Chapman John C, Chapman Fae M, Michael Sandra D
Department of Biological Sciences, Binghamton University, Binghamton, New York, 13902-6000, USA.
Reprod Biol Endocrinol. 2015 Jul 12;13:73. doi: 10.1186/s12958-015-0073-5.
The ability of the thymus gland to convert bone marrow-derived progenitor cells into single positive (SP) T-cells is well known. In this review we present evidence that the thymus, in addition to producing SP T-cells, also has a pathway for the production of double negative (DN) T-cells. The existence of this pathway was noted during our examination of relevant literature to determine the cause of sex steroid-induced thymocyte loss. In conducting this search our objective was to answer the question of whether thymocyte loss is the end product of a typical interaction between the reproductive and immune systems, or evidence that the two systems are incompatible. We can now report that "thymocyte loss" is a normal process that occurs during the production of DN T-cells. The DN T-cell pathway is unique in that it is mediated by thymic mast cells, and becomes functional following puberty. Sex steroids initiate the development of the pathway by binding to an estrogen receptor alpha located in the outer membrane of the mast cells, causing their activation. This results in their uptake of extracellular calcium, and the production and subsequent release of histamine and serotonin. Lymphatic vessels, located in the subcapsular region of the thymus, respond to the two vasodilators by undergoing a substantial and preferential uptake of gamma/delta and alpha/beta DN T- cells. These T- cells exit the thymus via efferent lymphatic vessels and enter the lymphatic system.The DN pathway is responsible for the production of three subsets of gamma/delta DN T-cells and one subset of alpha/beta DN T-cells. In postpubertal animals approximately 35 % of total thymocytes exit the thymus as DN T-cells, regardless of sex. In pregnant females, their levels undergo a dramatic increase. Gamma/delta DN T-cells produce cytokines that are essential for the maintenance of pregnancy.
胸腺将骨髓来源的祖细胞转化为单阳性(SP)T细胞的能力是众所周知的。在本综述中,我们提供证据表明,胸腺除了产生SP T细胞外,还具有产生双阴性(DN)T细胞的途径。在我们查阅相关文献以确定性类固醇诱导胸腺细胞丢失的原因时,注意到了这条途径的存在。在进行这项研究时,我们的目的是回答胸腺细胞丢失是生殖系统和免疫系统典型相互作用的最终产物,还是这两个系统不相容的证据这一问题。我们现在可以报告,“胸腺细胞丢失”是DN T细胞产生过程中发生的一个正常过程。DN T细胞途径的独特之处在于它由胸腺肥大细胞介导,并在青春期后开始发挥作用。性类固醇通过与位于肥大细胞外膜的雌激素受体α结合来启动该途径的发育,从而导致其激活。这导致它们摄取细胞外钙,并产生和随后释放组胺和5-羟色胺。位于胸腺被膜下区域的淋巴管对这两种血管扩张剂作出反应,大量且优先摄取γ/δ和α/β DN T细胞。这些T细胞通过输出淋巴管离开胸腺并进入淋巴系统。DN途径负责产生三个γ/δ DN T细胞亚群和一个α/β DN T细胞亚群。在青春期后的动物中,无论性别如何,约35%的胸腺细胞作为DN T细胞离开胸腺。在怀孕的雌性动物中,它们的水平会大幅增加。γ/δ DN T细胞产生维持妊娠所必需的细胞因子。