DCAF13 is essential for the pathogenesis of preeclampsia through its involvement in endometrial decidualization

CSPG4 involvement in endometrial decidualization contributes to the pathogenesis of preeclampsia†

Preeclampsia (PE) is a condition of pregnancy in which symptoms of hypertension develop after 20 weeks of gestation. it can lead to placental dysfunction, maternal and perinatal mortality and morbidity. The incidence of PE is increasing, posing a serious threat to the lives of pregnant women and their unborn children. Currently, most of the research on the pathogenesis of PE has focused on placenta, However, maternal decidualization is the basis for placental formation and growth. Chondroitin sulfate proteoglycan 4 (CSPG4) is a transmembrane protein that plays a role in cell proliferation, invasion, and migration. However, its function during decidualization is not yet understood. In this study, we investigated the role of CSPG4 and found that its expression was significantly down-regulated in the decidual tissue of patients with severe PE compared to normal pregnant women. During artificially induced decidualization, CSPG4 expression was significantly increased. Knockdown of CSPG4 by small interfering RNA inhibited decidualization, which, in turn, inhibited the invasion of trophoblast cells. In both pseudopregnant and pregnant mice, endometrial stromal cells proliferated rapidly and Cspg4 expression increased during decidualization. Therefore, we believe that CSPG4 plays a crucial role in the process of decidualization. The defect in decidualization caused by abnormal CSPG4 expression could lead to insufficient trophoblast invasion, ultimately contributing to the occurrence of PE.

Downregulated PSME3 Contributes to Severe Preeclampsia by Promoting Trophoblast Cell Apoptosis

BACKGROUND

Severe preeclampsia (sPE) is a serious condition posing risks to both maternal and fetal health. Based on mass spectrometry analysis, we identified a key protein, PSME3 (proteasome activator subunit 3), an 11S proteasome activator, whose protein level was significantly downregulated in sPE placentas and whose function in sPE remains unknown.

METHODS

PSME3 protein levels in human placental tissue were detected using Western blot, and PSME3 concentration in serum was detected by ELISA assay. The human preeclampsia-like phenotypes of Psme3-/- pregnant mice were examined. Trophoblast cell apoptosis was detected by flow cytometry. Pregnant mice were treated with 9.5% O2 to construct a preeclampsia mouse model for detecting placental Psme3 expression. The regulation of PSME3 expression by hypoxia was detected in trophoblast cell lines treated with 21% O2 or 1% O2.

RESULTS

PSME3 protein levels were significantly downregulated in sPE placentas and serum. Pregnant mice with Psme3-/- embryos and placentas spontaneously presented human preeclampsia-like symptoms, including hypertension and proteinuria, increased serum soluble fms-like tyrosine kinase 1 concentration, fetal growth restriction, and increased cellular apoptosis. Mechanically, PSME3 knockdown promoted the apoptosis of trophoblast cells by repressing the degradation of UBE2V2 (ubiquitin conjugating enzyme E2 V2). Moreover, the placentas of hypoxia-induced preeclampsia mice presented significantly reduced Psme3 protein levels and elevated Ube2v2 protein levels. Hypoxia-inducible factor-1α functioned as a transcriptional repressor of PSME3.

CONCLUSIONS

In sPE placentas, hypoxia of the placenta may lead to the transcriptional inhibition of PSME3. PSME3 deficiency promotes the accumulation of UBE2V2, thereby inducing trophoblast cell apoptosis. Our study provides a new perspective for elucidating the pathogenesis of sPE.

Exposure to Bisphenol A jeopardizes decidualization and consequently triggers preeclampsia by up-regulating CYP1B1

Preeclampsia (PE) is a pregnancy-related disease that poses a significant threat to the health of both the mother and the fetus. Previous studies have primarily focused on the role of the placenta in PE pathogenesis; however, normal decidualization is crucial for the subsequent development of the placenta and pregnancy. Bisphenol A (BPA) is an environmental endocrine disruptor commonly used in the synthesis of polycarbonate and epoxy resins. Overexposure to BPA can result in severe reproductive issues. To further investigate the effects of BPA exposure on pregnancy, C57BL/6 mice were continuously exposed to either 0 or 100 mg/kg of BPA in this study. As a result, these mice developed symptoms of hypertension and proteinuria, indicative of PE. Additionally, their decidualization process was impaired. Transcriptome sequencing of artificially induced decidua revealed a significant upregulation in the expression of CYP1B1 within the BPA-treated group. This upregulation accelerated the metabolism of estrogen and progesterone, leading to significant decreases in their levels. Furthermore, the expression levels of estrogen and progesterone receptors and their responding genes were significantly reduced. These findings suggest that BPA exposure can negatively impact decidualization and placental development, potentially contributing to the development of PE.

DCAF13 inhibits the p53 signaling pathway by promoting p53 ubiquitination modification in lung adenocarcinoma

BACKGROUND

Lung cancer is a malignant tumor with the highest mortality worldwide. Abnormalities in the ubiquitin proteasome system are considered to be contributed to lung cancer progression with deleterious effects. DDB1 and CUL4 associated factor 13 (DCAF13) is a substrate receptor of the E3 ubiquitin ligase CRL4, but its role in lung cancer remains unknown. In this study, we aimed to investigate the regulatory mechanisms of DCAF13 in lung adenocarcinoma (LUAD).

METHODS

So as to investigate the effect of DCAF13 on lung adenocarcinoma cell function using in vivo and in vitro. Mechanistically, we have identified the downstream targets of DCAF13 by using RNA-sequencing, as well as ubiquitination assays, co-immunoprecipitation, immunofluorescence, immunohistochemistry and chromatin immunoprecipitation - qPCR experiments.

RESULTS

Our findings reveal that DCAF13 is a carcinogenic factor in LUAD, as it is highly expressed and negatively correlated with clinical outcomes in LUAD patients. Through RNA-sequencing, it has been shown that DCAF13 negatively regulates the p53 signaling pathway and inhibits p53 downstream targets including p21, BAX, FAS, and PIDD1. We also demonstrate that DCAF13 can bind to p53 protein, leading to K48-linked ubiquitination and degradation of p53. Functionally, we have shown that DCAF13 knockdown inhibits cell proliferation and migration. Our results highlight the significant role of DCAF13 in promoting LUAD progression by inhibiting p53 protein stabilization and the p53 signaling pathway. Furthermore, our findings suggest that high DCAF13 expression is a poor prognostic indicator in LUAD, and DCAF13 may be a potential therapeutic target for treating with this aggressive cancer.

CONCLUSIONS

The DCAF13 as a novel negative regulator of p53 to promote LUAD progression via facilitating p53 ubiquitination and degradation, suggesting that DCAF13 might be a novel biomarker and therapeutical target for LUAD.

New insights into decidualization: immunological and genetic factors

PURPOSE OF REVIEW

Nowadays, there are many efforts focused on improving embryo quality for assisted reproduction treatments. Nevertheless, there are important maternal aspects, such as decidualization, also essential for pregnancy, often forgotten. With this review, we intend to highlight the main events involved in this endometrial phenomenon, as well as the cells and molecules that have recently been related to it.

RECENT FINDINGS

Decidualization entails a complete transformation of the endometrium, with recent research reaffirming progesterone as its main molecular trigger. Certain immune components and membrane molecules have also been found to play a role in it, notably the killer immunoglobulin-like receptors (KIR) of uterine natural killer (uNK) cells, as well as the human leukocyte antigen (HLA)-F.

SUMMARY

Progesterone directs the cellular changes that take place during decidualization, as well as the recruitment and maturation of uNKs, along with the coordinated action of interleukin-15. Likewise, the role of KIR and HLA-F in this process and in the subsequent development of pregnancy is being highlighted in many studies, with effects on reproductive outcomes related to the different genotypes of these molecules.