The human fetal membranes are complex tissues that perform many important functions during gestation. The extracellular matrix provides their strength to withstand the forces directed from the fetus and myometrium. Relaxin is a collagenolytic hormone that causes increased production of the matrix metalloproteinases. Its expression from the decidua is increased in patients with preterm premature rupture of the membranes, and its leucine-rich G receptor 7 is upregulated at preterm. The authors previously showed that relaxin is not involved in the infection-mediated cytokine response, but in the absence of infection, it causes increased secretion of both interleukin -6 and interleukin-8 from the membranes. In this article, the authors propose that relaxin is one of a number of sterile stimuli capable of causing increased proinflammatory cytokines, similar to but less robust than the effects of infection. These probably represent distinct inflammatory pathways involving different intracellular signaling events, which can result in either preterm premature rupture of the membranes or preterm labor. The current challenge is to fully understand these pathways and to clarify their similarities and differences.
The decidua and placenta synthesize the human relaxins, termed H1 and H2, believed to be involved in collagen remodeling in the amnion and chorion in an autocrine/paracrine manner. The developmental regulation of the relaxin genes was quantitated in normal pregnancy by in situ hybridization histochemistry with six 48-mer oligonucleotide probes that detect both relaxin genes. A significant increase in relaxin expression occurred in both decidua (p < 0.01) and placenta (p < 0.05) at 12.5-14.4 wk gestation, with the mean peak value in the placenta more than double that of the decidua, suggesting a coordinate regulation of the relaxin genes. At term after spontaneous labor and delivery, a marginal increase in both decidual and placental relaxin gene expression occurred. Given these normal data, three abnormal preterm situations were investigated: 1) premature uterine contractions without prior rupture of the membranes, 2) premature rupture of the fetal membranes (PPROM), 3) cesarean section for medical reasons with intact membranes and no uterine contractions. Tissues showing intrauterine infection were eliminated. Significantly more relaxin was expressed in the preterm decidua from patients with PPROM when compared to patients in group 1 (p < 0.02) or group 3 (p < 0.008). These data were confirmed by Northern analysis with a relaxin cRNA probe. The placental tissues after PPROM also had a significantly higher and a uniform overexpression of relaxin in the placental syncytiotrophoblast. Tissues collected at term, in comparison, showed no such increases in decidua or placenta.
The relaxin receptor has been recently described as a leucine-rich repeat G-protein coupled receptor and designated as LGR7. A closely related receptor, LGR8, is co-expressed by some cells. This study explored the expression of the genes for these receptors in the human fetal membranes and placenta by RT-PCR and the LGR7 protein by immunolocalization. The results showed that LGR7 was well expressed in the fetal membranes, with significantly more in the decidua (p<0.05) than in the amnion. On the other hand, relatively low levels were expressed in the placenta. The major splice variant of LGR7 was undetectable in either the placenta or fetal membranes. Expression of LGR8 was also below the level of detectability in either tissue. Immunostaining for LGR7 was conducted with antisera to both its endodomain and ectodomain, in order to seek evidence for a solubilized ectodomain. However, similar staining patterns were obtained with both antisera, with predominant staining in the cells of the amniotic epithelium, chorionic cytotrophoblast and decidua. Full-thickness fetal membranes from preterm deliveries, before and after labor or after preterm premature rupture of the membrane (PPROM) and labor were collected. In addition, membranes at term, both before and after spontaneous labor were used for analysis of LGR7 gene expression. There was significantly greater LGR7 expressed (p=0.01) in the preterm period compared to term, indicating a potentially important role for relaxin at this time. There was a marginal decline in LGR7 gene expression after labor and delivery both at preterm and term, which did not reach significance. Immunostaining patterns showed less inter-patient variability than did gene expression, with more intense staining for LGR7 after labor and delivery.
Relaxin (RLN) is a systemic hormone from the corpus luteum, and its levels remain low during normal human gestation. Indeed, elevation of circulating RLN has long been associated with preterm birth, for which there has been no physiological explanation. Recent studies have shown that RLN suppresses endotoxin-induced cytokine secretion from THP-1 monocytic cells by acting on the glucocorticoid receptor (GR), but its effects on primary macrophages are unknown. Therefore, in the present study, we examined the effects of RLN on cytokine secretion from primary decidual macrophages (DMs) obtained at term before labor. Unlike THP-1 cells, RLN had no effects on the cytokine responses induced by either lipopolysaccharide (LPS) or interleukin (IL) 1B, mimicking infection-induced or sterile inflammation, respectively. However, RLN alone for 4 h significantly decreased (P < 0.05) colony-stimulating factor 2 (CSF2; also known as granulocyte-macrophage colony-stimulating factor) and IL8 but for 24 h significantly increased IL6 (P < 0.01). We show that DMs express both the RLN receptor (RXFP1) and the GR. RLN suppression of CSF2 and IL8 was sensitive to the GR-antagonist mifepristone (RU-486). However, RLN activation of RXFP1 induced a dose-dependent cAMP response, which when mimicked by forskolin also caused significantly increased (P < 0.05) secretion of IL6. Thus, RLN may be anti-inflammatory in DMs via activation of the GR but proinflammatory via activation of RXFP1 and cAMP. In summary, we have shown that RLN targeting DMs may modulate proinflammatory cytokine secretion at the maternal-fetal interface and contribute to the localized inflammatory response associated with parturition in women.
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