Does Pten have an impact on oogenesis of PCOS mouse models?

Polycystic ovary syndrome (PCOS) is a complex disorder in which the aetiology is still not explained very well. The PI3K/PTEN (phosphatidylinositol 3-kinase/phosphatase and tensin homolog deleted on chromosome 10) pathway is an important pathway that is involved in many mechanisms, including proliferation, growth and motility. PTEN plays a role in granulosa cell proliferation and regulates the differentiation process. The aim of this study was to investigate the expression levels of Pten and Pik3ca in PCOS mouse models with and without any treatment procedures. Three groups of mouse models, PCOS, a PCOS group with clomiphene citrate treatment, and a PCOS group with the combination of clomiphene citrate, metformin and pioglitazone treatment, were established. Ovarian tissues, which were obtained from these groups and a control group with no PCOS, were embedded in paraffin and RNA was extracted. cDNA was synthesized and real-time PCR was conducted to evaluate the expression levels of Pten and Pik3ca. The results of this study showed that both Pten and Pik3ca genes were expressed in the ovarian tissues from the mouse models. Although one-way analysis of variance results showed that Pten was expressed significantly differently in the samples, individual Student's t-tests did not show any significantly different expression levels in each group. This study is important as it shows the expression patterns of two genes in PCOS mouse models with different treatment strategies, including clomiphene citrate, metformin and pioglitazone. The results of this study formed the basis of research studies and investigations into different genes within the PTEN pathway, as well as other pathways that are under investigation.

Keratinocytes derived from embryonic stem cells induce wound healing in mice.

The skin plays an important role in defending the body against the environment. Treatments for burns and skin injuries that use autologous or allogenic skin grafts derived from adult or embryonic stem cells are promising. Embryonic stem cells are candidates for regenerative and reparative medicine. We investigated the utility of keratinocyte-like cells, which are differentiated from mouse embryonic stem cells, for wound healing using a mouse surgical wound model. Mice were allocated to the following groups: experimental, in which dressing and differentiated cells were applied after the surgical wound was created; control, in which only the surgical wound was created; sham, in which only the dressing was applied after the surgical wound was created; and untreated animal controls with healthy skin. Biopsies were taken from each group on days 3, 5 and 7 after cell transfer. Samples were fixed in formalin, then stained with Masson's trichrome and primary antibodies to interleukin-8 (IL-8), fibroblast growth factor-2 (FGF-2), monocyte chemoattractant protein-1 (MCP-1), collagen-1 and epidermal growth factor (EGF) using the indirect immunoperoxidase technique for light microscopy. Wound healing was faster in the experimental group compared to the sham and control groups. The experimental group exhibited increased expression of IL-8, FGF-2 and MCP-1 during early stages of wound healing (inflammation) and collagen-1 and EGF expression during late stages of wound healing (proliferation and remodeling). Keratinocytes derived from embryonic stem cells improved wound healing and influenced the wound healing stages.

The effect of different implant biomaterials on the behavior of canine bone marrow stromal cells during their differentiation into osteoblasts.

We investigated the effects of different implant biomaterials on cultured canine bone marrow stromal cells (BMSC) undergoing differentiation into osteoblasts (dBMSC). BMSC were isolated from canine humerus by marrow aspiration, cultured and differentiated on calcium phosphate scaffold (CPS), hydroxyapatite, hydroxyapatite in gel form and titanium mesh. We used the MTT method to determine the effects of osteogenic media on proliferation. The characteristics of dBMSC were assessed using alizarin red (AR), immunocytochemistry and osteoblastic markers including alkaline phosphatase/von Kossa (ALP/VK), osteocalcin (OC) and osteonectin (ON), and ELISA. The morphology of dBMSC on the biomaterials was investigated using inverted phase contrast microscopy and scanning electron microscopy. We detected expression of ALP/VK, AR, OC and ON by day 7 of culture; expression increased from day 14 until day 21. CPS supported the best adhesion, cell spreading, proliferation and differentiation of BMSCs. The effects of the biomaterials depended on their surface properties. Expression of osteoblastic markers showed that canine dBMSCs became functional osteoblasts. Tissue engineered stem cells can be useful clinically for autologous implants for treating bone wounds.

The effect of autologous bone marrow stromal cells differentiated on scaffolds for canine tibial bone reconstruction.

Bone marrow contains mesenchymal stem cells that form many tissues. Various scaffolds are available for bone reconstruction by tissue engineering. Osteoblastic differentiated bone marrow stromal cells (BMSC) promote osteogenesis on scaffolds and stimulate bone regeneration. We investigated the use of cultured autologous BMSC on different scaffolds for healing defects in tibias of adult male canines. BMSC were isolated from canine humerus bone marrow, differentiated into osteoblasts in culture and loaded onto porous ceramic scaffolds including hydroxyapatite 1, hydroxyapatite gel and calcium phosphate. Osteoblast differentiation was verified by osteonectine and osteocalcine immunocytochemistry. The scaffolds with stromal cells were implanted in the tibial defect. Scaffolds without stromal cells were used as controls. Sections from the defects were processed for histological, ultrastructural, immunohistochemical and histomorphometric analyses to analyze the healing of the defects. BMSC were spread, allowed to proliferate and differentiate to osteoblasts as shown by alizarin red histochemistry, and osteocalcine and osteonectine immunostaining. Scanning electron microscopy showed that BMSC on the scaffolds were more active and adhesive to the calcium phosphate scaffold compared to the others. Macroscopic bone formation was observed in all groups, but scaffolds with stromal cells produced significantly better results. Bone healing occurred earlier and faster with stromal cells on the calcium phosphate scaffold and produced more callus compared to other scaffolds. Tissue healing and osteoblastic marker expression also were better with stromal cells on the scaffolds. Increased trabecula formation, cell density and decreased fibrosis were observed in the calcium phosphate scaffold with stromal cells. Autologous cultured stromal cells on the scaffolds were useful for healing of canine tibial bone defects. The calcium phosphate scaffold was the best for both cell differentiation in vitro and bone regeneration in vivo. It may be possible to improve healing of bone defects in humans using stem cells from bone marrow.

The role of stem/progenitor cells and Wnt/ß-catenin signaling pathway in the patients with prostate cancer.

AIM: The aim of this paper was to investigate the possible effect of cancer stem cells (CSCs) and relationship with Wnt/ß-catenin signaling pathway progressing of prostate cancer. METHODS: Thirty men with a pathological diagnosis of benign prostate hyperplasia (BPH) (group 1, N.=10), prostate cancer with a gleason score of ≤6 (group 2, N.=10), and prostate cancer with a gleason score of >6 (group 3, N.=10) were included in the study. The patients' groups were compared in terms of immunoreactivity strength of prostatic stem/progenitor cell surface markers including CD133 and CD117. We also compared the immunoreactivity of Wnt7a, a part of Wnt signaling pathway which has a potential role in the progression of several cancers including prostate cancer. The immunoreactivity of Frizzled 6 (Fzd 6) which is the receptor of Wnt family was also evaluated in all groups. RESULTS: Immunohistochemical analyses demonstrated that although CD133 immunoreactivity was positive in all groups, immunoreactivity was significantly stronger in group 3 when compared to other groups. While CD117 immunoreactivity was negative in group 1 and 2, it was positive in group 3. Wnt7a immunoreactivity was weak in all groups and Fzd 6 immunoreactivity was stronger in group 1 and 3 when compared to group 2. CONCLUSION: Our findings demonstrated that CSCs and Wnt signaling pathway have a potential role in the development and progression of prostate cancer.

Characterization of osteoblasts derived from bone marrow stromal cells in a modified cell culture system.

Bone marrow is a complex tissue composed of hematopoietic and stromal stem cells with the potential to differentiate into adipogenic, fibroblastic, reticular, osteogenic and chondrogenic lineages. Identification of differentiation markers during transformation of stromal cells into osteoblasts in a time-dependent manner may be informative for cell-based tissue engineering. Therefore, we investigated the effects of osteogenic medium (OM) on the proliferation and differentiation of rat bone marrow stromal cells (BMSCs). BMSCs from adult male rat tibia and femur were collected and cultured in alpha-MEM medium with 10% fetal bovine serum, penicillin, streptomycin and gentamycin. After three days of culture, the medium covering the adherent cells in culture was changed to OM containing dexamethasone, Na-beta-glycerophosphate and ascorbic acid. As a control, cell culture was also continued in the original medium for the same time period. Differentiated osteoblast cells were collected after 7, 10, 14, 21 and 30 days of culture, fixed with 4% paraformaldehyde and their immunolabelling for osteoblast markers osteonectin (ON) and osteocalcin (OC) was assessed using an indirect immunoperoxidase technique. Immunolabelling of ON and OC was detectable from day 10 of culture, began to increase on day 14, and increased steadily through to day 21. Labelling was highest on day 30 and was more intense in cells cultured with OM compared to the culture without OM. The control cells cultured in the absence of OM produced negligible levels of both markers. In conclusion, our culture system facilitated differentiation of BMSCs into osteoblasts featuring osteoblast markers, and these cells may be useful in autologous bone implant for the treatment of bone wound healing.

Histopathologic effect of chronic use of sildenafil citrate on the choroid & retina in male rats.

BACKGROUND & OBJECTIVES: Sildenafil citrate is an oral medication used to treat male impotence by the inhibition of phosphodiesterase-5 in the corpus cavernosum and subsequent facilitation of penile erection. Though the ocular side effects of sildenafil have been reported, no information is available on the histopathologic effects of chronic use of sildenafil citrate on the ocular vasculature. The present study was undertaken to study the histopathologic effects of chronic use of sildenafil on the retina and choroid of male rats. METHODS: Twelve adult male Wistar rats were used in the study. Six of them were given 8 mg/kg/day sildenafil citrate orally on alternate days, the other six rats were used as control. The animals were sacrificed after 4 wk of treatment, and the eyes were fixed in 10 per cent formalin solution and sectioned after embedding in paraffin. Sections were cut, stained with haematoxylin-eosin (HE) or periodic acid Schiff (PAS) and examined under light microscope. The choroidal capillary diameter was also measured. RESULTS: The choroidal capillaries were more dilated in the sildenafil citrate treated group (mean capillary diameter 3.44 +/- 1.68 microm versus the control of 1.78 +/- 1.36 microm, P < 0.001). The retinal layers and their configuration were unchanged in both the groups. INTERPRETATION & CONCLUSION: Chronic use of sildenafil citrate can cause dilatation and congestion in the choroidal vasculature of male rats.

Absence of basement membranes after targeting the LAMC1 gene results in embryonic lethality due to failure of endoderm differentiation.

The LAMC1 gene coding for the laminin gamma1 subunit was targeted by homologous recombination in mouse embryonic stem cells. Mice heterozygous for the mutation had a normal phenotype and were fertile, whereas homozygous mutant embryos did not survive beyond day 5.5 post coitum. These embryos lacked basement membranes and although the blastocysts had expanded, primitive endoderm cells remained in the inner cell mass, and the parietal yolk sac did not develop. Cultured embryonic stem cells appeared normal after targeting both LAMC1 genes, but the embryoid bodies derived from them also lacked basement membranes, having disorganized extracellular deposits of the basement membrane proteins collagen IV and perlecan, and the cells failed to differentiate into stable myotubes. Secretion of the linking protein nidogen and a truncated laminin alpha1 subunit did occur, but these were not deposited in the extracellular matrix. These results show that the laminin gamma1 subunit is necessary for laminin assembly and that laminin is in turn essential for the organization of other basement membrane components in vivo and in vitro. Surprisingly, basement membranes are not necessary for the formation of the first epithelium to develop during embryogenesis, but first become required for extra embryonic endoderm differentiation.

The targeted deletion of the LAMC1 gene.

Laminin is required for the production of a basement membrane in both the early embryo and in the embryoid body. The absence of the gamma 1 chain leads to different processing of the other subunits in the trimer and prevents the production of a polymerizing laminin molecule. Collagen IV and perlecan are not able to compensate for the loss of the laminin molecule, and nidogen, which would normally bind to the gamma 1 chain, is almost completely lost from the embryoid body. In the embryo the failure of the basement membrane results in embryonic lethality at embryonic day 5.5, a time when the primitive endoderm is differentiating to visceral and parietal endoderm, and the latter is migrating out of the inner cell mass over the trophectoderm. It is likely that failure in one or both of these events leads to the death of the embryo. The absence of the trophectodermal basement membrane normally present in the blastocyst appears not to be necessary for the formation of the blastocystic cavity, which depends on the formation of a polarized epithelium. Hence the first epithelium produced in the developing embryo does so independently of a basement membrane.