Tyrosine kinase A, C and fibroblast growth factor-2 receptors in bovine embryos cultured in vitro.

Neurotrophins and basic fibroblast growth factor are ligands of tyrosine kinase receptors, though they bind to different tyrosine kinase receptor classes. Neurotrophins bind to receptor tyrosine kinase class VII, Trk receptor family, while basic fibroblast growth factor binds to receptor tyrosine kinase class IV, FGF receptor family. The mammalian uterine tract immunolocalizes neurotrophins and bFGF; therefore their cognate receptors might exert a role during embryonic development. Using RT-PCR, we found mRNA for p75(NTR) TrkA, TrkC and FGFr2 throughout the early bovine embryonic development in vitro. Immunofluorescent staining, assessed by confocal microscopy, showed the expression of TrkA and TrkC proteins in oocytes and all embryonic stages analyzed. We have provided a novel description of TrkA and TrkC proteins, and TrkA, TrkC, p75(NTR) and FGFr2 mRNA expression throughout mammalian embryonic development. This work may help to design future research with neurotrophins in bovine embryo culture and embryonic stem cells.

Vitrification of bovine blastocysts produced in vitro inflicts selective damage to the inner cell mass.

In contrast to the embryos derived from live animals, the embryos produced in vitro undergo increased damage and reduced survival after cryopreservation, particularly when produced with serum. In medium containing serum, retinoic acid increases cell numbers in the inner cell mass and the trophectoderm without altering their relative proportions in the bovine blastocyst. In this work, in medium without serum, we analyzed the contribution of retinoic acid to the development of blastocyst and survival to vitrification, and found a strong cell reduction in the inner mass when compared to the trophectoderm. Day-6 in vitro-produced morulae were treated for 24 h with retinoic acid (0.7 and 1.4 microm) and subsequently cultured without additives for a further 24 h period. Day-8 blastocyst production and cell counts in hatched blastocysts were unaffected by retinoic acid. However, Day-7 expanded, vitrified embryos produced with retinoic acid 1.4 microm survived at lower rates than controls when cultured after warming. Vitrification greatly reduced cell numbers in the inner mass (p < 0.0001), while cells in the trophectoderm remained unaltered. Differential cell counts analysis in blastocysts should be taken up to replace unspecific determination of total cells to appreciate substantial modifications in their exact terms. The strong reduction we found in the inner cell mass could explain why in vitro survival to cryopreservation is sometimes scarcely informative on the viability of the embryo after transfer to recipients.

Conventional pluripotency markers are unspecific for bovine embryonic-derived cell-lines.

Bovine embryonic stem cells are of potentially big value in transgenic research and studies of lineage commitment and development. Nevertheless, key aspects of the establishment of bovine embryonic stem cells such as the identification of specific pluripotency markers need to be clarified to achieve successful results. Bovine blastocysts were produced in vitro and cultured for 8 days up to the expanded or hatched stage. The trophectoderm, the inner cell mass and its embryonic stem cell-derived lines, all showed a common positive immunocytochemical staining for stage-specific embryonic antigen-4, tumour-rejection antigen gp96 and NANOG proteins. The antigenic profile obtained partially agrees with previous data from bovine and other species. Until a validated pluripotent bovine stem cell marker can be identified, it might be advisable to combine the use of epiblast and trophoblast-specific markers to rule out the presence of early committed trophectoderm cells in bovine embryonic stem cell cultures.

Serum free embryo culture medium improves in vitro survival of bovine blastocysts to vitrification.

The aim of this study was to examine the effects of co-culture with Vero cells during the in vitro maturation (IVM) and three culture media, B2+5% fetal calf serum (FCS) on Vero cells, synthetic oviduct fluid (SOF)+5% FCS, and SOF+20 gL(-1) bovine serum albumin (BSA), on the developmental competence of the embryos and their ability to survive vitrification/warming. We also tested the effect of morphological quality and the age of the embryo on its sensitivity to vitrification. The IVM system neither affects the embryo development up to Day 7 nor survival rates after vitrification. The culture of embryos in SOF+FCS and in Vero cells+B2 allowed obtaining more Day 6 and Day 7 blastocysts, and a higher % of Day 7 blastocysts vitrified than culture in SOF+BSA. Contrarily, on Day 8, more blastocysts were vitrified in SOF+BSA than in SOF+FCS. Blastocysts quality affected development after vitrification/warming, and Day 7 embryos showed higher survival rates than their Day 8 counterparts. Day 7 blastocysts produced in Vero cells or in SOF+BSA survived at higher rates than those produced in SOF+FCS at 24 and 48 h after warming. Embryo culture with BSA allows obtaining hatching rates after vitrification/warming higher than those obtained after co-culture with Vero cells in B2 and FCS. Moreover, this system provides hatching rates from Day 8 blastocysts comparable to those obtained on Day 7 in Vero cells. Further studies, including embryo transfer to recipients, are needed to clarify factors affecting the freezability of in vitro produced bovine embryos.

Retinoid receptor-specific agonists regulate bovine in vitro early embryonic development, differentiation and expression of genes related to cell cycle arrest and apoptosis.

A major goal in reproductive biotechnology is the identification of pathways that regulate early embryonic development and the allocation of cells to the inner cell mass (ICM) and trophectoderm (TE). Retinoids regulate the development and differentiation of the bovine blastocyst in vitro, although the involvement of the retinoid X receptors (RXRs) remains to be clarified. This paper compares the effect of a synthetic RXR agonist (LG100268; LG) with that of the retinoic acid receptor (RAR) agonist all-trans retinoic acid (ATRA) on blastulation. In vitro-produced morulae were treated for 48 h with LG (0.1 microM, 1 microM and 10 microM), ATRA 0.7 microM, or no additives. Treatment with ATRA did not increase the rate of development; however, the LG 0.1 microM treatment increased both the blastocyst development and hatching rate. Cell numbers increased in the ICM with LG 10 microM, while a dose-dependent reduction was observed in the TE in the presence of LG. Gene expression levels of p53 and p66 did not vary with LG but increased with ATRA. Both LG and ATRA activated bax, a pro-apoptotic gene and H2A.Z, a cell cycle-related gene. The above effects suggest the existence of active p53-dependent and -independent apoptotic pathways for ATRA and LG, respectively, in the bovine embryo. The expression of p53 and H2A.Z showed a strong, positive correlation (r=0.93; p<0.0001) in all experimental groups; both proteins are linked through the cell cycle. Agonists of RXR could be used to control blastocyst development and differentiation.

Effects of human versus mouse leukemia inhibitory factor on the in vitro development of bovine embryos.

Leukemia inhibitory factor (LIF) is a cytokine that shows conflicting effects on in vitro produced (IVP) bovine embryos. Bovine LIF (bLIF) has been cloned and used in culture, but there is no commercially available bLIF. Thus, researchers use human LIF (hLIF) to supplement the culture medium for bovine embryos because of its greater sequence homology compared to murine LIF (mLIF). We compared the effects of mLIF and hLIF on the development of bovine embryos in culture with the effects described for bLIF. Oocytes were matured and fertilized in vitro and cultured in modified synthetic oviduct fluid with BSA. On Day 6 post-insemination, morulae were cultured for 48h in the presence of: (1) mLIF, 100ngml(-1); (2) hLIF, 100ngml(-1); or (3) no LIF. Reduced blastocyst rates were observed on Day 8 for hLIF at the middle and expanded stages, while mLIF had no effect. In contrast, Day 8 blastocysts showed decreased cell counts both in terms of inner cell mass (ICM) and ICM/total cell proportions in the presence of mLIF, while hLIF had no effect. No changes were seen in trophectoderm (TE) and total cell counts. The increased hatching rates and TE cell counts previously described for bLIF, together with the disparate effects exhibited by hLIF and mLIF during blastocyst formation indicate these compounds are inappropriate to replace bLIF. We recommend that heterospecific LIF should not be used to supplement the culture medium for bovine embryo or embryonic stem cells.

Bovine early embryonic development and vitamin A.

Vitamin A and its derivatives, collectively termed as retinoids, have been paid attention in recent years because of their effects in bovine reproduction. However, the role of retinoids in the pre-implantation period continues to be largely unexplored, in contrast to later stages of development. Retinoids control cell growth, differentiation and death through binding to specific nuclear receptors by retinoic acid and other active metabolites. This paper reviews how retinoids can influence early embryonic development in cattle through their influence on the follicle, the extrafollicular oocyte and the pre-implantation embryo itself.

Retinoids during the in vitro transition from bovine morula to blastocyst.

BACKGROUND: The conversion of retinol (ROH) to retinoic acid (RA) is crucial during development but has been not studied during blastocyst formation. METHODS AND RESULTS: In vitro-produced bovine morulae were treated for 24 h with citral (which inhibits the synthesis of RA from ROH), citral + all trans retinoic acid (ATRA), ATRA or no additives. Citral interfered with blastocyst development, whereas exogenous RA had no effect. RA, however, reversed the effect of citral on development and stimulated cell proliferation. Neither citral nor RA changed the apoptotic index, but RA triggered an increase in the apoptotic frequency of the inner cell mass. Citral and RA reduced the necrotic index. Na/K-ATPase alpha1-subunit mRNA concentrations (analysed by real-time PCR) increased after hatching and showed dependence on retinoid activity, but no evidence was found of any retinoid effect on p53 expression. Nevertheless, the p53 mRNA concentration increased in response to proliferation in hatched blastocysts. CONCLUSION: The preimplantation bovine embryo metabolizes endogenous ROH to RA, which participates in important cell processes. The true extent of the influence of RA is unknown, although the modulation of retinoid metabolism seems to be a means of increasing cell proliferation. This knowledge might be used to improve embryo quality and the efficiency of stem cell derivation.

Oocytes recovered from cows treated with retinol become unviable as blastocysts produced in vitro.

Retinoids have been shown to enhance developmental competence of the oocyte in cattle, sheep and pigs. In this study we investigated whether exogenous retinol stimulates the bovine oocyte during its intrafollicular growth and the time limits of exposure to exogenous retinol. In addition, we also determined the efficiency of ovum pick-up techniques in combination with retinol treatment and the viability of embryos after transfer to recipients. In Experiment 1, heifers were injected with retinol or vehicle, and concentrations of retinol in the blood were analysed on Day 0 (prior to injection), Day 1 and, together with follicular fluid, Day 4. Blood retinol increased by Day 1 and cleared on Day 4, but retinol remained higher within the follicle. In Experiment 2, oocyte donors were injected weekly with retinol or vehicle four times during a twice-per-week cycle of eight recovery sessions (starting 4 days before the first session), followed by a second eight-session cycle without treatment. Oocytes recovered were fertilized and cultured in vitro. Retinol treatment yielded higher numbers of low-quality oocytes throughout, although retinol measured during cycles did not change. Total oocytes, and morulae and blastocyst rates, increased during the first five sessions following treatment with retinol. As previously shown with oocytes from slaughterhouse ovaries, retinoic acid stimulated blastocyst development. Following transfer to recipients, blastocysts from oocytes exposed to retinol were unable to establish pregnancy. Our study confirms the existence of an effect of retinol on the intrafollicular oocyte in the cow and provides evidence regarding the teratogenic effect of retinol.

Pregnancies and improved early embryonic development with bovine oocytes matured in vitro with 9-cis-retinoic acid.

Retinoids have an important role in cell growth, morphogenesis and differentiation. In the present study the developmental potential of bovine oocytes was examined after in vitro maturation in the presence of 9-cis-retinoic acid, a vitamin A metabolite, at 5 nmol l(-1) in chemically defined conditions. Experiments studied early in vitro development, blastocyst differential cell counts and the capacity of embryos to establish pregnancy after transfer to recipients. After in vitro fertilization and culture in simple medium, blastocyst development and hatching rates increased in oocytes matured with 9-cis-retinoic acid. Addition of ethanol (used as a solvent for 9-cis-retinoic acid) resulted in higher cell counts and proportions of cells in the inner mass of day 7 blastocysts. Day 8 blastocysts represented most differences observed in the number of cells. In these embryos, ethanol and 9-cis-retinoic acid increased both the number of cells and proportions in the inner mass. However, while ethanol treatment reduced the number of cells in the trophectoderm, 9-cis-retinoic acid did not. The total number of cells was unaffected by treatment within 1 day, although untreated oocytes lead to day 8 blastocysts with reduced total cell counts. Once transferred to recipients, both fresh and vitrified-warmed blastocysts derived from oocytes matured with 9-cis-retinoic acid yielded more pregnancies at day 60. Modifications of retinoid metabolism affect development and trophectoderm differentiation, and in vitro maturation with 9-cis-retinoic acid increased the developmental competence of the oocyte.

Enhancement of developmental capacity of meiotically inhibited bovine oocytes by retinoic acid.

BACKGROUND: Although high vitamin A may be teratogenic to the embryo, retinol has been shown to support oocyte developmental potential in vivo. Similarly, addition of retinol metabolite 9-cis-retinoic acid to in-vitro cultured oocytes could promote cytoplasmic maturation and subsequent early embryonic development. The objective of this study was to evaluate the effects of 5 nmol/l retinoic acid during in-vitro pre-maturation and maturation of bovine oocyte-cumulus complexes. METHODS AND RESULTS: Oocytes were aspirated from cows and either kept under meiotic arrest with 25 micro mol/l roscovitine and matured, or allowed to mature in permissive conditions (control). Cortical granule migration was analysed both after pre-maturation and maturation by fluorescent labelling of oocytes and subsequent laser confocal and fluorescence microscopy. Variables studied after in-vitro fertilization and culture in modified synthetic oviduct fluid were: (i) in-vitro embryonic development; (ii) ability of blastocysts to survive vitrification and warming; and (iii) differential cell counts measured by fluorescence microscopy. Although the presence of 5 nmol/l retinoic acid throughout in-vitro maturation was harmful, its presence during pre-maturation alone improved cytoplasmic granular migration, embryonic development, cryopreservation tolerance, total cell numbers and, as a consequence, embryonic quality. CONCLUSIONS: Pre-maturation in the presence of retinoic acid improves cytoplasmic competence of in-vitro matured bovine oocytes. Until more is known of the molecular mechanisms it would be irresponsible to use retinoic acid in maturation of human oocytes, especially in view of the narrow time window and possible species-specific differences in susceptibility and protection of the oocyte from epigenetic influences of retinol.