Preparation of polyclonal antibody against thrombospondin 2 recombinant protein and its functional verification in pulmonary hypertension syndrome in broilers.

Cell migration regulated by Thrombospondin 2 (THSB2) is important for the development of pulmonary artery remodeling, but the mechanism by which THBS2-mediated cell migration regulates the development of pulmonary artery remodeling in broiler ascites syndrome (AS) is unclear. In addition, the lack of chicken THBS2 antibodies makes it difficult to study the mechanism in depth. In our study, we used recombinant gene technology, protein purification, and other techniques to obtain mouse anti-chicken THBS2 antibody and analyze its expression in broilers, ascites broilers and other animals. The results showed that we immunized mouse with recombinant THBS2 protein and obtained an antibody titer of 1:204,800, and the addition of astragalus polysaccharide as an immunomodulator during immunization significantly increased the titer of the antibody. Western blotting (WB) and immunofluorescence results showed that the THBS2 was significantly down-regulated in the ascites broiler. The THBS2 antibody we prepared can also detect THBS2 protein in duck, mouse, goat, and rabbit tissues. These results provide a foundation for further investigation of the role of THBS2 in pulmonary artery remodeling in broiler ascites syndrome and a powerful tool for studying the role of THBS2 in AS.

METTL3 is essential for normal progesterone signaling during embryo implantation via m6A-mediated translation control of progesterone receptor.

Embryo implantation, a crucial step in human reproduction, is tightly controlled by estrogen and progesterone (P4) via estrogen receptor alpha and progesterone receptor (PGR), respectively. Here, we report that N6-methyladenosine (m6A), the most abundant mRNA modification in eukaryotes, plays an essential role in embryo implantation through the maintenance of P4 signaling. Conditional deletion of methyltransferase-like 3 (Mettl3), encoding the m6A writer METTL3, in the female reproductive tract using a Cre mouse line with Pgr promoter (Pgr-Cre) resulted in complete implantation failure due to pre-implantation embryo loss and defective uterine receptivity. Moreover, the uterus of Mettl3 null mice failed to respond to artificial decidualization. We further found that Mettl3 deletion was accompanied by a marked decrease in PGR protein expression. Mechanistically, we found that Pgr mRNA is a direct target for METTL3-mediated m6A modification. A luciferase assay revealed that the m6A modification in the 5' untranslated region (5'-UTR) of Pgr mRNA enhances PGR protein translation efficiency in a YTHDF1-dependent manner. Finally, we demonstrated that METTL3 is required for human endometrial stromal cell decidualization in vitro and that the METTL3-PGR axis is conserved between mice and humans. In summary, this study provides evidence that METTL3 is essential for normal P4 signaling during embryo implantation via m6A-mediated translation control of Pgr mRNA.

Comparative transcriptome analysis of experimental cryptorchidism: of mice and cynomolgus monkeys.

In most mammalian species, the testis descends from the abdomen into the scrotum during fetal or neonatal life. The failure of testicular descent, a pathological condition known as cryptorchidism, has long been the subject of scientific interest in a wide range of fields, including medicine, developmental biology, and evolutionary biology. In this study, we analyzed global gene expression changes associated with experimental cryptorchidism in mice by using RNA-seq. A total of 453 differentially expressed genes were identified, of which 236 genes were upregulated, and 217 genes were downregulated. Gene ontology, pathway, and gene network analysis highlighted the activation of inflammatory response in experimental cryptorchidism. By examining the promoter regions of differentially expressed genes, we identified 12 causal transcription factors. In addition, we also induced experimental cryptorchidism in two cynomolgus monkeys and performed RNA-seq. A cross-species comparison was performed at the gene expression level. Our study provides a valuable resource for further understanding the molecular mechanisms of cryptorchidism in mammals.

Multiplex precise base editing in cynomolgus monkeys.

Common polygenic diseases result from compounded risk contributed by multiple genetic variants, meaning that simultaneous correction or introduction of single nucleotide variants is required for disease modeling and gene therapy. Here, we show precise, efficient, and simultaneous multiplex base editing of up to three target sites across 11 genes/loci in cynomolgus monkey embryos using CRISPR-based cytidine- and adenine-base editors. Unbiased whole genome sequencing demonstrates high specificity of base editing in monkey embryos. Our data demonstrate feasibility of multiplex base editing for polygenic disease modeling in primate zygotes.

Progesterone-regulated Hsd11b2 as a barrier to balance mouse uterine corticosterone.

Glucocorticoids (GCs) are essential for mouse embryo implantation and decidualization. Excess GCs are harmful for mouse embryo implantation and decidualization. 11ß-Hydroxysteroid dehydrogenases type I and II (Hsd11b1/Hsd11b2) are main enzymes for regulating local level of GCs. Hsd11b2 acts as the placental glucocorticoid barrier to protect the fetus from excessive exposure. Although effects of GCs on the fetus and placenta in late pregnancy have been extensively studied, the effects of these adrenal corticosteroids in early pregnancy are far less well defined. Therefore, we examined the expression, regulation and function of Hsd11b1/Hsd11b2 in mouse uterus during early pregnancy. We found that Hsd11b2 is highly expressed in endometrial stromal cells on days 3 and 4 of pregnancy and mainly upregulated by progesterone (P4). In both ovariectomized mice and cultured stromal cells, P4 significantly stimulates Hsd11b2 expression. P4 stimulation of Hsd11b2 is mainly mediated by the Ihh pathway. The uterine level of corticosterone (Cort) is regulated by Hsd11b2 during preimplantation. Embryo development and the number of inner cell mass cells are suppressed by Cort treatment. These results indicate that P4 should provide a low Cort environment for the development of preimplantation mouse embryos by promoting the expression of uterine Hsd11b2.

Knockdown of CHPF suppresses cell progression of non-small-cell lung cancer.

Purpose: The aim of the present study was to explore the role of CHPF in non-small-cell lung cancer (NSCLC) and to develop an shRNA vector-based therapy to repress the expression of CHPF gene in NSCLC cell lines. Methods: In this study, we used immunohistochemical staining to verify the expression of CHPF in NSCLC tissue. Then, we determined the expression of CHPF gene in different NSCLC cell lines with RT-PCR and Western blotting. Specific CHPF shRNA was used to knockdown the expression of CHPF. Celigo image cytometry, cell cycle analysis, and flow cytometry assay were performed. Results: The results showed that expression level of CHPF was higher in NSCLC tissues than normal lung tissues. Further, we established that CHPF expression knockdown in NSCLC cells could substantially restrain the cell proliferation, apoptosis, and cell cycle in vitro. Conclusion: On the basis of these results, we concluded that CHPF expression has an important role in the progression of human NSCLC cells. Therefore, its interference could possibly be used as a potential therapeutic target against NSCLC.