Syndrome of arachnomelia in Simmental cattle.

BACKGROUND: The syndrome of arachnomelia is an inherited malformation mainly of limbs, back and head in cattle. At present the arachnomelia syndrome has been well known mainly in Brown Swiss cattle. Nevertheless, the arachnomelia syndrome had been observed in the Hessian Simmental population during the decade 1964-1974. Recently, stillborn Simmental calves were observed having a morphology similar to the arachnomelia syndrome. The goal of this work was the characterization of the morphology and genealogy of the syndrome in Simmental to establish the basis for an effective management of the disease. RESULTS: The first pathologically confirmed arachnomelia syndrome-cases in the current Simmental population appeared in the year 2005. By 2007, an additional 140 calves with the arachnomelia syndrome were identified. The major pathological findings were malformed bones affecting the head, long bones of the legs and the vertebral column. It could be shown that, with the exception of two cases that were considered as phenocopies, all of the paternal and about two-third of the maternal pedigrees of the affected calves could be traced back to one common founder. Together with the data from experimental matings, the pedigree data support an autosomal recessive mutation being the etiology of the arachnomelia syndrome. The frequency of the mutation in the current population was estimated to be 3.32%. CONCLUSION: We describe the repeated occurrence of the arachnomelia syndrome in Simmental calves. It resembles completely the same defect occurring in the Brown Swiss breed. The mutation became relatively widespread amongst the current population. Therefore, a control system has to be established and it is highly desirable to map the disease and develop a genetic test system.

The variability of ovum pick-up response and in vitro embryo production from monozygotic twin cows.

Oocytes were recovered by ovum pick up (OPU) from nine pairs of monozygotic twin German Simmental cows. The hypothesis was that there is less variability between identical twins versus among non-related individuals in the variation in the recovery of oocytes by OPU and in the efficiency of in vitro embryo production. Estrous cycles were synchronized with two doses of cloprostenol, 11 days apart. Beginning 3-4 days after synchronized estrus, OPU was done twice weekly (every 3 or 4 days; total of 11 sessions). The influence of repeated OPU on estrous cyclicity was established by estrus detection, plasma progesterone concentrations, and ovarian ultrasonography. There were no differences among days of collection for the number and quality of cumulus oocyte-complexes (COCs), and rates of cleavage and blastocyst formation. A total of 1,661 COCs, including 657 (39.6%) good-quality COCs, were recovered. From 1,457 (87.7%) cultured COCs, 827 zygotes cleaved and 314 blastocysts were produced on Day 7. The total number of COCs and the blastocyst rates varied among pairs of monozygotic twins; within pairs, only slight differences were observed. In conclusion, recovery of COCs and production of embryos had substantially less variation within pairs of monozygotic twins than among non-related cattle.

Evaluation of laser-assisted lentiviral transgenesis in bovine.

Lentiviral transduction of oocytes or early embryos is an efficient strategy to generate transgenic rodents and livestock. We evaluated laser-based microdrilling (MD) of the zona pellucida, which is a physical barrier for viral infection, and subsequent incubation in virus suspension as a new route for lentiviral transgenesis in bovine. Lentiviral vectors carrying an eGFP expression cassette were used to transduce oocytes or zygotes after MD as compared to the established subzonal virus injection technique (MI). The type of manipulation (MD vs. MI) did not affect cleavage rates, but had a significant effect on blastocyst rates (P < 0.001). MI of virus or sham-MI (buffer) resulted in higher blastocyst rates as compared to MD, both in the oocyte and zygote treatment groups. The latter exhibited higher rates of early cleavage (P < 0.05) and blastocyst rates (P < 0.01). The proportion of eGFP expressing blastocysts was higher after infection of oocytes (MD: 44 +/- 9%; MI: 67 +/- 8%) than after infection of zygotes (MD: 26 +/- 8%; MI: 26 +/- 9%). Overall efficacy (eGFP-positive blastocysts per treated oocytes or zygotes) was highest after MI of oocytes (18 +/- 2%). Our study demonstrates the feasibility of laser-assisted lentiviral gene transfer into bovine oocytes and zygotes. However, further optimization of the procedure is required, mainly to reduce the incidence of polyspermy after MD of oocytes and to eliminate negative effects of MD on early embryonic development.

Tissue-specific effects of in vitro fertilization procedures on genomic cytosine methylation levels in overgrown and normal sized bovine fetuses.

Epigenetic perturbations are assumed to be responsible for phenotypic abnormalities of fetuses and offspring originating from in vitro embryo techniques. We studied 29 viable Day-80 bovine fetuses to assess the effects of two in vitro fertilization protocols (IVF1 and IVF2) on fetal phenotype and genomic cytosine methylation levels in liver, skeletal muscle, and brain. The IVF1 protocol employed 0.01 U/ml of FSH and LH in oocyte maturation medium and 5% estrous cow serum (ECS) in embryo culture medium, whereas the IVF2 protocol employed 0.2 U/ml of FSH and no LH for oocyte maturation and 10% ECS for embryo culture. Comparisons with in vivo-fertilized controls (n=14) indicated an apparently normal phenotype for IVF1 fetuses (n=5), but IVF2 fetuses (n=10) were significantly heavier (19.9%) and longer (4.7%), with increased heart (25.2%) and liver (27.9%) weights, and thus displayed an overgrowth phenotype. A clinicochemical screen of 18 plasma parameters revealed significantly increased levels of insulin-like growth factor 1 (40.8%) and creatinine (37.5%) in IVF2, but not in IVF1, fetuses. Quantification of genomic 5-methylcytosine (5mC) by capillary electrophoresis indicated that both IVF1 and IVF2 fetuses differed from controls. We observed significant DNA hypomethylation in liver and muscle of IVF1 fetuses (-16.1% and -9.3%, respectively) and significant hypermethylation in liver of IVF2 fetuses (+11.2%). The 5mC level of cerebral DNA was not affected by IVF protocol. Our data indicate that bovine IVF procedures can affect fetal genomic 5mC levels in a protocol- and tissue-specific manner and show that hepatic hypermethylation is associated with fetal overgrowth and its correlated endocrine changes.

Generation of transgenic cattle by lentiviral gene transfer into oocytes.

The potential benefits of transgenic cattle range from the production of large quantities of pharmaceutically relevant proteins to agricultural improvement. However, the production of transgenic cattle is presently time-consuming and expensive because of the inefficiency of the classical DNA microinjection technique. Here, we report the use of lentiviruses for the efficient generation of transgenic cattle. Initial attempts to produce transgenic cattle by lentiviral infection of preimplantation embryos were not successful. In contrast, infection of bovine oocytes with lentiviral vectors carrying an enhanced green fluorescent protein (eGFP) expression cassette followed by in vitro fertilization resulted in the birth of transgenic calves. Furthermore, all of the calves generated by infection of oocytes were transgenic, and 100% of these animals expressed eGFP as detected by in vivo imaging and Western blotting. In addition, a transgenic calf was produced by infection of fetal fibroblasts followed by nuclear transfer into enucleated oocytes. Taken together, after adjusting lentiviral transgenesis to cattle, unprecedented high transgenesis and expression rates were achieved.

Efficient transgenesis in farm animals by lentiviral vectors.

Microinjection of DNA is now the most widespread method for generating transgenic animals, but transgenesis rates achieved this way in higher mammals are extremely low. To address this longstanding problem, we used lentiviral vectors carrying a ubiquitously active promoter (phosphoglycerate kinase, LV-PGK) to deliver transgenes to porcine embryos. Of the 46 piglets born, 32 (70%) carried the transgene DNA and 30 (94%) of these pigs expressed the transgene (green fluorescent protein, GFP). Direct fluorescence imaging and immunohistochemistry showed that GFP was expressed in all tissues of LV-PGK transgenic pigs, including germ cells. Importantly, the transgene was transmitted through the germ-line. Tissue-specific transgene expression was achieved by infecting porcine embryos with lentiviral vectors containing the human keratin K14 promoter (LV-K14). LV-K14 transgenic animals expressed GFP specifically in basal keratinocytes of the skin. Finally, infection of bovine oocytes after and before in vitro fertilization with LV-PGK resulted in transgene expression in 45% and 92% of the infected embryos, respectively.