Recovery and evaluation of somatic cells from ovine and bovine semen for use in nuclear transfer

Liu, Jie

15 May 2009

Somatic cells in semen are a potential source of nuclei for cloning animals bysomatic cell nuclear transfer. Culture of the cells from frozen semen, if possible, wouldbe extremely valuable for preservation or restoration of endangered, exotic, and extinctanimals when other ways of obtaining somatic cells are unavailable. In the present study,somatic cells isolated from ovine and bovine semen samples were characterized, culturesystems were evaluated for attachment and proliferation of these cells, and usefulness ofthese cells for somatic cell nuclear transfer was determined.Semen samples were collected from eight rams representing three breeds:Dorper, Suffolk, and Hampshire and nine bulls representing three breeds: Charolais,Brahman, and a crossbred Brahman. Somatic cells were isolated immediately postcollection by centrifuging through percoll columns and the epithelial cells wereidentified by immunofluorescence analysis. Culture systems were evaluated for theirability to support attachment and proliferation of the cells. A supplemented mediumcomposed of DMEM/F12, 10% fetal bovine serum, 10 ng/ml epidermal growth factor, 30 g/ml bovine pituitary extract, 5 g/ml insulin, 10 ng/ml cholera toxin, and 50 g/mlgentamicin significantly improved cell proliferation over sheep fetal fibroblastconditionedmedium, 3T3 cell-conditioned medium, and basic medium (p<0.05). Cellproliferation and attachment were further improved when Matrigel-coated culturesurfaces were used (p<0.05). However, the system was not adequate for obtaining cellgrowth from frozen semen.To check the chromosome anomalies, metaphase chromosomal complements ofthe cells cultured from 4 rams were evaluated. The predominant chromosome number ofcells from three of the rams (Dorper 18-month-old; Suffolk 17-month-old; Suffolk 18-month-old) was 2n = 54, which is the normal modal number for sheep. However, thenumbers of chromosomes of cells cultured from the fourth ram (Hampshire, 18-monthold)were near-triploid. These results indicate the need for chromosome analysis of cellsbefore using them for cloning experiments. In our attempts to clone animals, blastocyststage embryos were successfully produced using epithelial cells cultured from semen ofthree different bulls. However, no compact morulae or blastocysts were obtained whensomatic cells isolated from frozen semen but not cultured were used as donor cells.

somatic cells

semen

nuclear transfer

ovine

bovine

Fatty Acid Carcass Mapping

Turk, Stacey N.

14 January 2010

We hypothesized that subcutaneous (s.c.) adipose tissue would differ in monounsaturated (MUFA) and saturated fatty acid (SFA) composition among different depots throughout a beef carcass. To test this, 50 carcasses from a variety of breed types and backgrounds were sampled. External fat samples were collected from eight different carcass locations: round, sirloin, loin, rib, chuck, brisket, plate and flank. Samples were used to provide information on slip points, fatty acid composition and MUFA:SFA ratios. Lipids were extracted from s.c. adipose tissue by a modified chloroform:methanol procedure, and fatty acid composition and slip points were measured. The brisket was significantly lower in palmitic (16:0) and stearic (18:0) acid than the other seven sampling sites (P = 0.001). The brisket demonstrated the highest values of MUFA (P = 0.001) with the exception of possessing the lowest value of transvaccenic (18:1t11) acid (P = 0.002). There were also significant differences in the amounts of PUFA among the eight sampling sites. The lowest values were from the brisket with a mean of 25.1. The flank had the highest slip point with a mean of 39.0 (P < or = 0.001). There was a high negative correlation shown between palmitoleic and stearic acid (R2 = 0.827). The brisket displayed the highest values for MUFA:SFA ratios (P = 0.001), whereas the flank was the lowest. Due to the significant differences amongst fat depots within bovine carcasses in their fatty acid composition we conclude that substantial differences exist across fat depots.

Bovine

Adipose tissue

Carcass mapping

Fatty acids

Expression of Candidate Genes for Horn Growth in Early Bovine Development

Vitanza, Sarah M.

2009 December 1900

Bovine horns develop primarily after birth and the presence or absence of horns is due to a single gene. It has been reported that the horn bud appears in the bovine embryo at d 60 of gestation. Our hypothesis is that the gene that determines the presence of horns is expressed in osteoprogenitor cells of the early fetus and will affect the expression of RUNX2, MSX1, MSX2, and/or TWIST1. To test this hypothesis, bovine fetal samples were collected from commercial females at the Caviness Packing Company in Hereford, Texas. Fetuses ranged from d 28 to d 80 of gestation. A survey of the expression of genes from the region on bovine chromosome 1 known to contain the locus that causes horns (IFNAR1 to SOD1), was conducted using qualitative and quantitative RT-PCR, and in situ hybridization. Genes with known roles in osteogenesis and chrondrogenesis (MSX1, TWIST1, RUNX2 and SOX9) were included as positive controls. With the exception of OLIG1, which was only expressed in the brain, all of the genes investigated were expressed in fetal frontal and parietal bones by qualitative RT-PCR. The level of expression of C21orf59, C21orf66, IL10RB, and SFRS15 increased in the frontal bone of horned samples from d 55 to d 70 of gestation. At d 60 of gestation, a change in the shape of the frontal bone was observed, which has been reported to be the developmental stage when the horn bud appears. At this time point, MSX1, TWIST1, RUNX2 and SOX9 were detected in frontal bone, in cells from the osteoblast lineage, as expected. Furthermore, C21orf59, C21orf62, C21or66 and SFRS15 from the polled interval were localized to developing mesenchyme, osteoblasts and/or osteoclasts of the frontal bone, suggesting that each of these genes has a role in intramembranous bone formation. In addition, gradients of expressed C21orf66 and SFRS15 were detected in developing endochondral bone. There was evidence of an antisense transcript of C21orf66 expressed in the same cell types as the sense transcript. Further characterization of this antisense transcript demonstrated that it covered the entire sense transcript. Based on observed expression in the mesenchyme, rather than just in mature osteoblasts or osteoclasts, C21orf66 and/or its antisense transcript become the most likely candidates for the polled locus.

Bovine

Horns

Polled

Intramembranous bone

Fetal development

Role of leptin in regulating the bovine hypothalamic-gonadotropic axis

Amstalden, Marcel

30 September 2004

The physiological mechanisms through which nutrition mediates its effects in controlling reproduction are not well characterized. Both neural and endocrine components have been implicated in the communication of nutritional status to the central nervous system. Leptin, a hormone synthesized and secreted mainly by adipocytes, is heavily involved in this communication network. The objectives of studies reported herein were 1) to determine the effects of short-term restriction of nutrients on circulating leptin, leptin gene expression in adipose tissue, and leptin receptor (LR) gene expression in the adenohypophysis of ovariectomized cows; and 2) to investigate the responsiveness of the hypothalamic-adenohypophyseal (AP) axis of fasted and non-fasted cattle to leptin. Studies demonstrated that circulating concentrations of leptin and leptin gene expression in subcutaneous adipose tissue are decreased by fasting. Although 2 to 3 days of fasting did not affect patterns of release of luteinizing hormone (LH), cerebroventricular infusions of leptin increased mean circulating concentrations of LH in fasted, but not normal-fed cows, without affecting frequency or amplitude of pulses of LH. In vitro studies were conducted to determine whether the in vivo effects of leptin could be accounted for at the hypothalamic and/or AP levels. Leptin did not affect the release of gonadotropin-releasing hormone (GnRH) from hypothalamic-infundibular explants from either normal-fed or fasted cattle. Moreover, leptin did not affect the basal release of LH from bovine AP cells or AP explants from normal-fed cows. However, leptin induced a higher basal release of LH from AP explants of fasted cows and increased GnRH-stimulated release of LH from AP explants of normal-fed cows. Results demonstrate that leptin acts directly at the AP level to modulate the secretion of LH, and its effects are dependent upon nutritional status. Cellular mechanisms associated with the increased responsiveness of gonadotropes to leptin in fasted cows were investigated. Expression of LR and suppressor of cytokine signaling-3 (SOCS-3) in the adenohypophysis did not account for the increased responsiveness of fasted cows to leptin. Therefore, although leptin clearly stimulates the hypothalamic-gonadotropic axis in nutrient-restricted cattle, it is unclear why cattle maintained under neutral or positive energy balance are resistant to leptin.

Bovine

Leptin

LH

GnRH

Neuroendocrinology

Adenohypophysis

Hypothalamus

The development of a bovine interspecies model for the analysis of genomic imprinting in normal and nuclear transfer derived fetuses

Dindot, Scott Victor

15 November 2004

The advent of somatic cell nuclear transfer in cattle has provided the opportunity for researchers to generate genetically identical animals as well as animals that possess precise genetic modifications for agriculture and biomedical purposes. However, in spite of the revolutionary impact this technology presents, problems remain which hinder the production of healthy animals on a consistent basis. Research on cloned mice implicates improper reprogramming of epigenetic modifications and genomic imprinting for the low pregnancy rates and high incidence of abnormalities that are manifested in cloned animals; however, a systematic and comprehensive analysis of nuclear reprogramming in cloned cattle remains undone. The purpose of this research is to assess and characterize the patterns of genomic imprinting in normal and nuclear transfer derived bovine fetuses. To facilitate the identification of imprinted genes in the bovine, a Bos gaurus/Bos taurus interspecies model has been incorporated to maximize the genetic heterozygosity that exists between the alleles of putative imprinted genes for allelic discrimination and parental inheritance. The sequence of twenty-six genes, previously reported as imprinted in mice and humans, was analyzed in Bos gaurus (Gaur) and Bos taurus (Angus) cattle for the presence of single nucleotide polymorphisms (SNP). SNPs were detected in the Gene trap locus 2 (GTL2), Insulin like growth factor 2 (IGF2), Wilms tumor 1 (WT1) and the X chromosome inactivation specific transcript (XIST). Allelic expression analysis in interspecies hybrids indicated maternal genomic imprinting at the IGF2 and XIST loci, paternal genomic imprinting at the GTL2 locus and no imprinting at the WT1 locus. Analysis in cloned hybrids indicated fidelity of allelic expression at the IGF2 and GTL2 loci, however disruption of imprinting was observed at the XIST locus in the placenta of clones. These results are the largest identification of imprinted genes in the bovine and the first identification of the disruption of an imprinted gene in an animal derived from somatic cell nuclear transfer.

imprinting

epigenetics

bovine

cloning

nuclear transfer

Structural and functional characterization of the polled interval on bovine chromosome 1

Wunderlich, Kris Rakowitz

10 October 2008

The horned condition in cattle is believed to be the wild type with morphogenesis primarily occurring after birth. The polled condition has existed since domestication and has been selected for its economic importance. The polled locus has previously been mapped by genetic linkage analysis to the proximal region of bovine chromosome 1. In order to help us eventually identify the causative mutation, the objective of the study was to structurally and functionally characterize the polled interval from IFNAR1 to SOD1 on BTA1. Our hypothesis was that the polled locus is a tissue specific transcription factor that is expressed in the developing horn buds and acts directly or indirectly upon SOX9. A 2.5 Mb BAC contig and STS content map of the polled interval was constructed. Three candidate genes encoding transcription factors were identified within this region but only C21orf66 was expressed in the horn buds from 1 d old Bos indicus influenced calves. The C21orf66 gene has 18 exons, spans 30,976 bp of genomic DNA, and 144 SNP were identified. No single SNP discovered in C21orf66 can be attributed as the causative mutation. None of the genes from the polled interval were differentially expressed in skin and horn from 1 d old Bos indicus influenced calves. However, there were significant differences in the levels of expression of RUNX2, SOX9, BMP4, PRKCA, and FOXL2 in these samples. Expression of RUNX2 was localized to the osteoblasts, and both RUNX2 and SOX9 were expressed in sebaceous glands of the horn at 1 d of age. Histological examination of horns and scurs from newborn, 5 to 6 mo, and ~1.5 yr old Bos indicus influenced cattle suggest that horns form through intramembranous ossification. Based on the data presented herein, we propose that the polled locus is upstream of RUNX2 and SOX9 in the osteogenic pathway, and could have its primary effect on the differentiation of mesenchymal condensations. The genes IL10RB, SFRS15, C21orf66, OLIG1, OLIG2 and HUNK remain candidates for the polled locus and warrant further investigation.

Horn

Polled

Bovine

Chromosome 1

Gene Expression

A la découverte d'un fromage fermier l'Ecir en Aubrac /

Buzon, Sophie de Bailly, Jean-Denis

January 2007

Reproduction de : Thèse d'exercice : Médecine vétérinaire : Toulouse 3 : 2007. / Titre provenant de l'écran titre. Bibliogr. p. 85-90.

Fromage au lait cru Aubrac (race bovine)

Effects of Taenia saginata cysticercosis on myocardial and other tissues of bovine

White, Larry Timothy, 1949-

January 1974

No description available.

Bovine cysticercosis.

Tapeworms.

Dairy cattle -- Parasites.

Effects of Milking Frequency on Milk Yield, Composition and Indices of Mammary Gland Metabolism in Lactating Dairy Cows

Puthenparampil Alex, Abraham

January 2009

Six primiparous Holstein cows were assigned to a half udder design (n=6) 40 days prior to parturition. Beginning at parturition, one udder half was milked once daily (24hr interval) and the other four times daily (6hr interval). Udder halves were biopsied at days 15, 60, 120, and 230 of lactation for mammary tissue to perform mitochondrial staining and apoptosis studies. Increasing the milking frequency from 1x to 4x elevated the 4x udder half milk yield at early (d1-45) (P<0.0001), mid (d46-150) (P<0.0001) and late (d151-230) (P<0.0001) lactation. Milk protein percent (P= 0.013), lactose percent (P=0.004) and SNF percent (P=0.006), were elevated in milk from 4x udder halves over milk from 1x udder halves. We did not detect an effect of increased milking frequency on milk fat percent (P=0.25); however, yield of all components was increased. Increased milking frequency also increased mitochondrial numbers in mammary cells from 4x udder half (P=0.002) compared to 1x. We did not detect an effect of increased milking frequency on mammary apoptosis percentage. We also did not detect a difference in the abundance of gene transcripts for SOCS1, SOCS2, SOCS3 and CIS in milk; but could find an increase in alpha-lactalbumin (P=0.04) and beta-casein (P=0.001) 4x udder half gene transcripts.

Bovine lactation

Milking frequency

Udder half experiment

Genetic analyses of bovine CARD15, a putative disease resistance gene

Taylor, Kristen Hawkins

30 September 2004

Through a binding partner the CARD15 gene activates NF-kB, a molecule with a role in the initiation of the inflammatory immune response. The gene is highly conserved in both structure and function in human and mouse and has recently been implicated as a disease resistance gene in Crohn's disease and Blau Syndrome in human. The gene's relationship to disease and its conservation between species suggests that it may also have a conserved role in bovine disease resistance. To elucidate the potential role of bovine CARD15 in disease resistance, the gene was characterized in cattle. Bovine CARD15 is located 4.2 cR5000 telomeric to ADCY7 on chromosome 18. It spans ~30 kb and is comprised of 12 exons, 11 of which are coding. Bovine CARD15 is expressed in many tissues, but is most abundant in peripheral blood leukocytes. An extensive comparative analysis between the bovine, mouse and human CARD15 genes revealed high levels of inter-species conservation in sequence, genomic structure and protein domains. Conserved putative regulatory motifs were identified in the three species comparison of the 5'UTR, 3'UTR and the intronic sequences flanking exons. Additionally, diverse regulatory motifs were identified in each of the species indicating an evolutionary divergence in the mechanisms of regulation of gene expression. To assess the extent of genetic diversity within bovine CARD15, 41 individuals from nine breeds representing two subspecies were sequenced and screened for polymorphisms. Thirty-six single nucleotide polymorphisms (SNPs) were identified including 26 within the gene transcript. Haplotypes were estimated for each individual and parsimonious SNP sets were identified with which the multi-locus Bos taurus and Bos indicus haplotypes may be reconstructed. There was a significantly higher rate of substitutions within Bos indicus than in Bos taurus. A significantly higher rate of nonsynonymous to synonymous substitutions was found in Bos taurus indicating that positive Darwinian selection is acting on the gene within this subspecies. Association analyses were performed between these SNP loci and haplotypes with Johne's disease. No overwhelming evidence for a simple causal relationship was detected. Assays are provided to screen populations of cattle for variation in the CARD15 gene.

CARD15

NOD2

bovine

disease resistance

Crohn's

Johne's