Intestinal anastomosis is a routine procedure in pediatric surgery, with leakage being a significant complication. Human alpha1-antitrypsin (AAT), whose physiological serum concentrations range from 0 Show more
Intestinal anastomosis is a routine procedure in pediatric surgery, with leakage being a significant complication. Human alpha1-antitrypsin (AAT), whose physiological serum concentrations range from 0.9-2.0 mg/ml, is known to accelerate wound healing and stimulate the expression of cell proliferation-related genes. We hypothesized that AAT might enhance anastomotic healing. In a monolayer of non-tumorigenic HIEC-6 epithelial cells derived from fetal intestine a scratch was created. Standard medium without (control) or with AAT (0.5 and 1 mg/ml) was added. Cells were observed using a Life-Cell Imaging System. Cell proliferation was assessed, and the expression of proliferation-related genes was measured by qRT-PCR. In the presence of AAT, the scratch closed significantly faster. Cells treated with 1 mg/ml AAT showed 53% repopulation after 8 h and 97% after 18 h, while control cells showed 24% and 60% repopulation, respectively (p < 0.02). The treatment with AAT induced HIEC-6-cell proliferation and significantly increased the mRNA-expression of CDKN1A, CDKN2A, ANGPTL4, WNT3 and COL3A1 genes. AAT did not change the mRNA-expression of CXCL8 but decreased levels of IL-8 as compared to controls. At physiological concentrations AAT accelerates the confluence of intestinal cells and increases cell proliferation. The local administration of AAT may bear therapeutic potential to improve anastomotic healing. Show less
The WW domain-containing protein 2 (Wwp2) gene, the host gene of miR-140, codes for the Wwp2 protein, which is an HECT-type E3 ubiquitin ligases abundantly expressed in articular cartilage. However, i Show more
The WW domain-containing protein 2 (Wwp2) gene, the host gene of miR-140, codes for the Wwp2 protein, which is an HECT-type E3 ubiquitin ligases abundantly expressed in articular cartilage. However, its function remains unclear. Here, we show that mice lacking Wwp2 and mice in which the Wwp2 E3 enzyme is inactivated (Wwp2-C838A) exhibit aggravated spontaneous and surgically induced osteoarthritis (OA). Consistent with this phenotype, WWP2 expression level is downregulated in human OA cartilage. We also identify Runx2 as a Wwp2 substrate and Adamts5 as a target gene, as similar as miR-140. Analysis of Wwp2-C838A mice shows that loss of Wwp2 E3 ligase activity results in upregulation of Runx2-Adamts5 signaling in articular cartilage. Furthermore, in vitro transcribed Wwp2 mRNA injection into mouse joints reduces the severity of experimental OA. We propose that Wwp2 has a role in protecting cartilage from OA by suppressing Runx2-induced Adamts5 via Runx2 poly-ubiquitination and degradation. Show less