Autophagy in endometriosis.

Endometriosis (EMS) is a common gynecologic disease that causes chronic pelvic pain, dysmenorrhea, and infertility in women. The doctrine of menstruation back flow planting and defects in the immune system are well known and widely accepted. In recent years, increasing studies have been focused on the role of autophagy in EMS, and have shown that autophagy plays a vital role in EMS. Autophagy, which is known as the non-apoptotic form of programmed cell death induced by a large number of intracellular/extracellular stimuli, is the major cellular pathway for the degradation of long-lived proteins and cytoplasmic organelles in eukaryotic cells. Autophagy commonly refers to macroautophagy, which is characterized by autophagosomes (double-membrane vesicles). In normal endometrial tissues, autophagy is induced in glandular epithelial and stromal cells throughout the menstrual cycle. However, aberrant autophagy occurs in the eutopic endometrium and ectopic endometriotic foci, which contributes to the pathogenesis of EMS by promoting the hyperplasia of endometriotic tissues and stromal cells, restricting apoptosis, and inducing abnormal immune responses. Consistent with changes in autophagy levels between normal endometria, eutopic and ectopic endometria from patients with EMS, the altered expression of autophagy-related genes (ATGs) is also observed. Currently, many factors are involved in the aberrant autophagy of endometriotic tissues, including female hormones, certain drugs, hypoxia, and oxidative stress. Therefore, studies focusing on autophagy may uncover a new potential treatment for EMS. The aim of this review is to discuss the role of aberrant autophagy in EMS and to explore the potential value of autophagy as a target for EMS therapy.

The crosstalk between endometrial stromal cells and macrophages impairs cytotoxicity of NK cells in endometriosis by secreting IL-10 and TGF-ß.

The dysfunction of NK cells in women with endometriosis (EMS) contributes to the immune escape of menstrual endometrial fragments refluxed into the peritoneal cavity. The reciprocal communications between endometrial stromal cells (ESCs) and lymphocytes facilitate the development of EMS. However, the mechanism of these communications on cytotoxicity of natural killer (NK) cells in endometriotic milieus is still largely unknown. To imitate the local immune microenvironment, the co-culture systems of ESCs from patients with EMS and monocyte-derived macrophages or of ESCs, macrophages and NK cells were constructed. The cytokine levels in the co-culture unit were evaluated by ELISA. The expression of functional molecules in NK cells was detected by flow cytometry (FCM). The NK cell behaviors in vitro were analyzed by cell counting kit-8 and cytotoxic activation assays. After incubation with ESCs and macrophages, the expression of CD16, NKG2D, perforin and IFN-γ, viability and cytotoxicity of NK cells were significantly downregulated. The secretion of interleukin (IL)-1ß, IL-10 and transforming growth factor (TGF)-ß in the co-culture system of ESCs and macrophages was increased. Exposure with anti-IL-10 receptor ß neutralizing antibody (αhIL-10Rß) or αTGF-ß could partly reverse these effects of ESCs and macrophages on NK cells in vitro These results suggest that the interaction between macrophages and ESCs downregulates cytotoxicity of NK cells possibly by stimulating the secretion of IL-10 and TGF-ß, and may further trigger the immune escape of ectopic fragments and promote the occurrence and the development of EMS.

Protopanaxadiol and metformin synergistically inhibit estrogen-mediated proliferation and anti-autophagy effects in endometrial cancer cells.

Metformin is commonly used for treating type II diabetes and has recently been reported to possess anti-proliferative properties that can be exploited for the prevention and treatment of a variety of cancers. Ginsenosides are the main effective biological components of ginseng. It has been reported that ginsenoside-Rb2 inhibit the invasiveness of endometrial cancer cells (ECC). The aim of this study was to investigate whether protopanaxadiol (PPD, a metabolite of ginsenosides) and metformin could synergistically regulate the biological behavior of ECC and analyze its possible mechanism. We here found that either metformin or PPD treatment led to a decreased viability and increased apoptosis and autophagy levels in ECC lines (Ishikawa and RL95-2 cells), and combination of PPD and metformin could enhance these effects induced by metformin or PPD in vitro. PPD and metformin significantly decreased the expression of estrogen receptor alpha (ERα) in Ishikawa and RL95-2 cells. Estrogen promoted the viability and restricted the apoptosis and autophagy of Ishikawa and RL95-2 cells, and PPD and metformin reversed these effects. In vivo trials showed that combination of PPD and metformin had the strongest activity of anti-tumor growth compared with PPD alone and metformin alone. These data suggest that PPD and metformin can be used together to play a more powerful anti-EC effect. Our study provides a scientific basis for the clinical application of PPD and metformin in the treatment of EC, especially in estrogen-dependent patients.

[Optical Properties of Ag-Al Nanosphere Heterodimer].

Metal nanostructure material has attracted great attention due to its surface plasmon resonance. The optical properties of heterodimer metallic nanostructure materials are different compared with that of homogeneous nanostructure materials because their symmetry structure is broken. The symmetry of the original structures will be changed, and the interaction between the two particles will produce Fano resonance. The Fano resonances are the result of the double or more surface plasmon resonances coupling, and be controlled by properly controlling the nanostructures. The electric field enhancement and the radiation characteristics of the nanostructure are further optimized for the Fano resonance controlled. Aluminum nanostructure materials have become the best choice of the surface plasmon resonance in the UV region, because gold, silver and other noble metals have inter-band transition effects. In this work, we study the local field and absorption spectra of heterodimer composed of a silver nanosphere and an aluminum nanosphere by the Finite-Difference Time-Domain (FDTD) theory. Firstly, the effects of the incident polarization, the geometric like, nanospheres separation, nanosphere radius and physical dielectric media on the optical response of silver-aluminum nanospheres heterodimer are analyzed. Secondly, the near field distributions of heterodimer are given in-depth discussion. Due to the destruction of the symmetry of dimer material, heterodimeric optical character is significantly different from homodimer. Fano resonances are produced in UV and visible light in the heterodimer respectively when silver-aluminum nanospheres heterodimer is illuminated by the Y-polarized light. More favorable Fano resonance effects can be obtained by regulating the spacing and size of heterodimer in the given dielectric environment which is also an effect factor certainly. Finally, the absorption of the heterodimer contributed from each nanosphere structure is also analyzed. In this way, the result which is a general and complete description of the optical properties of silver-aluminum nanospheres heterodimer nanostructure in the paper, leads to the suppression and enhancement of the surface plasmon resonance in different frequency bands and may be valuable for the design and development of plasmonic devices and optical tools in UV-visible light and could serve as the basis of the future experimental analysis of surface enhanced spectroscopy, molecular detection and biosensor etc.

[Study on bladder cancer tissues with Raman spectroscopy].

The scope of this research lies in diagnosis of bladder cancer through Raman spectra. The spectra of bladder cancer and normal bladder were measured by using laser confocal Raman micro-spectroscopy. Principal component analysis/support vector machines was applied to the spectral dataset to construct diagnostic algorithms, then to detect the accuracy of these algorithms to determine histological diagnosis by leave-one-out cross validation from its Raman spectrum. It was showed that the peak intensity of nucleic acid (782, 1 583 cm(-1)) in bladder cancer and protein (1 061, 1 295, 2 849, 2 881 cm(-1)) in normal bladder increased significantly. Additionally, Principal component analysis (PCA) and support vector machines (SVM) provided an effective tool for differentiating the bladder cancer from normal bladder tissue. Excellent sensitivity (86.7%), specificity (87.5%), positive predictive value (92.9%), and negative predictive value (72. 8%) for the diagnosis of bladder cancer were obtained by leave-one-out cross validation. It was concluded that Raman spectroscopy can be used to accurately identify bladder cancer in vitro, and it suggests the promising potential application of PCA/SVM-based Raman spectroscopy for the diagnosis of bladder cancer.

[Fabrication of silver ordered nanoarrays SERS-active substrates and their applications in bladder cancer cells detection].

Highly ordered silver nanopore and nanocap arrays, which were used as surface-enhanced Raman scattering active (SERS-active) substrates, were fabricated by electron-beam evaporating silver on the surface of porous layer and barrier layer of porous anodic alumina (PAA) membranes, respectively. The SERS characteristics of the SERS-active substrates were tested with bladder cancer cells as molecular probe. The results indicated that both the SERS-active substrates displayed a strong SERS enhancement effect. The silver nanocap ordered arrays SERS-active substrate displayed not only higher SERS and fluorescence quenching effect, but also no interferential spectrum related with oxalate impurity remaining in PAA membranes, and therefore can result in the high quality Raman spectroscopy of bladder cancer cells.

[Clinical study on acupuncture for leukopenia induced by chemotherapy].

OBJECTIVE: To explore the adjunctive therapeutic effects of acupuncture for leukopenia induced by chemotherapy. METHODS Eighty six cases with leukopenia after chemotherapy treatment were randomly divided into a granulocyte colony-stimulating factor (G-CSF) plus acupuncture (A) group and a G-CSF group, 43 cases in each group. After chemotherapy treatments, the patients of both groups were treated with G-CSF for 4 times, with acupuncture at Zhigou (TE 6), Quchi (LI 11), Hegu (LI 4), etc. added in the G-CSF plus A group, for an observaion cycle of 45 days. Their therapeutic effects on the 10th and 31st day and peripheral white blood cell (WBC) counts and neutrophilic granulocyte classification on the 10th, 17th, 24th, 45th day after treatment were compared. RESULTS: After they were treated on the 10th day, the effective rates were both 100.0% (both 43/43), and on the 31st day, the effective rate of 98.9% (42/43) in the G-CSF plus A group was higher than 91.1% (35/43) in the G-CSF group (P < 0.05). The WBC counts in the G-CSF plus acupuncture group were both higher than those in the G-CSF group on the 10th, 17th and 24th day after treatment (all P < 0.05). The ratios of mature neutrophilic granulocyte in the G-CSF plus A group were all higher than those in the G-CSF group at the same time (all P < 0.01). CONCLUSION: Acupuncture can increase the therapeutic effect of G-CSF, delay the decrease of WBC after discontinuing G-CSF, promote the neutrophilic granulocyte differentiating forward to mature and it is better for improving leukopenia induced by chemotherapy.