Alterations and potential roles of microbial population of pregnant mouse saliva and amniotic fluid.

PROBLEM: Prenatal exposure to intrauterine inflammation (IUI) is a crucial event in PTB pathophysiology. However, the relationship between microflora and PTB is not fully elucidated. METHOD OF STUDY: In this study, we established an intrauterine inflammation mouse model via LPS intrauterine injection. The saliva and amniotic fluid were collected for 16s RNA gene sequencing. The levels of TNF-α and IL-1ß in mouse amniotic fluid were determined by ELISA assays. RESULTS: Up to 60% of the operational taxonomic units (OTUs) in the saliva and amniotic fluid of PBS-treated mice were overlapped. LPS treatment-induced changes in the abundance of oral and amniotic fluid microorganisms. Both immune-associated probiotics, salivarius and mastitidis, were still detected in saliva (at significantly increased levels) after LPS-induced intrauterine inflammation and almost no probiotics of any type were detected in amniotic fluid, suggesting that the uterine cavity seems to be more susceptible to LPS compared to the oral cavity. Moreover, the abundance of pathogenic bacteria Escherichia coli was increased in both saliva and amniotic fluid after LPS treatment. The level of TNF-α and IL-1ß in amniotic fluid is positively related to the amniotic fluid E. coli abundance. CONCLUSIONS: The microbial composition of saliva and amniotic fluid of pregnant mice was similar. LPS-induced intrauterine inflammation decreased the consistency of microbial composition in mouse saliva and amniotic fluid, increased the abundance of E. coli in saliva and amniotic fluid, and decreased the abundance of immune-associated probiotics, especially in amniotic fluid.

Pseudogene CLEC4GP1 modulates trophoblast cell apoptosis and invasion via IL-15 inhibition.

Preeclampsia (PE) is a pregnancy-associated complication accompanied by gestational hypertension and proteinuria, affecting 2-8% of pregnancies globally. The placental trophoblast cell invasion of decidua and myometrium during early gestation is crucial for healthy placentation. Thus, trophoblast dysfunction might contribute to PE onset. Therefore, further investigations are needed to elucidate the underlying mechanism of trophoblast cell functions. In the present study, we identified a novel pseudogene named C-Type Lectin Domain Family 4 Member G Pseudogene 1 (CLEC4GP1), which was aberrantly expressed in PE placental tissues. In vitro analyses showed that CLEC4GP1 overexpression significantly increased the cell viability and invasiveness and decreased the apoptosis rate of HTR-8/SVneo and JEG-3 cells, while CLEC4GP1 knockdown exerted opposite effects, suggesting the beneficial role of CLEC4GP1 in trophoblast cells. Next, co-expression analysis found that CLEC4GP1 was negatively correlated with Interleukin 15 (IL-15). The expression of IL-15 dramatically increased in PE placental tissues. In HTR-8/SVneo and JEG-3 cells, IL-15 exhibited detrimental effects, opposite to CLEC4GP1, and they were negatively correlated. In addition, CLEC4GP1 attenuates the mRNA stability of IL-16 by inhibiting the binding between human antigen R (HuR) protein and IL-15 RNA. Finally, the obverse effects of CLEC4GP1 and IL-15 were investigated, and results showed that IL-15 reverted CLEC4GP1 induced cellular functions. In brief, these data suggest that CLEC4GP1/IL-15 axis might modulate the occurrence and progression of PE via influencing the trophoblast cell viability, apoptosis, and invasive capability. This study provided cognizance of targeting the CLEC4GP1/IL-15 axis as a novel therapeutic approach to mitigate PE progression.

MicroRNA-138 improves LPS-induced trophoblast dysfunction through targeting RELA and NF-κB signaling.

Preeclampsia is a pregnancy complication classified by new onset of elevated blood pressure and proteinuria after 20 weeks of gestation. During preeclampsia, extra villous trophoblasts fail to adequately invade the myometrial spiral arteries, leading to incomplete and impaired vessel transformation and initiating or aggravating preeclampsia. Although NF-κB and proinflammatory cytokines have been reported to be related to trophoblast dysfunction, the underlying mechanism remains unclear. Herein, we demonstrated the miR-138/RELA axis modulating the migratory ability, and invasive ability of HTR-8/SVneo and JEG-3 cells, as well as the inflammatory factor levels in response to LPS stimulation. miR-138 expression was upregulated in preeclampsia placenta and LPS-stimulated HTR-8/SVneo and JEG-3 cell lines. miR-138 overexpression rescued the migratory and invasive ability of HTR-8/SVneo and JEG-3 cells inhibited by LPS stimulation, and decreased LPS-induced TNF-α and IL-6 levels. By binding the 3'-UTR of RELA, miR-138 negatively regulated p65 expression. The silencing of p65 also improved LPS-induced HTR-8/SVneo and JEG-3 cell dysfunction and TNF-α and IL-6 levels. More importantly, p65 overexpression partially reversed the functions of miR-138 overexpression upon both cells, indicating that miR-138 exerted its biological effects through targeting RELA. In conclusion, miR-138 improves LPS-induced inflammation and oxidative stress on trophoblasts through targeting RELA and affecting NF-κB signaling. The miR-138/RELA axis might be involved in preeclampsia pathogenesis, which requires further in vivo and clinical researches.

ZNF217 is associated with poor prognosis and enhances proliferation and metastasis in ovarian cancer.

ZNF217 is an alternatively spliced Kruppel-like transcription factor that has recently been implicated to play a role in human carcinogenesis. Here, we used immunohistochemistry (IHC) to show that ZNF217 protein is overexpressed in nearly 60% of ovarian tumor samples. The disease-free survival time was shorter in patients with positive ZNF217 expression than in ZNF217-negative patients (P=0.042). Fluorescence in situ hybridization (FISH) analysis showed ZNF217 genomic amplification in the poorly differentiated tumors, suggesting that ZNF217 is associated with the progression of ovarian cancer. Invasion was enhanced in HO-8910 cells stably transfected with constructs carrying full-length ZNF217 relative to cells transfected with the empty vector. To confirm our findings in vivo, we performed a tumorigenicity assay in nude mice inoculated with the HO-8910 overexpressing ZNF217 cells. As expected, tumors grown in the ZNF217 group were more invasive and prone to metastasis than those formed control groups. Based on these clinical and laboratory observations, we conclude that ZNF217 may contribute to ovarian cancer invasion and metastasis, and associated with worse clinical outcomes.

[Expression of ZNF217 in human ovarian cystadenocarcinoma and its clinical significance].

OBJECTIVE: To explore the correlation of ZNF217 expression to the carcinogenesis and progression of human ovarian cancer. METHODS: Immunohistochemistry and real-time RT-PCR were used to detect ZNF217 expression in human ovarian cystadenocarcinoma, ovarian cystadenoma and normal ovary tissues. RESULTS: The expression levels of ZNF217 protein and mRNA in ovarian cystadenocarcinoma was significantly higher than those in matched ovarian cystadenoma and normal tissues (P<0.05). No significant difference was found in the expression between ovarian cystadenoma and normal ovarian tissues (P>0.05). The mRNA expression in the specimens was consistent with the protein expression of ZNF217 (P<0.05). CONCLUSION: ZNF217 gene expression is closely correlated to the occurrence and clinical stages of ovarian carcinomas, suggesting that ZNF217 can be an important candidate gene responsible for the occurrence and progression of ovarian carcinomas.

Silencing of ZNF217 gene influences the biological behavior of a human ovarian cancer cell line.

Zinc-finger protein 217 (ZNF217), a candidate oncogene on 20q13.2, can lead cultured human ovarian and mammary epithelial cells to immortalization, which indicates selective expression of ZNF217 affecting 20q13 amplification during critical early stages of cancer progression. In this study, we tested the hypothesis that ZNF217 is a key factor in regulating ovarian cancer proliferation and progression. We examined the effect of the inhibition of ZNF217 expression on proliferation and invasion by establishing the ZNF217 knockdown ovarian cancer cell line using RNA interference (RNAi). Our results showed that silencing of ZNF217 resulted in the effective inhibition of ovarian cancer cell growth and invasive ability. The results suggested that ZNF217 might play a crucial role in the proliferation and invasion of ovarian cancer.

[Establishment of a nude mouse model bearing orthotopically transplanted human ovarian carcinoma expressing green fluorescent protein].

OBJECTIVE: To establish a human ovarian cancer-bearing mouse model via orthotopic transplantation of human HO-8910 cells expressing green fluorescent protein (GFP). METHODS: GFP-expressing human ovarian carcinoma HO8910/GFP cells (2 x 10(6)) in exponential phase of growth were inoculated subcutaneously in nude mice, and the generated tumor tissues were collected and transplanted below the capsule of the left ovary of 6 nude mice. The growth of the tumors was observed in vivo using a fluorescence stereomicroscope. The nude mice were sacrificed 4 weeks after transplantation to assess the tumor growth and metastasis. RESULTS: The tumors showed progressive growth at the orthotopic sites in all animals. Two weeks after the transplantation, green fluorescent mass was observed at the left costovertebral angle, and the mass increased thereafter and invaded or metastasized to the peritoneum, omentum, spleen, liver, uterus, and the pelvic lymph nodes, with a metastatic rate as much as 66.7%. CONCLUSION: The nude mouse model bearing orthotopic human ovarian carcinoma expressing GFP has been successfully established.