R A Shafei, A G Syrkasheva, A Yu Romanov, N P Makarova, N V Dolgushina, M L Semenova
{"title":"[Blastocyst Hatching in Humans].","authors":"R A Shafei, A G Syrkasheva, A Yu Romanov, N P Makarova, N V Dolgushina, M L Semenova","doi":"","DOIUrl":null,"url":null,"abstract":"<p><p>The human oocyte is surrounded by the zona pellucida—an elastic, transparent extracellular\nmatrix consisting of specific glycoproteins. The zona pellucida is preserved after fertilization and surrounds\nthe developing human embryo for a few days. The embryo needs to get out of the zona pellucida before\nimplantation to establish cell contacts between the trophectoderm and endometrial epithelium. The release\nof the embryo from the zona pellucida is carried out at the stage of the blastocyst and called zona hatching.\nDuring zona hatching the blastocyst breaks the zona pellucida and performs active movements to escape\nthrough a gap formed in the zona. While microscopic description of zone hatching is well known, biochemical\nand cytological basis of zone hatching remains poorly understood. The break of the zona pellucida occurs\nunder the influence of two forces: mechanical pressure of the growing blastocyst on the zone and chemical\ndissolution of the zone material with secreted lytic enzymes. There is only one paper (Sathananthan et al.,\n2003), which describes the specialized cells in the trophectoderm that locally dissolve the zona pellucida, promoting\nthe emergence of the hole for blastocyst release. Taking into account the singleness of the paper and\nthe absence of further development of this subject by the authors in the following decade, the existence of specialized\ncells for zone hatching should be assumed with great care. Lytic enzymes, secreted by cells of the trophectoderm\nfor dissolving the zona pellucida, are different. Depending on the species of the mammal, different\nclasses of proteases participate in the zone hatching process: serine proteases, cysteine proteases, metalloproteinases.\nProteases, secreted by human trophectoderm, are not described. The mechanisms of the active\nmovement during blastocyst hatching are investigated to a lesser degree. Only the involvement of the cytoskeleton\nof trophectoderm cells in the mechanism of blastocyst compression was shown, and the participation\nof desmosomes in the coordinated change in the form of trophectoderm cells during compression is suggested.\nThis review summarizes literature data on the possible mechanisms of zone hatching in the development\nof human embryos, obtained in experiments in vitro, as well as in animal models.</p>","PeriodicalId":19673,"journal":{"name":"Ontogenez","volume":"48 1","pages":"8-20"},"PeriodicalIF":0.0000,"publicationDate":"2017-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Ontogenez","FirstCategoryId":"1085","ListUrlMain":"","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
The human oocyte is surrounded by the zona pellucida—an elastic, transparent extracellular
matrix consisting of specific glycoproteins. The zona pellucida is preserved after fertilization and surrounds
the developing human embryo for a few days. The embryo needs to get out of the zona pellucida before
implantation to establish cell contacts between the trophectoderm and endometrial epithelium. The release
of the embryo from the zona pellucida is carried out at the stage of the blastocyst and called zona hatching.
During zona hatching the blastocyst breaks the zona pellucida and performs active movements to escape
through a gap formed in the zona. While microscopic description of zone hatching is well known, biochemical
and cytological basis of zone hatching remains poorly understood. The break of the zona pellucida occurs
under the influence of two forces: mechanical pressure of the growing blastocyst on the zone and chemical
dissolution of the zone material with secreted lytic enzymes. There is only one paper (Sathananthan et al.,
2003), which describes the specialized cells in the trophectoderm that locally dissolve the zona pellucida, promoting
the emergence of the hole for blastocyst release. Taking into account the singleness of the paper and
the absence of further development of this subject by the authors in the following decade, the existence of specialized
cells for zone hatching should be assumed with great care. Lytic enzymes, secreted by cells of the trophectoderm
for dissolving the zona pellucida, are different. Depending on the species of the mammal, different
classes of proteases participate in the zone hatching process: serine proteases, cysteine proteases, metalloproteinases.
Proteases, secreted by human trophectoderm, are not described. The mechanisms of the active
movement during blastocyst hatching are investigated to a lesser degree. Only the involvement of the cytoskeleton
of trophectoderm cells in the mechanism of blastocyst compression was shown, and the participation
of desmosomes in the coordinated change in the form of trophectoderm cells during compression is suggested.
This review summarizes literature data on the possible mechanisms of zone hatching in the development
of human embryos, obtained in experiments in vitro, as well as in animal models.
人卵母细胞被透明带包围,透明带是一种由特定糖蛋白组成的弹性透明细胞外基质。受精后,透明带被保存下来,并围绕着发育中的人类胚胎数天。胚胎需要在着床前脱离透明带,以便在滋养外胚层和子宫内膜上皮之间建立细胞接触。胚胎从透明带释放是在囊胚阶段进行的,称为透明带孵化。在带孵化期间,囊胚打破透明带,并通过带形成的间隙进行主动运动以逃脱。虽然对区域孵化的微观描述是众所周知的,但对区域孵化的生化和细胞学基础仍然知之甚少。透明带的破裂是在两种力的作用下发生的:生长的囊胚对透明带的机械压力和分泌的裂解酶对透明带物质的化学溶解。只有一篇论文(Sathananthan et al.,2003)描述了滋养外胚层中的特化细胞局部溶解透明带,促进胚泡释放孔的出现。考虑到这篇论文的单一性和作者在接下来的十年中没有进一步发展这一主题,应该非常谨慎地假设存在专门化细胞用于区孵化。由滋养外胚层细胞分泌的溶解透明带的酶是不同的。根据哺乳动物的种类,不同种类的蛋白酶参与区域孵化过程:丝氨酸蛋白酶、半胱氨酸蛋白酶、金属蛋白酶。蛋白酶,由人类滋养外胚层分泌,没有描述。对囊胚孵化过程中活动运动的机制研究较少。只有滋养外胚层细胞骨架参与了囊胚压缩的机制,而桥粒参与了滋养外胚层细胞在压缩过程中形态的协调变化。本文综述了在体外实验和动物模型中获得的关于人类胚胎发育中区域孵化可能机制的文献资料。
求助内容:
应助结果提醒方式:
京公网安备 11010802042870号
