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蜕膜自然杀伤细胞:胎盘发育的关键调节因子(综述)

Decidual natural killer cells: key regulators of placental development (a review).

作者信息

Croy B Anne, Chantakru Sirirak, Esadeg Souad, Ashkar Ali A, Wei Qingxia

机构信息

Department of Biomedical Sciences, Ontario Veterinary College, University of Guelph, Ont., Canada.

出版信息

J Reprod Immunol. 2002 Oct-Nov;57(1-2):151-68. doi: 10.1016/s0165-0378(02)00005-0.

Abstract

Establishment of pregnancy initiates a dynamic and predictable series of changes in the uterus. In rodents, the trophectoderm of the blastocyst develops through the stage of an ectoplacental cone to become the placenta. The inner cell mass becomes the fetus and its associated extra-embryonic ectoderm and mesoderm. Maternal changes support development of the conceptus. These begin in the uterine stroma, which undergoes a process known as decidualization, and progress to include dilation and elongation of the uteroplacental arteries and activation and proliferation of specialized large granulated lymphocytes in the decidua basalis. This review focuses on these pregnancy-associated lymphocytes, known as uterine Natural Killer (uNK) cells and on their interactions with the other tissues that form the mesometrial aspect of the mouse maternal-fetal interface. Analogous lymphocytes are present in the decidualized human uterus. Understanding of uNK cell biology has advanced significantly through histological studies of implantation sites in immune deficient mice. Here, we summarize the key studies in lymphocyte-, cytokine- and cytokine receptor-deficient mice and in four enhanced models of gestation in these mice that incorporate transplantation or therapy with biologically active molecules.

摘要

妊娠的建立引发了子宫内一系列动态且可预测的变化。在啮齿动物中,囊胚的滋养外胚层发育至外胎盘锥阶段,进而形成胎盘。内细胞团则发育成胎儿及其相关的胚外外胚层和中胚层。母体的变化支持着孕体的发育。这些变化始于子宫基质,基质会经历一个称为蜕膜化的过程,随后发展为子宫胎盘动脉的扩张和延长,以及基蜕膜中特化的大颗粒淋巴细胞的活化和增殖。本综述聚焦于这些与妊娠相关的淋巴细胞,即子宫自然杀伤(uNK)细胞,以及它们与构成小鼠母胎界面子宫系膜侧的其他组织之间的相互作用。在蜕膜化的人类子宫中也存在类似的淋巴细胞。通过对免疫缺陷小鼠着床部位的组织学研究,对uNK细胞生物学的理解有了显著进展。在此,我们总结了淋巴细胞、细胞因子和细胞因子受体缺陷小鼠以及这些小鼠中四种结合了生物活性分子移植或治疗的妊娠增强模型的关键研究。

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