Schneeberger E E, Walters D V, Olver R E
J Cell Sci. 1978 Aug;32:307-24. doi: 10.1242/jcs.32.1.307.
The integrity of epithelial tight junctions in foetal mammalian lungs is essential to maintain the unique ionic composition of lung liquid, and to prevent leakage of serum proteins into peripheral air spaces. In the present study the development of intercellular junctions of the lining epithelium of foetal lamb lungs during gestation was examined by light and electron microscopy. Both thin sections and freeze-fracture replicas were examined by electron microscopy. By 39 days of gestation, epithelial tight junctions consist of a minimum of 3.1 +/- 1.6 (s.D.) and a maximum of 5.8 +/- 2.0 discontinuous rows of particles and short segments of strands on P face ridges and in complementary E face grooves, while from 58 to 76 days they are composed of a network of 4.3 +/- 1.6 to 7.7 +/- 1.9 focally interrupted P face strands. Complementary replicas show that many of the discontinuities on the P face are due to separation of junctional particles on to the E face during fracturing, and not to an absence of junctional particles. From 76 days to term, epithelial tight junctions (exclusive of upper airway epithelium which was not examined) resemble those of adult lungs, and consist of a continuous network of 4.5 +/- 2.0 to 7.5 +/- 2.5 P face strands and complementary particle-free grooves. Permeability measurements, published elsewhere, indicate that the epithelium is functionally 'tight' from 69 days onwards. Tight junctions in peripheral air-space epithelium, therefore, are structurally continuous and functionally 'tight' early in foetal lung development, and form seals at one end of long, narrow intercellular spaces; these features may be important for coupled ion and water transport. When the bounding epithelial cells become flattened, these narrow intercellular spaces remain intact as a result of complex interdigitations of adjacent cell membranes. Desmosomes were present throughout gestation near the abluminal side of the tight junctions and occasionally near the base of the intercellular space. These junctions may serve to connect cells to each other at a time when tight junctions may be mechanically weak. In addition, gap junctions are associated with tight junctions from the glandular through the canalicular stages of lung development. They disappear by 120 days when the epithelial cells are differentiated.
胎儿哺乳动物肺上皮紧密连接的完整性对于维持肺液独特的离子组成以及防止血清蛋白渗漏到外周气腔至关重要。在本研究中,通过光学显微镜和电子显微镜检查了妊娠期间胎羊肺内衬上皮细胞间连接的发育情况。电子显微镜检查了薄切片和冷冻断裂复制品。妊娠39天时,上皮紧密连接在P面嵴和互补的E面沟中由最少3.1±1.6(标准差)、最多5.8±2.0排不连续的颗粒和短链段组成,而在58至76天时,它们由4.3±1.6至7.7±1.9的局部中断的P面链网络组成。互补复制品显示,P面上的许多不连续性是由于断裂过程中连接颗粒分离到E面上,而不是由于连接颗粒的缺失。从76天到足月,上皮紧密连接(不包括未检查的上呼吸道上皮)类似于成年肺的紧密连接,由4.5±2.0至7.5±2.5的P面链和互补的无颗粒沟的连续网络组成。在其他地方发表的通透性测量表明,从69天起上皮在功能上是“紧密的”。因此,外周气腔上皮中的紧密连接在胎儿肺发育早期结构上是连续的且功能上是“紧密的”,并在长而窄的细胞间隙的一端形成密封;这些特征对于离子和水的耦合运输可能很重要。当边界上皮细胞变扁平后,由于相邻细胞膜的复杂指状交叉,这些狭窄的细胞间隙保持完整。在整个妊娠期间,桥粒存在于紧密连接的近腔侧附近,偶尔也存在于细胞间隙底部附近。在紧密连接可能机械性较弱时,这些连接可能有助于细胞相互连接。此外,在肺发育的腺泡期到小管期,间隙连接与紧密连接相关。当上皮细胞分化时,它们在120天时消失。
