Influence of Placental Metalloproteinase-9 Protein on the Branching Architecture of Chorionic Blood Vessels of Human Placenta

Basu Jayasri, O. Sara, Wu Yingyi, Encalada M Diana, Molina Lara, Mikhail Magdy
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Abstract

Introduction: In human placenta, two different branching patterns of chorionic blood vessels exist. In the dispersal type, the chorionic blood vessels undergo successive divisions with gradually diminishing caliber as the blood vessels traverse towards the placental margins. In the magistral type, the blood vessels traverse without appreciable decrease in diameter. We hypothesize, that matrix-degrading enzymes secreted by cytotrophoblasts may influence the branching patterns of these chorionic blood vessels. We, therefore, determined if placental expression of matrix metalloproteinase-9 (MMP-9) protein differed between the two vascular patterns of chorionic blood vessels of human placenta. Methods: 26 full-term delivered placentas were collected from normotensive women. Chorionic villi (CV) were isolated. CV MMP-9 protein was analyzed using human MMP-9 monoclonal antibody based ELISA kits. A novel method was used to determine the vascular patterns of the placentas from placental photographs. Independent t test was used for statistical analysis. P< 0.05 was considered significant. Results: The branching pattern of the chorionic blood vessels was 54% dispersal and 46% of the magistral types. In placentas with dispersal type of branching pattern, MMP-9 protein expression was significantly higher (p=0.035). Women who delivered placentas with magistral type of branching pattern, the mean newborn weight was found to be significantly higher (p=0.039). Conclusion: The study introduces a novel method to investigate chorionic vascular network of human placenta. Our findings underscore the importance of CV MMP-9 protein in affecting the placental branching architecture of chorionic blood vessels in humans. In the magistral type, the calibers of the chorionic blood vessels from the point of insertion of the umbilical cord to the placental margins remained more or less unchanged. We suggest, that this unchanged caliber of blood vessels in the magistral type, may have allowed better nourishment and oxygen to be catered to the fetus; resulting in fetal weight gain.
胎盘金属蛋白酶-9蛋白对人胎盘绒毛膜血管分支结构的影响
在人胎盘中,存在两种不同的绒毛膜血管分支模式。在弥散型中,随着血管向胎盘边缘延伸,绒毛膜血管连续分裂,直径逐渐减小。在主动脉弓型中,血管的直径没有明显的减小。我们推测,细胞滋养细胞分泌的基质降解酶可能影响这些绒毛膜血管的分支模式。因此,我们确定了基质金属蛋白酶-9 (MMP-9)蛋白的胎盘表达在人胎盘的绒毛膜血管的两种血管模式之间是否存在差异。方法:采集血压正常的孕妇足月分娩胎盘26例。分离绒毛膜绒毛(CV)。采用基于人MMP-9单克隆抗体的ELISA试剂盒检测CV MMP-9蛋白。一种新的方法被用来确定胎盘血管模式从胎盘照片。采用独立t检验进行统计分析。P< 0.05被认为是显著的。结果:脉络膜血管分支型54%为分散型,46%为支配型。分散型分支型胎盘中,MMP-9蛋白表达量显著高于分散型分支型胎盘(p=0.035)。分娩具有地方型分支型胎盘的妇女,新生儿的平均体重明显较高(p=0.039)。结论:本研究为研究人胎盘的绒毛膜血管网络提供了一种新的方法。我们的研究结果强调了CV MMP-9蛋白在影响人类绒毛膜血管胎盘分支结构中的重要性。在裁判型中,从脐带插入点到胎盘边缘的绒毛膜血管的直径大致保持不变。我们认为,统治型的血管口径不变,可能为胎儿提供了更好的营养和氧气;导致胎儿体重增加。
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