Melatonin can modulate neural stem cell (NSC) functions such as proliferation and differentiation into NSC-derived pluripotent stem cells (N-iPS) in brain tissue, but the effect and mechanism underlying this are unclear. Thus, we studied how primary cultured bovine NSCs isolated from the retinal neural layer could transform into N-iPS cell. NSCs were exposed to 0.01, 0.1, 1, 10, or 100 μm melatonin, and cell viability studies indicated that 10 μm melatonin can significantly increase cell viability and promote cell proliferation in NSCs in vitro. Thus, 10 μm melatonin was used to study miR-302/367-mediated cell reprogramming of NSCs. We noted that this concentration of melatonin increased reprogramming efficiency of N-iPS cell generation from primary cultured bovine NSCs and that this was mediated by downregulation of apoptosis-related genes p53 and p21. Then, N-iPS cells were treated with 1, 10, 100, or 500 μm melatonin, and N-iPS (M-N-iPS) cell proliferation was measured. We noted that 100 μm melatonin increased proliferation of N-iPS cells via increased phosphorylation of intracellular ERK1/2 via activation of its pathway in M-N-iPS via melatonin receptors 1 (MT1). Finally, we verified that N-iPS cells and M-N-iPS cells are similar to typical embryonic stem cells including the expression of pluripotency markers (Oct4 and Nanog), the ability to form teratomas in vivo, and the capacity to differentiate into all three embryonic germ layers.
Background Previous investigations of phylogeny in Cervus recovered many clades without whole genomic support. Methods In this study, the genetic diversity and phylogeny of 5 species (21 subspecies/populations from C. unicolor , C. albirostris , C. nippon , C. elaphus and C. eldii ) in the genus Cervus were analyzed using reduced-representation genome sequencing. Results A total of 197,543 SNPs were identified with an average sequencing depth of 16 x. A total of 21 SNP matrices for each subspecies/population and 1 matrix for individual analysis were constructed, respectively. Nucleotide diversity and heterozygosity analysis showed that all 21 subspecies/populations had different degrees of genetic diversity. C. eldii , C. unicolor and C. albirostris showed relatively high expected and observed heterozygosity, while observed heterozygosity in C. nippon was the lowest, indicating there was a certain degree of inbreeding rate in these subspecies/populations. Phylogenetic ML tree of all Cervus based on the 21 SNP matrices showed 5 robustly supported clades that clearly separate C. eldii , C. unicolor , C. albirostris , C. elaphus and C. nippon . Within C. elaphus clade, 4 subclades were well differentiated and statistically highly supported: C. elaphus (New Zealand), C. e. yarkandensis , C. c. canadensis and the other grouping the rest of C. canadensis from China. In the C. nippon clade, 2 well-distinct subclades corresponding to C. n. aplodontus and other C. nippon populations were separated. Phylogenetic reconstruction indicated that the first evolutionary event of the genus Cervus occurred approximately 7.4 millions of years ago. The split between C. elaphus and C. nippon could be estimated at around 3.6 millions of years ago. Phylogenetic ML tree of all samples based on individual SNP matrices, together with geographic distribution, have shown that there were 3 major subclades of C. elaphus and C. canadensis in China, namely C. e. yarkandensis (distributed in Tarim Basin), C. c. macneilli/C. c. kansuensis / C. c. alashanicus (distributed in middle west of China), ...
Bovine liver-derived mesenchymal stem cells (bLMSCs) were isolated from the liver tissue of 4-6 months old fetal calf, and then characterized by immunofluorescence and RT-PCR. We found that primary bLMSCs could be subcultured to 44 passages, the total culture time in vitro was 192 days. The results of surface antigen detection showed that bBMSCs expressed CD29, CD44, CD73, CD90, CD106 and CD166 but not expressed endothelial cells and hematopoietic cells specific marker CD34, CD45 and BLA-DR. The results of growth kinetics, colony-forming cell assay and cell cycle analysis indicated that the fetal bovine LMSCs had good proliferation ability in vitro. The cells from passages 7 were successfully induced to differentiate into osteoblasts, adipocytes and chondrocytes. The results indicate the potential for multi-lineage differentiation of bLMSCs that may represent an ideal candidate for cellular transplantation therapy.
Sika deer are known to prefer oak leaves, which are rich in tannins and toxic to most mammals; however, the genetic mechanisms underlying their unique ability to adapt to living in the jungle are still unclear. In identifying the mechanism responsible for the tolerance of a highly toxic diet, we have made a major advancement by explaining the genome of sika deer. We generated the first high-quality, chromosome-level genome assembly of sika deer and measured the correlation between tannin intake and RNA expression in 15 tissues through 180 experiments. Comparative genome analyses showed that the UGT and CYP gene families are functionally involved in the adaptation of sika deer to high-tannin food, especially the expansion of the UGT family 2 subfamily B of UGT genes. The first chromosome-level assembly and genetic characterization of the tolerance to a highly toxic diet suggest that the sika deer genome may serve as an essential resource for understanding evolutionary events and tannin adaptation. Our study provides a paradigm of comparative expressive genomics that can be applied to the study of unique biological features in non-model animals.
Generation of induced pluripotent stem cells from endangered cattle breeds makes a significant contribution to the establishment of embryonic stem cell line, conservation and utilization of genetic resources in endangered cattle. In our study, we are trying to construct recombinant proteins of transcription factors Oct-4, Nanog, Sox2 and Lin28 for reprogramming of endangered Luxi cattle fibroblast cells in induced pluripotent stem cells. To test the cell permeability and stability of the recombinant proteins, we designed and fused a pep-1 protein transduction domain to the C-terminus of enhanced green fluorescent protein, we treated Luxi cattle fibroblast cells with the purified proteins at various concentrations by adding them to the cell culture media for 2-48 h and assayed cell morphology and protein presence. We found that the purified EGFP-tagged recombinant proteins readily entered cells at a concentration of 0.12 mg/ml within 2 h and some of them could translocate into nucleus. In addition, we found that the transduced proteins appeared to be stable inside cells for up to 48 h. Then codons of Oct-4, Nanog, Sox2 and Lin28 were optimized for high level of expression in E. coli., they were synthesized using DNA oligo based, PCR gene assembling method, the reprogramming factors were designed with optimized transcription factors fused a pep-1 protein transduction domain to the C-terminus, for high level protein expression of the reprogramming factors, inducer concentration, and induction time were tested, the optimum inducer concentration for the expression of reprogramming factors Oct-4, Nanog, Sox2 and Lin28 were 0.01 mM, the optimum induction time were 10, 8, 2 and 12 h, respectively.
Lung-derived mesenchymal stem cells (LMSCs) are considered to be important in lung tissue repair and regenerative processes. However, the biological characteristics and differentiation potential of LMSCs remain to be elucidated. In the present study, fetal lung-derived mesenchymal stem cells (FLMSCs) were isolated from fetal bovine lung tissues by collagenase digestion. The in vitro culture conditions were optimized and stabilized and the self-renewal ability and differentiation potential were evaluated. The results demonstrated that the FLMSCs were morphologically consistent with fibroblasts, were able to be cultured and passaged for at least 33 passages and the cell morphology and proliferative ability were stable during the first 10 passages. In addition, FLMSCs were found to express CD29, CD44, CD73 and CD166, however, they did not express hematopoietic cell specific markers, including CD34, CD45 and BOLA-DRα. The growth kinetics of FLMSCs consisted of a lag phase, a logarithmic phase and a plateau phase, and as the passages increased, the proliferative ability of cells gradually decreased. The majority of FLMSCs were in G0/G1 phase. Following osteogenic induction, FLMSCs were positive for the expression of osteopontin and collagen type I α2. Following neurogenic differentiation, the cells were morphologically consistent with neuronal cells and positive for microtubule-associated protein 2 and nestin expression. It was concluded that the isolated FLMSCs exhibited typical characteristics of mesenchymal stem cells and that the culture conditions were suitable for their proliferation and the maintenance of stemness. The present study illustrated the potential application of lung tissue as an adult stem cell source for regenerative therapies.
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