Effects of Neonatal Exposure to Zearalenone on Puberty Timing, Hypothalamic Nuclei of AVPV and ARC, and Reproductive Functions in Female Mice.

It is now established that mycoestrogen zearalenone (ZEN) disrupts reproductive physiology, but the specific mechanisms by which this occurs remain unknown, especially in brain. Growing evidence suggests that populations of estradiol (E2)-sensitive neurons in anteroventral periventricular (AVPV) and arcuate (ARC) nuclei, especially kisspeptin neurons, play a pivotal role in the timing of puberty onset, ovulation, and normal reproduction. The present study was conducted to find whether the ZEN can cause estrogen-like actions during the critical period of neonatal differentiation. In this study, we compared the effect of neonatal exposure to sesame oil, E2 benzoate (EB, 20 µg/kg body weight [bw]), and 3 various doses: 0.2, 1, and 2 mg/kg bw of ZEN (0.2, 1, and 2 ZEN) on the onset of puberty and estrus cyclicity as well as ovarian follicular profile, kisspeptin expression, and neuronal density in AVPV and ARC hypothalamic nuclei and E2 and luteinizing hormone (LH) levels on postnatal day 70. Control mice received no treatment. Vaginal opening was significantly advanced by EB and 2 ZEN. Disrupted estrus cycles and decreased follicular profiles were observed in EB, 1 ZEN, and 2 ZEN animals. In addition, EB, 1 ZEN, and 2 ZEN reduced the expression of kisspeptin and neuronal density of AVPV and ARC nuclei and caused a decrease in the LH and an increase in E2 plasma levels. Taken together, our observations provide physiological evidence that neonatal exposure to ZEN exerts estrogen-like actions in the estrogen-sensitive hypothalamic AVPV and ARC nuclei, controlling reproductive functions in adult female mice.

Use of an in vitro model in tissue engineering to study wound repair and differentiation of blastema tissue from rabbit pinna.

Rabbit ear wound repair is an accepted model for studies of tissue regeneration, leading to scar less wound repair. It is believed that a specific tissue, blastema, is responsible for such interesting capacity of tissue regeneration. To test this idea further and to elucidate the cellular events happening during the ear wound repair, we designed some controlled experiments in vitro. Small pieces of the ear were punched and washed immediately with normal saline. The tissues were then cultured in the Dulbecco's Modified Eagle(')s Medium, supplemented with fetal bovine serum in control group. As a treatment vitamin A and C was used to evaluate the differentiation potency of the tissue. These tissues were fixed, sectioned, stained, and microscopically studied. Micrographs of electron microscopy provided evidences revealing dedifferentiation of certain cells inside the punched tissues after incubation in tissue culture medium. The histological studies revealed that cells of the tissue (i) can undergo cellular proliferation, (ii) differentiate to epithelial, condrogenic, and osteogenic tissues, and (iii) regenerate the wounds. These results could be used for interpretation of the possible events happening during tissue engineering and wound repair in vitro. An important goal of this study is to create a tissue engineering and tissue banking model, so that in the future it could be used in further blastema tissue studies at different levels.

Topical effects of frog "Rana ridibunda" skin secretions on wound healing and reduction of wound microbial load.

ETHNOPHARMACOLOGICAL RELEVANCE: Study of the interrelationships between human and the animals in their environment has always been a subject of interest and caused discoveries of the animal applications in medicine. From the latest century, these remedies called back in traditional medicine of Vietnam and South America and frog skin was used as a biological dressing and had good effects in healing wounds. Also, frog skin secretions have wound healing properties and reduce inflammation. In this study we applied these secretions in the form of ointment to investigate their healing activities. MATERIALS AND METHODS: Skin secretions were extracted from Rana ridibunda to evaluate their effects on wound healing in mice. Secretion used as raw extract (RE) and ultrafiltrated extract, using a membrane with cutoff 10kDa as under 10kDa (U10E), was administrated as ointment every 48h on wound site. Control group was left without any treatment and also there was other group treated with ointment (O group) alone. On 2, 4 and 6 days post injury, animals were euthanized and images were taken for wound closure evaluation. Then wound locations were removed for histological assays. Also wound microbial load was examined. Observational parameters including wound closure and wound microbiology in experimental groups compared with the control and O groups have been studied. RESULTS: The results showed U10E group has better effects than RE, O and control groups. Histological parameters, including numbers of inflammatory and fibroblast cells and amount of collagen fibers, neovascularization, as well, represented greater degree of wound healing in U10E group compared with RE, O, and control groups. CONCLUSIONS: Our results showed that frog skin secretions were significantly effective in promoting wound healing process. The U10E extract from the frog R. ridibunda possesses a potent accelerating wound healing effect that promises good potential for clinical application in wound care. Further studies will be required to characterize special molecules encompassing healing properties.