Val(146)). Results from immunoblots showed an induction of bovine PGES (M(r) = 17,000) 18-24 h after hCG treatment or onset of estrus (p < 0.05). The protein was detected in extracts of granulosa cells but not in theca interna. Collectively, these results demonstrate that the ovulatory process is associated with a gonadotropin-dependent induction of PGES in granulosa cells of ovarian follicles in vivo, thus establishing for the first time the regulation of the enzyme in a physiological context.