Contents Shallow trophoblast invasion is detrimental in human pregnancies, but represents normal endotheliochorial placentation in dogs. Factors regulating shallow trophoblast invasion into the canine decidua are not well described, but it is known that matrix metalloproteinases (MMPs) play a crucial role in trophoblast invasion in many species. Following the methods previously described for isolating human trophoblasts, canine trophoblasts were isolated using collagenase and trypsin digestions with Percoll density gradient centrifugation. In addition, placental pieces were cryopreserved prior to primary culture following methods previously described for human tissue. Expression of cytokeratin‐7, MMP2 and MMP9 was confirmed using fluorescent immunocytochemistry. Cellular morphology was similar to that reported for trophoblasts. More than 97% of the cells cultured expressed cytokeratin‐7. More cultured canine trophoblasts expressed MMP9 (54.7 ± 3.4%) compared with MMP2 (40.3 ± 1.8%) (p = 0.02). Although both MMPs were immunolocalized to the cytoplasm, MMP2 was found in large, coalescing granules, whereas MMP9 was more diffusely expressed throughout the cell. Cryogenic freezing of placental tissue prior to primary cell culture had no effect on cell proliferation (p = 0.37). This research has established a baseline for future studies investigating the canine placenta as a model for disorders of shallow trophoblast invasion in humans.
ContentsPre-eclampsia affects 2-8% of pregnant women worldwide and is the third leading cause of maternal mortality in the United States, accounting for 20% of maternal deaths, for which the only known cure is delivery of the placenta. It is known that pre-eclampsia results from defects within the trophoblast invasion of the endometrium and myometrium. At a morphological level within the pre-eclamptic human placenta, trophoblast invasion is shallow, and this results in hypoperfusion, which is a life-threatening condition for both the mother and the foetus. Pre-eclampsia has been intensively investigated for over 50 years, and yet the causes are largely unknown. Despite a large body of data, it is still unknown exactly which mechanisms regulate trophoblast invasion. An effective animal model may be crucial to understanding the underlying causes of pre-eclampsia. A canine model is a proposed improvement on the current efforts to investigate disorders of shallow trophoblast invasion throughout gestation and to improve understanding of the factors that regulate trophoblast invasion. The objectives of this research were to elucidate and compare cellular and molecular similarities between normal canine trophoblasts with those from recently published reports on pre-eclampsia in women.
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