Cookies Fortified with Lonicera japonica Thunb. Extracts: Impact on Phenolic Acid Content, Antioxidant Activity and Physical Properties.

Lonicera japonica Thunb [...].

Risk of osteoporosis and fracture after hysterectomies without oophorectomies: a systematic review and pooled analysis.

The present study provides evidence that women who underwent hysterectomy without oophorectomies are at a higher risk of osteoporosis and bone fractures than the general population. Early interventions for these susceptible women may help to delay or reduce the risk of osteoporosis and bone fractures. INTRODUCTION: Mounting studies have shown that patients with hysterectomy are at high risk of developing osteoporosis or bone fractures, but the evidence from all the relevant studies has not been previously synthesized. The present study aims to investigate whether women with hysterectomy without oophorectomies have a prominently higher prevalence of osteoporosis or fractures than healthy subjects. METHODS: Four electronic databases were systematically searched to identify the eligible studies. The combined effect was assessed by calculating the relative risk (RR) with a 95% confidence interval (CI). More methodologies for this study were available in the PROSPERO (ID: CRD42021227255). RESULTS: Finally, three observational studies offering osteoporosis cases and two retrospective studies reporting fracture cases were included. One eligible study has provided independent data from three groups of fractures. Synthetic results revealed that hysterectomy without oophorectomies was significantly associated with an increased risk of osteoporosis as compared to the general population (combined RR from three studies = 1.47, 95%CI 1.253 to 1.725, P < 0.001; heterogeneity, I2 = 76.2%, P = 0.015). Consistently, the prevalence of fractures was also significantly higher in patients with hysterectomy without oophorectomies than in healthy controls (pooled RR from four studies = 2.333, 95%CI: 1.314 to 4.144, P = 0.004; heterogeneity, I2 = 92.3%, P < 0.001). CONCLUSIONS: This is the first study to quantify the association between hysterectomy without oophorectomies and osteoporosis/fracture risk through a meta-analysis and has subsequently confirmed its positive relationship. Additional large-sample rigorously prospective cohorts are still warranted to validate the present evidence.

Tectoridin inhibits the progression of colon cancer through downregulating PKC/p38 MAPK pathway.

Colon cancer is one of the most familiar malignancies worldwide, with high morbidity and high mortality. This study intended to explore the role and mechanism of tectoridin (TEC) in regulating the progression of colon cancer. First, colon cancer cell lines (HCT116 and SW480 cells) were treated with different doses of TEC (0-200 µM). Then, CCK8 and clone formation experiments were performed to detect cell proliferation. Flow cytometry and western blot were conducted to examine apoptosis. Subsequently, Transwell assay and wound-healing test was employed to determine the effect of TEC on colon cancer cell invasion and migration. Next, western blot was performed to monitor the PKC/p38 MAPK pathway activation. In addition, a tumor model was established in nude mice to explore the effect of TEC on tumor growth in vivo. TEC dose-dependently dampened the proliferation, migration and invasion of colon cancer cells and facilitated their apoptosis. In addition, TEC abated the tumor cell growth in vivo. Besides, TEC dose-dependently suppressed the expression of PKC and p38 MAPK. Moreover, inhibiting the PKC pathway almost cancel out the anti-tumor effects induced by TEC. TEC attenuates the colon cancer progression by inhibiting the PKC/p38 MAPK pathway.

Knockout Mice Reveal a Major Role for Alveolar Epithelial Type I Cells in Alveolar Fluid Clearance.

Active ion transport by basolateral Na-K-ATPase (Na pump) creates an Na(+) gradient that drives fluid absorption across lung alveolar epithelium. The α1 and ß1 subunits are the most highly expressed Na pump subunits in alveolar epithelial cells (AEC). The specific contribution of the ß1 subunit and the relative contributions of alveolar epithelial type II (AT2) versus type I (AT1) cells to alveolar fluid clearance (AFC) were investigated using two cell type-specific mouse knockout lines in which the ß1 subunit was knocked out in either AT1 cells or both AT1 and AT2 cells. AFC was markedly decreased in both knockout lines, revealing, we believe for the first time, that AT1 cells play a major role in AFC and providing insights into AEC-specific roles in alveolar homeostasis. AEC monolayers derived from knockout mice demonstrated decreased short-circuit current and active Na(+) absorption, consistent with in vivo observations. Neither hyperoxia nor ventilator-induced lung injury increased wet-to-dry lung weight ratios in knockout lungs relative to control lungs. Knockout mice showed increases in Na pump ß3 subunit expression and ß2-adrenergic receptor expression. These results demonstrate a crucial role for the Na pump ß1 subunit in alveolar ion and fluid transport and indicate that both AT1 and AT2 cells make major contributions to these processes and to AFC. Furthermore, they support the feasibility of a general approach to altering alveolar epithelial function in a cell-specific manner that allows direct insights into AT1 versus AT2 cell-specific roles in the lung.

Claudin 4 knockout mice: normal physiological phenotype with increased susceptibility to lung injury.

Claudins are tight junction proteins that regulate paracellular ion permeability of epithelium and endothelium. Claudin 4 has been reported to function as a paracellular sodium barrier and is one of three major claudins expressed in lung alveolar epithelial cells (AEC). To directly assess the role of claudin 4 in regulation of alveolar epithelial barrier function and fluid homeostasis in vivo, we generated claudin 4 knockout (Cldn4 KO) mice. Unexpectedly, Cldn4 KO mice exhibited normal physiological phenotype although increased permeability to 5-carboxyfluorescein and decreased alveolar fluid clearance were noted. Cldn4 KO AEC monolayers exhibited unchanged ion permeability, higher solute permeability, and lower short-circuit current compared with monolayers from wild-type mice. Claudin 3 and 18 expression was similar between wild-type and Cldn4 KO alveolar epithelial type II cells. In response to either ventilator-induced lung injury or hyperoxia, claudin 4 expression was markedly upregulated in wild-type mice, whereas Cldn4 KO mice showed greater degrees of lung injury. RNA sequencing, in conjunction with differential expression and upstream analysis after ventilator-induced lung injury, suggested Egr1, Tnf, and Il1b as potential mediators of increased lung injury in Cldn4 KO mice. These results demonstrate that claudin 4 has little effect on normal lung physiology but may function to protect against acute lung injury.

Knockout mice reveal key roles for claudin 18 in alveolar barrier properties and fluid homeostasis.

Claudin proteins are major constituents of epithelial and endothelial tight junctions (TJs) that regulate paracellular permeability to ions and solutes. Claudin 18, a member of the large claudin family, is highly expressed in lung alveolar epithelium. To elucidate the role of claudin 18 in alveolar epithelial barrier function, we generated claudin 18 knockout (C18 KO) mice. C18 KO mice exhibited increased solute permeability and alveolar fluid clearance (AFC) compared with wild-type control mice. Increased AFC in C18 KO mice was associated with increased ß-adrenergic receptor signaling together with activation of cystic fibrosis transmembrane conductance regulator, higher epithelial sodium channel, and Na-K-ATPase (Na pump) activity and increased Na-K-ATPase ß1 subunit expression. Consistent with in vivo findings, C18 KO alveolar epithelial cell (AEC) monolayers exhibited lower transepithelial electrical resistance and increased solute and ion permeability with unchanged ion selectivity. Claudin 3 and claudin 4 expression was markedly increased in C18 KO mice, whereas claudin 5 expression was unchanged and occludin significantly decreased. Microarray analysis revealed changes in cytoskeleton-associated gene expression in C18 KO mice, consistent with observed F-actin cytoskeletal rearrangement in AEC monolayers. These findings demonstrate a crucial nonredundant role for claudin 18 in the regulation of alveolar epithelial TJ composition and permeability properties. Increased AFC in C18 KO mice identifies a role for claudin 18 in alveolar fluid homeostasis beyond its direct contributions to barrier properties that may, at least in part, compensate for increased permeability.

[Effects of TSP2-8 and CUB1+2 domains on secretion direction of von Willebrand factor-cleaving protease].

This study was aimed to explore if the intracellular transportation direction of von Willebrand factor-cleaving protease (ADAMTS13, vWF-CP) after synthesis is determined by the carboxyl terminal TSP2-8CUB1+2 domains of ADAMTS13 and to decipher the relationship between the structure and function of ADAMTS13. The recombinant plasmids pcDNA3.1-ADAMTS13 and pcDNA3.1-delTSP2-8CUB1+2 ADAMTS13 were introduced into Madin-Darby canine kidney cells (MDCK) by lipofectamine-mediated DNA transfection. Positive cell clones gained after antibiotic-screening were grown on 6-well transwell filter units with a zeolite membrane in the middle layer. The conditioned culture media in both apical and basolateral wells were collected when cells reached confluency and the tight cell monolayer formed. ADAMTS13 proteases in the conditioned media were determined by Western blot, and the direction of ADAMTS13 secretion in polarized cells was comparatively analyzed. The results showed that Madin-Darby canine kidney cells stably expressing wild-type ADAMTS13 were grown on 6-well transwell filter units, then ADAMTS13 protease was only determined in the apical area of the transwell filter units by Western blot, but the recombinant ADAMTS13 protease was determined both in the apical and basolateral area of cells in the group of expressing TSP2-8CUB-1+2 domain-deleted ADAMTS13. It is concluded that the metalloprotease ADAMTS13 is sorted apically in polarized cells, and the carboxyl-terminal TSP2-8 and CUB1+2 domains of ADAMTS13 are important for the direction of ADAMTS13 protease transportation in the cells after being synthesized.

Von Willebrand factor antigen and ADAMTS13 activity assay in pregnant women and severe preeclamptic patients.

The present study examined von Willebrand factor (vWF) levels and ADAMTS13 activity in pregnant and severe preeclamptic women in order to shed light on the prothrombotic state in severe preeclampsia. Thirty healthy women of childbearing age, 22 second trimester pregnant women, 30 third trimester pregnant women and 10 severe preeclamptic patients were recruited in this study. ADAMTS13 activity was determined by the FRETS-vWF73 assay and vWF antigen (vWF:Ag) levels by an enzyme-linked immunosorbent assay. The results showed that there were statistically significant differences in plasma vWF antigen levels between the severe preeclamptic and third trimester pregnant women, between third and second trimester pregnant women (P<0.05). The third trimester pregnant women had significantly lower plasma ADAMTS13 activity than second trimester pregnant women (P<0.05). Nevertheless, no significant differences in plasma ADAMTS13 activity were found between severe preeclamptic patients and the third trimester pregnant women (P>0.05). In conclusion, plasma ADAMTS13 activity is normal in severe preeclampsia despite the increased vWF:Ag levels. Prothrombotic state is involved in the pathogenesis of severe preeclampsia, as a result of endothelial injury.

Directed expression of Cre in alveolar epithelial type 1 cells.

Pulmonary alveolar epithelium is comprised of two morphologically and functionally distinct cell types, alveolar epithelial type (AT) I and AT2 cells. Genetically modified mice with cell-specific Cre/loxP-mediated knockouts of relevant genes in each respective cell type would be useful to help elucidate the relative contributions of AT1 versus AT2 cells to alveolar homeostasis. Cre has previously been efficiently expressed in AT2 cells in mouse lung with the surfactant protein (SP)-C promoter; however, no transgenic mouse expressing Cre in AT1 cells has so far been available. To develop an AT1 cell-specific transgenic Cre mouse, we generated a knockin of a Cre-IRES-DsRed cassette into exon 1 of the endogenous aquaporin 5 (Aqp5) gene, a gene expressed specifically in AT1 cells in the distal lung epithelium, resulting in the mouse line, Aqp5-Cre-IRES-DsRed (ACID). Endogenous Aqp5 and transgenic Cre in ACID mice showed a very similar pattern of tissue distribution by RT-PCR. To analyze Cre activity, ACID was crossed to two Cre reporter strains, R26LacZ and mT/mG. Double-transgenic offspring demonstrated reporter gene expression in a very high fraction of AT1 cells in the distal lung, whereas AT2 cells were negative. As expected, variable reporter expression was detected in several other tissues where endogenous Aqp5 is expressed (e.g., submandibular salivary gland and stomach). ACID mice should be of major utility in analyzing the functional contribution of AT1 cells to alveolar epithelial properties in vivo with Cre/loxP-mediated gene deletion technology.