Endocannabinoids and their G protein-coupled receptors have been suggested to play a key role in human pregnancy, by regulating important aspects such as implantation, decidualization, placentation and labour. G protein-coupled receptor 55 (GPR55) was previously postulated to be another cannabinoid receptor, since specific cannabinoids were shown to act independently of the classical cannabinoid receptors CB1 or CB2. Current knowledge about GPR55 expression and function in human placenta is very limited and motivated us to evaluate human placental GPR55 expression in relation to other human peripheral tissues and to analyze spatiotemporal GPR55 expression in human placenta. Gene expression analysis revealed low GPR55 levels in human placenta, when compared to spleen and lung, the organs showing highest GPR55 expression. Moreover, expression analysis showed 5.8 fold increased placental GPR55 expression at term compared to first trimester. Immunohistochemistry located GPR55 solely at the fetal endothelium of first trimester and term placenta. qPCR and immunocytochemistry consistently confirmed GPR55 expression in isolated primary placental arterial and venous endothelial cells. Incubation with L-α-lysophosphatidylinositol (LPI), the specific and functional ligand for GPR55, at a concentration of 1 μM, significantly enhanced migration of venous, but not arterial endothelial cells. LPI enhanced migration was inhibited by the GPR55 antagonist O-1918, suggesting a role of the LPI-GPR55 axis in placental venous endothelium function.
During human implantation and placentation, the direct cell to cell contact of fetal and maternal tissues gives room for a variety of immune interactions. Especially, the invasion of a subset of fetal trophoblast cells, called extravillous trophoblast, generate a very close interplay between the two individuals, enabling the attachment of the placenta to the uterine wall and the transformation of maternal spiral arteries to facilitate adequate nutrition of the fetus. During pregnancy, maternal and fetal factors closely interact to maintain pregnancy and smooth the process of delivery. At each and every stage and site, immunological interactions take place, including attachment of the blastocyst, development and invasion of trophoblast, and flow of maternal plasma and blood through the intervillous space of the placenta. Control mechanisms tightly regulate these interactions helping to evade fetal rejection by the mother. In this review, we highlight the morphological sites of development and feto-maternal interaction to help immunological interested scientists and clinicians to develop hypotheses on the feto-maternal immunological network during pregnancy.
A crucial factor for effective villous trophoblast fusion in the human placenta is the transient deregulation of plasma membrane phospholipid asymmetry leading to externalization of phosphatidylserine to the outer membrane leaflet. Screening of scramblase family members implicated in the collapse of phospholipid asymmetry revealed that phospholipid scramblase 1 (PLSCR1) is strongly expressed in villous trophoblast. Therefore, we assessed the putative role of PLSCR1 in villous trophoblast fusion. Spatio-temporal analysis in first trimester and term placenta showed abundant expression of PLSCR1 in syncytiotrophoblast, macrophages and endothelial cells, while it was virtually absent in villous cytotrophoblasts. For functional studies, BeWo cells, isolated primary term trophoblasts and first trimester villous explants were used. During forskolin-mediated BeWo cell differentiation, neither PLSCR1 mRNA nor protein levels showed significant changes. In contrast, when primary trophoblasts were stimulated with Br-cAMP, a decrease in PLSCR1 mRNA and protein expression was observed. To elucidate a role for PLSCR1 in syncytialization, we used RNA interference and a chemical scramblase inhibitor, R5421 (ethanedioic acid). Silencing of PLSCR1 using siRNA had no effects while inhibition of scramblase activity by R5421 increased GCM-1 mRNA expression, beta-hCG protein secretion and fusion rates of BeWo cells. In primary trophoblasts and villous explants, no effects of siRNA or R5421 treatment on fusion were detected. This study provides data on PLSCR1 localization and general expression in the human placenta. The data make it tempting to speculate on a role of PLSCR1 in negatively regulating trophoblast fusion.
We present a now 18-year-old female patient with a severe congenital myopathy phenotype, originally diagnosed as mitochondrial myopathy, however later revealed to constitute a SCN4A-related myopathy based on genetic testing. After birth, floppiness, bradycardia and respiratory insufficiency ensued, and moderately reduced mitochondrial complex I activity was found in muscle tissue (tested at 3 weeks and 3 years of age, respectively). She was treated with riboflavin, carnitine, creatine and a ketogenic diet. At the age of 13 years, whole exome sequencing challenged the initial diagnosis by identifying two (compound heterozygous) SCN4A variants affecting the highly conserved voltage sensor and pore regions of the voltage-gated sodium channel NaV1.4: a known pathogenic loss of function (LOF) variant [c.4360C>T; p.(Arg1454Trp)] and a novel variant of uncertain significance [c.3615C>G; p.(Asn1205Lys)]. For this novel variant, a LOF effect was predicted by in silico, clinical and functional evidence from paralog human sodium channels, and the variant was accordingly classified as likely pathogenic. The patient's phenotype is in line with the few published cases of autosomal recessive SCN4A-related myopathy. There was limited benefit from treatment with salbutamol and acetazolamide, while pyridostigmine caused side effects at a minor dose. This report highlights the importance of genetic testing in severe myopathies particularly in regard to treatment options and the value of paralog information in evaluating ion channel variations.
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