This study demonstrates that changes in the cell membrane involving loss of caveolae and PTRF expression occur with the development of prostate cancer. These changes are accompanied by an up-regulation of caveolin-2.
Oestrogen plays an important role in testicular function. This study used mice null for oestrogen receptor a (ERa) or b (ERb) to investigate which receptor mediates the effects of oestrogen within the testis. Groups of ERa knockout mice (aERKO) and ERb knockout mice (bERKO) and wild-type littermates (nZ5-8) were killed at 11 weeks post partum. One testis was fixed in Bouin's fluid for stereology and the other frozen for testosterone measurement. Trunk blood was collected for testosterone RIA. The optical disector combined with the fractionator methodology was used to estimate Leydig, Sertoli and germ cell numbers. At all times, the knockout animals were compared with their wild-type littermates. The physical disector quantified cells stained immunohistochemically for the apoptotic marker active caspase-3 and Hoechst staining was used to identify nuclear fragmentation. The mean Leydig cell volume was measured using the point sampled intercept method. The Leydig cell number per testis was significantly increased in bERKO mice but not in aERKO mice. Plasma and testicular testosterone concentrations were increased in aERKO mice but no changes were observed in bERKO mice. Hypertrophic Leydig cell changes were observed in aERKO mice, and a decreased mean cell volume was seen in bERKO mice. No difference in Sertoli cell number per testis was observed in any of the groups. The spermatogonial cell number per testis was increased in bERKO mice. Immunohistochemistry identified increased numbers of active caspase-3-labelled germ cells per testis in aERKO mice but not bERKO mice. Hoechst staining supported these findings. There was significant germ cell loss in aERKO mice. This study suggests that ERb may be involved in regulation of Leydig cell proliferation and testosterone production in the adult mouse testis.
A xenograft (bovine hydroxyapatite [BHA]) was developed from New Zealand sourced bovine cancellous bone by a successful defatting and deproteinizing procedure. The BHA was chemically, compositionally and structurally characterized. Fourier transform infrared spectroscopy confirmed the removal of organic matter from the bone matrix and the presence of carbonate ( CO32-), hydroxyl (OH ), and phosphate ( PO43-) functional groups. X-ray diffraction analysis suggested that the processed bone corresponds characteristically to hydroxyapatite (HA). SEM analysis showed that the BHA has an interconnected porous architecture with a pore diameter ranging from 100 to 700 μm while µCT analysis calculated the total porosity as 73.46% ± 1.08. Furthermore, the BHA was stable up to 1000°C and lost only 1.8% of its weight. The Ca/P molar ratio of the BHA was 1.58, which is comparable with commercially available natural HA-Endobon . After 28 days of incubation in simulated body fluid (SBF), the pH value only fluctuated between 7.1 and 7.5 and the BHA scaffold did not degrade significantly by weight indicating the scaffold had excellent chemical and structural stability. In vitro studies showed the BHA was cytocompatible and supported the proliferative growth of Saos-2 osteoblast cells. © 2016 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 105B: 1054-1062, 2017.
Oxytocin has been implicated in the regulation of prostate growth. However, the cellular localisation of oxytocin in the normal and diseased human prostate is not known. Oxytocin, oxytocin-associated neurophysin and oxytocin receptor were detected by immunohistochemistry in tissues from patients undergoing routine prostatectomy and in normal human prostate epithelial and stromal cell lines. Western blot analysis detected a single band at 14 kDa with neurophysin antiserum and a 66-kDa band with oxytocin receptor antiserum in epithelial and stromal cell lines. Similar sized bands were also detected in extracts of hyperplastic and adenocarcinomic prostate tissues. Oxytocin, oxytocin-associated neurophysin and oxytocin receptor were present in stromal and epithelial cell lines and in tissue from patients with benign prostatic hyperplasia. The peptides were localised predominantly to the epithelial cells, although discrete areas of stromal staining were also observed. There was a significant difference in the intensity of oxytocin-staining between tissue displaying benign prostatic hyperplasia and invasive carcinoma, with less immunoreactivity being present in the malignant epithelial cells. Thus, oxytocin and its neurophysin and receptor are present in epithelial and stromal cells of the human prostate. Oxytocin expression is reduced with tumour progression and may provide a marker for invasive disease.
Wound healing is a complex process that is critical in restoring the skin's barrier function. This process can be interrupted by numerous diseases resulting in chronic wounds that represent a major medical burden. Such wounds fail to follow the stages of healing and are often complicated by a pro‐inflammatory milieu attributed to increased proteinases, hypoxia, and bacterial accumulation. The comprehensive treatment of chronic wounds is still regarded as a significant unmet medical need due to the complex symptoms caused by the metabolic disorder of the wound microenvironment. As a result, several advanced medical devices, such as wound dressings, wearable wound monitors, negative pressure wound therapy devices, and surgical sutures, have been developed to correct the chronic wound environment and achieve skin tissue regeneration. Most medical devices encompass a wide range of products containing natural (e.g., chitosan, keratin, casein, collagen, hyaluronic acid, alginate, and silk fibroin) and synthetic (e.g., polyvinyl alcohol, polyethylene glycol, poly[lactic‐co‐glycolic acid], polycaprolactone, polylactic acid) polymers, as well as bioactive molecules (e.g., chemical drugs, silver, growth factors, stem cells, and plant compounds). This review addresses these medical devices with a focus on biomaterials and applications, aiming to deliver a critical theoretical reference for further research on chronic wound healing.
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