Isolation, culture and identification of goat alveolar macrophages / 中国比较医学杂志

Objective In order to study the biological characteristics of macrophages and provide the materials to study the survival mechanism of intracellular parasites, we conducted this study to establish a high-purity alveolar macrophage isolation and culture method.Methods Goat lungs were lavaged with normal saline in sterile environment several times, and cells were collected and then goat alveolar macrophages were purified by density gradient centrifugation using peripheral blood mononuclear cells (PBMC) solution.The isolated goat alveolar macrophages were cultured in cell culture medium containing 10% fetal bovine serum and cell morphology was observed under an inverted microscope every day,and the phagocytic activity of the cells was detected by chicken red blood cell phagocytosis test.Flow cytometry was used to detect CD14, a characteristic monocyte-macrophage surface marker.Results The adherent cells were characterized by typical macrophage morphology, pseudopodia and protrusions, showing round and irregular shape, rich cytoplasm, and large cell body.Of the cultured macrophages, 54.5% could phagocytize chicken erythrocytes and showed good phagocytic activity.After one month of in vitro culture, 93.7% of the cells were able to express CD14 antigen, which had a macrophage-specific immunophenotype.Conclusions The alveolar macrophages obtained in this study have high purity and good bioactivity, thus provide a cell model for studying the immune mechanism of intracellular parasites.

Deletion of marker gene in transgenic goat by Cre/LoxP system / 生物工程学报

In producing transgenic livestock, selectable marker genes (SMGs) are usually used to screen transgenic cells from numerous normal cells. That results in SMGs integrating into the genome and transmitting to offspring. In fact, SMGs could dramatically affect gene regulation at integration sites and also make the safety evaluation of transgenic animals complicated. In order to determine the deletion time and methods in the process of producing transgenic goats, the feasibility of deleting SMGs was explored by Cre/LoxP before or after somatic cell cloning. In addition, we compared the efficiency of protein transduction with plasmids co-transduction. We could delete 43.9% SMGs after screening out the transgenic cell clones, but these cells could not be applied to somatic cells cloning because of serious aging after two gene modifications. The SMG-free cells suitable for nuclear transfer were accessible by using the cells of transgenic goats, but this approach was more time consuming. Finally, we found that the Cre plasmid could delete SMGs with an efficiency of 7.81%, but about 30% in SMG-free cells had sequences of Cre plasmid. Compared with Cre plasmid, the integration of new exogenous gene could be avoided by TAT-CRE protein transduction, and the deletion rate of TAT-CRE transduction was between 43.9 and 72.8%. Therefore, TAT-Cre transduction could be an effective method for deleting selectable marker genes.

Goat MII ooplasts support preimplantation development of embryos cloned from other species / 生物工程学报

The preimplantation development competences of somatic cell nuclear transfer (SCNT) embryos reconstructed with enuleated goat (Capra hircus) Metaphase II (MII) oocytes matured in vivo and whole cells derived from adult fibroblasts of several mammalian species (goat, boer goat, bovine, tahr, panda) and human patient were evaluated. Results obtained from our experiments revealed that these reconstructed SCNT embryos could complete preimplantation development to form blastocysts. The fusion rate and blastocyst rate of intra-species SCNT embryos (Capra hircus as control) was 78.67 (557/708); 56.29% (264/469), that of sub-species or inter-species SCNT embryos were: boer goat 78.18% (541/692); 33.90% (40/118), bovine 70.53% (146/207); 22.52% (25/111), tahr 53.51% (61/114); 5.26% (3/570), panda 79.82% (1159/1452); 8.35% (75/898) and human 68.76% (317/461); 5.41% (16/296), respectively. It is concluded that (1) there are no relationships between fusion rate and relativeness of the recipient cytoplasm to nucleus donor cells, (2) cytoplast of the goat MII oocyte can support the preimplantation development of SCNT embryos reconstructed with nucleus from other species, (3) the blastocyst rate of close relative inter-species SCNT embryos is higher than that of distant relative inter-species SCNT embryos.