Dynamics of inflammatory cytokine expression in bovine endometrial cells exposed to cow blood plasma small extracellular vesicles (sEV) may reflect high fertility.

Aberrant inflammation in the endometrium impairs reproduction and leads to poor fertility. Small extracellular vesicles (sEV) are nanoparticles 30-200 nm in-size and contain transferable bioactive molecules that reflect the parent cell. Holstein-Friesian dairy cows with divergent genetic merit, high- (n = 10) and low-fertile (n = 10), were identified based on fertility breeding value (FBV), cow ovulation synchronization and postpartum anovulatory intervals (PPAI). In this study, we evaluated the effects of sEVs enriched from plasma of high-fertile (HF-EXO) and low-fertile (LF-EXO) dairy cows on inflammatory mediator expression by bovine endometrial epithelial (bEEL) and stromal (bCSC) cells. Exposure to HF-EXO in bCSC and bEEL cells yielded lower expression of PTGS1 and PTGS2 compared to the control. In bCSC cells exposed to HF-EXO, pro-inflammatory cytokine IL1-α was downregulated compared to the untreated control, IL-12α and IL-8 were downregulated compared to the LF-EXO treatment. Our findings demonstrate that sEVs interact with both endometrial epithelial and stromal cells to initiate differential gene expression, specifically genes relate to inflammation. Therefore, even subtle changes on the inflammatory gene cascade in the endometrium via sEV may affect reproductive performance and/or outcomes. Further, sEV from high-fertile animals acts in a unique direction to deactivate prostaglandin synthases in both bCSC and bEEL cells and deactivate pro-inflammatory cytokines in the endometrial stroma. The results suggest that circulating sEV may serve as a potential biomarker of fertility.

Characterisation of ReNcells CX and VM stimulated with interleukin-1ß and lipopolysaccharide.

Abnormal and dysregulated neuroinflammation has been linked to many neurological disorders and neurodegenerative diseases. Understanding the mechanisms of neuroinflammation, their impact on neurodevelopment and how neuroinflammation might be modulated, are currently considered to be critical to improving neurological treatment. ReNcell CX (originating from the cortical region) and VM (originating from the ventral mesencephalon) are human immortalised neural stem cell lines, that have the potential to be used as experimental models for investigating neuroinflammation in vitro. However, the information on the inflammation response of these cells is limited. This is especially more so for undifferentiated ReNcells. In this report we demonstrate using ELISA that cultured, undifferentiated ReNcell CX and VM produce significant amounts of IL-6 in response to IL-1ß treatment, but not to LPS treatment. Additionally, conventional RT-PCR showed that ReNcell CX cells expressed TNFR1 and NF-κB, whereas ReNcell VM expressed only NF-κB. Our results encourage further investigation into the relationship between 1L-1ß and IL-6 in both ReNcell CX and VM. Moreover, TNF-α treatment might potentially affect neuroinflammation in ReNcell CX, while activation of the NF-κB pathway could also play a critical part in neuroinflammation.

The Role of Exosomal Epigenetic Modifiers in Cell Communication and Fertility of Dairy Cows.

Abnormal uterine function affects conception rate and embryo development, thereby leading to poor fertility and reproduction failure. Exosomes are a nanosized subclass of extracellular vesicles (EV) that have important functions as intercellular communicators. They contain and carry transferable bioactive substances including micro RNA (miRNA) for target cells. Elements of the cargo can provide epigenetic modifications of the recipient cells and may have crucial roles in mechanisms of reproduction. The dairy industry accounts for a substantial portion of the economy of many agricultural countries. Exosomes can enhance the expression of inflammatory mediators in the endometrium, which contribute to various inflammatory diseases in transition dairy cows. This results in reduced fertility which leads to reduced milk production and increased cow maintenance costs. Thus, gaining a clear knowledge of exosomal epigenetic modifiers is critical to improving the breeding success and profitability of dairy farms. This review provides a brief overview of how exosomal miRNA contributes to inflammatory diseases and hence to poor fertility, particularly in dairy cows.

The Role(s) of Eicosanoids and Exosomes in Human Parturition.

The roles that eicosanoids play during pregnancy and parturition are crucial to a successful outcome. A better understanding of the regulation of eicosanoid production and the roles played by the various end products during pregnancy and parturition has led to our view that accurate measurements of a panel of those end products has exciting potential as diagnostics and prognostics of preterm labor and delivery. Exosomes and their contents represent an exciting new area for research of movement of key biological factors circulating between tissues and organs akin to a parallel endocrine system but involving key intracellular mediators. Eicosanoids and enzymes regulating their biosynthesis and metabolism as well as regulatory microRNAs have been identified within exosomes. In this review, the regulation of eicosanoid production, abundance and actions during pregnancy will be explored. Additionally, the functional significance of placental exosomes will be discussed.

Using high throughput microtissue culture to study the difference in prostate cancer cell behavior and drug response in 2D and 3D co-cultures.

BACKGROUND: There is increasing appreciation that non-cancer cells within the tumour microenvironment influence cancer progression and anti-cancer drug efficacy. For metastatic prostate cancer (PCa), the bone marrow microenvironment influences metastasis, drug response, and possibly drug resistance. METHODS: Using a novel microwell platform, the Microwell-mesh, we manufactured hundreds of 3D co-culture microtissues formed from PCa cells and bone marrow stromal cells. We used luciferase-expressing C42B PCa cells to enable quantification of the number of PCa cells in complex microtissue co-cultures. This strategy enabled us to quantify specific PCa cell growth and death in response to drug treatment, in different co-culture conditions. In parallel, we used Transwell migration assays to characterize PCa cell migration towards different 2D and 3D stromal cell populations. RESULTS: Our results reveal that PCa cell migration varied depending on the relative aggressiveness of the PCa cell lines, the stromal cell composition, and stromal cell 2D or 3D geometry. We found that C42B cell sensitivity to Docetaxel varied depending on culture geometry, and the presence or absence of different stromal cell populations. By contrast, the C42B cell response to Abiraterone Acetate was dependent on geometry, but not on the presence or absence of stromal cells. CONCLUSION: In summary, stromal cell composition and geometry influences PCa cell migration, growth and drug response. The Microwell-mesh and microtissues are powerful tools to study these complex 3D interactions.

Impact of leukocytospermia on sperm dynamic motility parameters, DNA and chromosomal integrity.

INTRODUCTION: To characterize sperm dynamic motility patterns and chromatin integrity in infertile men with leukocytospermia. MATERIAL AND METHODS: Fifty patients with primary infertility and oligoasthenoteratozoospermia included in this prospective, controlled, blind study. All patients underwent clinical evaluation, semen peroxidase stain, computer aided semen analysis (CASA), sperm DNA integrity evaluation with acridine orange test (AOT) and fluorescence in situ hybridization (FISH) analysis of 18, X and Y chromosomes. Pregnancy outcomes were documented following antibiotic treatment of patients with leukocytospermia. RESULTS: Infertile men with leukocytospermia had significantly lower progressive and total sperm motility percentages compared to the control group. Sperm dynamic motility parameters by CASA including curvilinear, straight line and average pathway velocities, straightness and amplitude of lateral head displacement were significantly lower in leukocytospermia. Sperm DNA fragmentation index was significantly higher in leukocytospermia. Percentages of sperm with disomy XY and 18 were significantly higher. These changes in sperm motility parameters and DNA integrity correlated with the number of peroxidase positive leukocytes. Follow-up of 23 of the 25 patients with leukocytospermia after antibiotic treatment revealed significantly higher pregnancy rates in cured patients than in those with persistent leukocytospermia. CONCLUSIONS: Leukocytospermia has a significant impact on sperm dynamic motility patterns, DNA and chromosomal integrity in infertile men which can adversely affect the likelihood of a successful pregnancy.

3D Cultures of prostate cancer cells cultured in a novel high-throughput culture platform are more resistant to chemotherapeutics compared to cells cultured in monolayer.

Despite monolayer cultures being widely used for cancer drug development and testing, 2D cultures tend to be hypersensitive to chemotherapy and are relatively poor predictors of whether a drug will provide clinical benefit. Whilst generally more complicated, three dimensional (3D) culture systems often better recapitulate true cancer architecture and provide a more accurate drug response. As a step towards making 3D cancer cultures more accessible, we have developed a microwell platform and surface modification protocol to enable high throughput manufacture of 3D cancer aggregates. Herein we use this novel system to characterize prostate cancer cell microaggregates, including growth kinetics and drug sensitivity. Our results indicate that prostate cancer cells are viable in this system, however some non-cancerous prostate cell lines are not. This system allows us to consistently control for the presence or absence of an apoptotic core in the 3D cancer microaggregates. Similar to tumor tissues, the 3D microaggregates display poor polarity. Critically the response of 3D microaggregates to the chemotherapeutic drug, docetaxel, is more consistent with in vivo results than the equivalent 2D controls. Cumulatively, our results demonstrate that these prostate cancer microaggregates better recapitulate the morphology of prostate tumors compared to 2D and can be used for high-throughput drug testing.