Simon K. Walker

The production of unusually large offspring following embryo manipulation: Concepts and challenges

Abstract Embryo culture, nuclear transfer and asynchronous embryo transfer are procedures that can result in the birth of larger than normal offspring. Some birthweights fall well outside the upper limit of the normal population although a minority of offspring is usually affected. Adult liveweights appear not to be affected and the birthweight trait appears not to be heritable although definitive studies have not been reported. Preliminary evidence indicates that cell lineage differentiation in the manipulated embryo is altered resulting in preferential allocation of cells to the trophectoderm. Consequently, a larger than normal placenta develops resulting in aberrant fetal growth and development. It is postulated that this disturbance results from environmentally-induced changes in the regulation of early gene expression. Disruptions to nucleocytoplasmic interactions and to maternal — embryonic signalling are implicated in the phenomenon. The production of large offspring after embryo manipulation casts new perspectives on the roles of reproductive technology in both livestock and human reproduction. However, an understanding of the underlying cellular mechanisms should lead to improved procedures for the handling and manipulation of embryos.

Evaluation of Gestational Deficiencies in Cloned Sheep Fetuses and Placentae

Abstract Sheep fetal development at 35 days of gestation was examined following natural mating, in vitro production (IVP) of fertilized embryos, or somatic cell nuclear transfer (NT). Five crossbred (Blackface × Black Welsh) and four purebred (Black Welsh) fetuses and their associated placentae produced by natural mating were morphologically normal and consistent with each other. From 10 ewes receiving 21 IVP embryos, 17 fetuses (81%) were recovered, and 15 of these (88%) were normal. The NT fetuses were derived from two Black Welsh fetal fibroblast cell lines (BLW1 and 6). Transfer of 21 BLW1 and 22 BLW6 NT embryos into 12 and 11 ewes, respectively, yielded 7 (33%) and 8 (36%) fetuses, respectively. Only three (43%) BLW1 and two (25%) BLW6 NT fetuses were normal, with the rest being developmentally retarded. The NT fetal and placental deficiencies included liver enlargement, dermal hemorrhaging, and lack of placental vascular development reflected by reduced or absent cotyledonary structures. Fibroblasts isolated from normal and abnormal cloned fetuses did not differ in their karyotype from sexually conceived fetuses or nuclear donor cell lines. Our results demonstrate that within the first quarter of gestation, cloned fetuses are characterized by a high incidence of developmental retardation and placental insufficiency. These deficiencies are not linked to gross defects in chromosome number.

An ovine transgenic Huntington's disease model

Huntingtons disease (HD) is an inherited autosomal dominant neurodegenerative disorder caused by an expansion of a CAG trinucleotide repeat in the huntingtin (HTT) gene [Huntingtons Disease Collaborative Research Group (1993) A novel gene containing a trinucleotide repeat that is expanded and unstable on Huntingtons disease chromosomes. The Huntingtons Disease Collaborative Research Group. Cell, 72, 971-983]. Despite identification of the gene in 1993, the underlying life-long disease process and effective treatments to prevent or delay it remain elusive. In an effort to fast-track treatment strategies for HD into clinical trials, we have developed a new large-animal HD transgenic ovine model. Sheep, Ovis aries L., were selected because the developmental pattern of the ovine basal ganglia and cortex (the regions primarily affected in HD) is similar to the analogous regions of the human brain. Microinjection of a full-length human HTT cDNA containing 73 polyglutamine repeats under the control of the human promotor resulted in six transgenic founders varying in copy number of the transgene. Analysis of offspring (at 1 and 7 months of age) from one of the founders showed robust expression of the full-length human HTT protein in both CNS and non-CNS tissue. Further, preliminary immunohistochemical analysis demonstrated the organization of the caudate nucleus and putamen and revealed decreased expression of medium size spiny neuron marker DARPP-32 at 7 months of age. It is anticipated that this novel transgenic animal will represent a practical model for drug/clinical trials and surgical interventions especially aimed at delaying or preventing HD initiation. New sequence accession number for ovine HTT mRNA: FJ457100.

Periconceptional undernutrition in normal and overweight ewes leads to increased adrenal growth and epigenetic changes in adrenal IGF2/H19 gene in offspring

Adverse conditions in early life result in increased activation of the hypothalamo‐pituitary‐adrenal axis and in stress responsiveness in offspring. We have developed a model in which “donor” ewes are either normally nourished or overnourished prior to a period of dietary restriction, before transfer of the embryo at 6–7 d after conception to a ewe of normal weight and nutritional history. A moderate restriction of energy intake during the periconceptional period in both normal weight and overweight ewes resulted in increased adrenal mass in male and female lambs and an increased cortisol response to stress in female lambs. The increase in adrenal weight in lambs exposed to periconceptional under‐nutrition was associated with a decrease in the adrenal mRNA expression of IGF2 and decreased methylation in the proximal CTCF‐binding site in the differentially methylated region of the IGF2/H19 gene. Thus, weight loss in both normal and overweight mothers during the periconceptional period results in epigenetic modification of IGF2 in the adrenal gland, adrenal overgrowth, and increased vulnerability to stress in offspring. Determining the appropriate approach to weight loss in the periconceptional period may therefore be important in overweight or obese women seeking to become pregnant.—Zhang, S., Rattanatray, L., MacLaughlin, S. M., Cropley, J. E., Suter, C. M., Molloy, L., Kleemann, D., Walker, S. K., Muhlhausler, B. S., Morrison, J. L., and McMillen, I. C. Periconceptional undernutrition in normal and overweight ewes leads to increased adrenal growth and epigenetic changes in adrenal IGF2/H19 gene in offspring. FASEB J. 24, 2772–2782 (2010). www.fasebj.org

Differential effects of maternal obesity and weight loss in the periconceptional period on the epigenetic regulation of hepatic insulin-signaling pathways in the offspring

Our aim was to determine the effect of exposure to maternal obesity or to maternal weight loss around conception on the programming of hepatic insulin signaling in the offspring. We used an embryo transfer model in sheep to investigate the effects of exposure to either maternal obesity or to weight loss in normal and obese mothers preceding and for 1 wk after conception on the expression of hepatic insulin‐signaling and gluconeogenic factors and key miRNAs involved in insulin signaling in the offspring. We found that exposure to maternal obesity resulted in increased hepatic miR‐29b (P<0.05), miR‐103 (P<0.01), and miR‐107 (P<0.05) expression, a decrease in IR (P<0.05), phopsho‐Akt (P<0.01), and phospho‐FoxO1 (P<0.01) abundance, and a paradoxical decrease in 11βHSD1 (P<0.05), PEPCK‐C (P<0.01), and PEPCK‐M (P<0.05) expression in lambs. These changes were ablated by a period of moderate dietary restriction imposed during the periconceptional period. Maternal dietary restriction alone also resulted in decreased abundance of a separate subset of hepatic insulin‐signaling molecules, namely, IRS1 (P<0.05), PDK1 (P<0.01), phospho‐PDK1 (P<0.05), and aPKCξ (P<0.05) and in decreased PEPCK‐C (P<0.01) and G6Pase (P<0.01) expression in the lamb. Our findings highlight the sensitivity of the epigenome to maternal nutrition around conception and the need for dietary interventions that maximize metabolic benefits and minimize metabolic costs for the next generation.—Nicholas, L. M., Rattanatray, L., MacLaughlin, S. M., Ozanne, S. E., Kleemann, D. O., Walker, S. K., Morrison, J. L., Zhang, S., Muhlhausler, B. S., Martin‐Gronert, M. S., McMillen, I. C., Differential effects of maternal obesity and weight loss in the periconceptional period on the epigenetic regulation of hepatic insulin‐signaling pathways in the offspring. FASEB J. 27, 3786–3796 (2013). www.fasebj.org

Impact of Maternal Periconceptional Overnutrition on Fat Mass and Expression of Adipogenic and Lipogenic Genes in Visceral and Subcutaneous Fat Depots in the Postnatal Lamb

Women entering pregnancy with a high body weight and fat mass have babies who are at increased risk of becoming overweight or obese in later life. We investigated whether maternal overnutrition in the periconceptional period results in an increased fat mass and expression of adipogenic and lipogenic genes in offspring and whether dietary restriction can reverse these changes. Nonpregnant donor ewes (n = 23) were assigned to one of four groups: control-control fed at 100% maintenance energy requirements (MER) for at least 5 months, control-restricted fed 100% MER for 4 months and 70% MER for 1 month, high-high (HH) fed ad libitum (170-190% MER) for 5 months, or high-restricted (HR) fed ad libitum for 4 months and 70% MER for 1 month. Single embryos were transferred to nonobese recipient ewes, and lamb fat depots were weighed at 4 months. Peroxisome proliferator-activated receptor-γ, glyceraldehyde-3-phosphate dehydrogenase, lipoprotein lipase, leptin, and adiponectin mRNA expression was measured in the lamb fat depots. Total fat mass was higher in female lambs in the HH but not HR group than controls. There was a relationship between donor ewe weight and total fat mass and G3PDH mRNA expression in perirenal fat in female lambs. There was no effect of periconceptional nutritional treatment on peroxisome proliferator-activated receptor-γ, glyceraldehyde-3-phosphate dehydrogenase, lipoprotein lipase, leptin, and adiponectin mRNA expression in any fat depot. Thus, exposure to maternal overnutrition in the periconceptional period alone results in an increased body fat mass in the offspring and that a short period of dietary restriction can reverse this effect.

Real-time ultrasound imaging for predicting ovine fetal age

Fetal head width and thoracic depth were observed via real-time ultrasound imaging in 12 single-, 12 twin- and 4 triplet-bearing BooroolaxSouth Australian Merino ewes at weekly intervals during mid pregnancy. Fetal age varied by a maximum of 24 h. Relationships between fetal age and the linear measures (head width, thoracic depth) were determined within litter size categories, using both linear and quadratic terms. All relationships tested for linearity were statistically significant (P<0.05). A curvilinear relationship (P<0.05) was observed for fetal age and thoracic depth of twin fetuses. Significant (P<0.05) curvilinear relationships were also observed for fetal age and head width, and fetal age and thoracic depth when litter size data were pooled. We conclude that head width and thoracic depth are acceptable linear measurements for estimating fetal age in the ovine species. Implications of these results for research and for the commercial field are discussed.

Periconceptional Undernutrition Programs Changes in Insulin Signaling Molecules and MicroRNAs in Skeletal Muscle in Singleton and Twin Fetal Sheep

ABSTRACT Maternal undernutrition around the time of conception is associated with an increased risk of insulin resistance in adulthood. We determined the effect of maternal undernutrition in the periconceptional period (PCUN, i.e., 60 days prior to 6 days after conception) and the preimplantation period (PIUN, i.e., 0–6 days after conception) on mRNA expression and protein abundance of key insulin-signaling molecules as well as the global microRNA expression in quadriceps muscle of singleton and twin fetal sheep in late gestation. In singleton fetuses, exposure to PCUN resulted in lower protein abundance of PIK3CB (P < 0.01), PRKCZ (P < 0.05), and pPRKCZ (Thr410) (P < 0.05) in skeletal muscle compared to controls. In PIUN singletons, there was a higher protein abundance of IRS1 (P < 0.05), PDPK1 (P < 0.05), and SLC2A4 (P < 0.05) compared to controls. In twins, PCUN resulted in higher protein abundance of IRS1 (P < 0.05), AKT2 (P < 0.05), PDPK1 (P < 0.05), and PRKCZ (P < 0.001), while PIUN also resulted in higher protein abundance of IRS1 (P < 0.05), PRKCZ (P < 0.001), and SLC2A4 (P < 0.05) in fetal muscle compared to controls. There were specific patterns of the types and direction of changes in the expression of 22 microRNAs in skeletal muscle after exposure to PCUN or PIUN and clear differences in these patterns between singleton and twin pregnancies. These findings provide evidence that maternal undernutrition around the time of conception induces changes in the expression of microRNAs, which may play a role in altering the abundance of the key insulin-signaling molecules in skeletal muscle and in the association between PCUN undernutrition and insulin resistance in adult life.

Effect of Nutrition of Oocyte Donor on the Outcomes of Somatic Cell Nuclear Transfer in the Sheep

Abstract The purpose of this study was to determine if the nutrition of the oocyte donor ewe influenced the success of somatic cell cloning. Merino ewes were fed at either a high- or a low-nutrition level for 3–5 mo before superovulation treatments. Freshly ovulated oocytes were enucleated and fused with serum-starved adult granulosa cells, and resulting reconstructed embryos were cultured for 6 days in modified synthetic oviduct fluid. Embryo cleavage and development to blastocysts were recorded, and good-quality embryos were transferred to synchronized recipient ewes either fresh or, on a few occasions, after vitrification. Pregnancies were monitored by ultrasonography from Day 40 of pregnancy, and offspring were delivered by either cesarean section or vaginal delivery. No differences occurred in the numbers of follicles aspirated, of oocytes recovered, or of oocytes utilizable for cloning between the high and low groups. Neither were there treatment differences in development to the blastocyst stage. However, transfer of embryos from the high group led to significantly more pregnancies and implanted fetuses. Also, more of the established pregnancies from the high group were carried to term, although this difference was not statistically significant. Lamb mortality was high, with half the live-born perishing soon after birth and more succumbing to various infections within days or weeks of birth, but no clear association between the offspring fate and the treatment group could be established. These results suggest that more research into the effect of nutrition on oocyte quality and its subsequent effect on cloning is warranted.

No differences in sheep somatic cell nuclear transfer outcomes using serum-starved or actively growing donor granulosa cells

The aim of this study was to compare serum-starved and non-starved donor cells in sheep nuclear transfer with a special emphasis on cloning outcomes. Sheep oocytes, derived either in vivo or in vitro, were fused with cultured serum-starved or actively growing adult granulosa cells. Resulting blastocysts were transferred to recipients fresh or after vitrification, and subsequent pregnancies followed to term. Donor cell treatment did not significantly affect preimplantation development, pregnancy rates, fetal loss or neonate survival rates. Of 22 lambs born, ten survived the immediate perinatal period but all succumbed at various timepoints within the first few weeks of life. The results of the study suggest that the use of serum-starved cells offers no advantages or disadvantages to cloning outcomes. Neither were significant differences in outcomes observed when using either in vivo- or in vitro-derived oocytes or embryos transferred fresh or after vitrification. Yet, these results continue to highlight problems associated with somatic cell cloning as indicated by offspring mortality. It remains unclear whether the high offspring mortality in the current study was related to species, associated with the cell lines used or the result of other causes.