Ultrastructural and histological characteristics of the equine endometrium at day 5 post ovulation.

Rapid endometrial adaptations occur with the embryo entering the uterus to create a receptive uterine environment, which is essential for the conceptus' development. The aim of this study was to demonstrate ultrastructural and histological changes of the endometrium at day 5 after ovulation in cyclic and inseminated mares. Mares were daily examined by transrectal palpation and ultrasonographic examination of the reproductive tract until ovulation was detected. In the first cycle, endometrial biopsies from 10 cyclic mares (Cyclic group) were collected on day 5 post-ovulation. In the second cycle, the same mares were inseminated with fresh semen from a fertile stallion (Inseminated group). Intrauterine biopsies were collected on day 5 post-ovulation, and according to sampling moment, inseminated mares were subdivided into two subgroups, those sampled at day 5-5.5 (n = 5) and those sampled at day 5.5-6 (n = 5). Biopsy samples were analyzed through scanning electron microscopy and light microscopy. Inseminated group presented an increase in glandular diameter, decrease in ciliated cell population, and an increase in lymphocyte population, compared to Cyclic group. No differences were observed between both experimental groups in number of micro-ciliated polygonal cells, percentage of flat or protruded cells in the epithelium, amount of secretion over the epithelium, glandular density, glandular luminal diameter, height of the glandular epithelium, amount of intraglandular secretion, blood vessel diameter and number of eosinophils and neutrophils. No differences in any of the variables were detected between subgroups from inseminated mares. These facts lead to the hypothesis that there is some sort of signaling to prepare and adapt the uterus to maintain pregnancy even before embryo arrival. There is also evidence to support an alternative hypothesis suggesting that all of the above mentioned are inflammatory events, resulting from a previous inflammation due to residual seminal effects. The results here presented lead to the conclusion that significant ultrastructural and histological changes of the endometrium occur on day 5 post ovulation in inseminated mares.

Proteomic profile of histotroph during early embryo development in mares.

There is a complex cascade involving proteins during early embryo development and maternal recognition, which is very important for maintenance of a conceptus. The aim of this study was to compare proteomic profile of uterine fluid after ovulation in pregnant and cyclic mares. In the first cycle, samples of uterine fluid of 30 cyclic mares were collected on days 7 (n = 10), 10 (n = 10) and 13 (n = 10) post ovulation and constituted the Cyclic group. In the second cycle, the same mares were bred to a fertile stallion. At days 7, 10 and 13 uterine fluid samples were collected. Immediately after sample collection, the mare's uteri were flushed, and those with an embryo recovered were assigned to the Pregnant group. Of the 30 mares flushed embryos were recovered from 6 mares on day 7, 6 on day 10 and 6 on day 13. Samples from the mares without embryo recovery were excluded from both groups. The uterine fluid samples were processed by two-dimensional electrophoresis technique followed by matrix assisted laser desorption/ionization time-of-flight/time-of-flight (MALDI-TOF/TOF) mass spectrometry for the identification of relevant protein spots. From a total of 677 detected spots 19 were identified, 13 more abundant in Pregnant group and 6 in Cyclic group. In summary, pregnant and cyclic mares showed proteins with different abundance. Identified proteins were related to the transport of lipids through the embryo capsule, uterine motility, ATP generation, maternal immunological tolerance, cell proliferation, differentiation, metabolism and angiogenesis. Changes in the proteomic profile of uterine fluid during early embryo development in mares were related with the conceptus presence, suggesting that these alterations may be important for conceptus development and maternal recognition of pregnancy.