Scanning electron microscopy of stromal cells of human placental villi throughout pregnancy

Summary Morphological changes in fixed stromal cells and Hofbauer cells were studied throughout pregnancy in different types of placental chorionic villi by scanning electron microscopy. In the mesenchymal villus the fixed stromal cells were characterized by thin cytoplasmic processes. Hofbauer cells exhibited blebs on their surface. Large sail-like processes with a crescent profile which surrounded well developed stromal channels and a small cell body typified the small reticulum cells of the immature intermediate villus. The Hofbauer cells here displayed blebs, microplicae and large lamellipodia. Short cytoplasmic expansions and a large cell body characterized the fibroblasts present inside the stem villus. Hofbauer cells were rare, having blebs or a few short lamellipodia. The mature intermediate villus contained small and large reticulum cells. The latter had a much larger cell body than the small ones and displayed a few short cytoplasmic processes partly delimiting narrow incomplete stromal channels. Occasional Hofbauer cells with small microplicae and/or blebs were present. The small reticulum cells and fibroblasts present in the terminal villus showed similar morphological features as above. However, the former exhibited less developed cytoplasmic extensions and therefore no stromal channels were observed. In the terminal villus, the morphology of the rare Hofbauer cells was similar to that found in the mature intermediate villus.     

The role of the blood-brain barrier in perfusion fixation of the brain for electron microscopy

Synopsis Regions of the brain vascularized by capillaries of the blood-brain barrier (BBB) type require a different fixative from regions which have capillaries of the endocrine type. Fixative with isotonic buffer gives excellent ultrastructural preservation in the BBB regions, but causes severe shrinkage of cells in the endocrine regions. This is evidently due to the difference in the permeability of the capillary walls to solutes in the fixative. In the BBB regions the less perimeable capillaries do not allow outflow of osmotically active particles to a harmful extent, whereas in the endocrine regions osmotic imbalances are created between the intra-and extracellular compartments.The diffusion rate of the fixative and the final volume of the fixed brain depend on the balance between the intravascular and interstitial hydrostatic and oncotic pressures across the capillary wall during the perfusion fixation, as those pressures regulate the amount of perfusate that will enter the parenchyma. Generally, as high a perfusion pressure as possible is recommended to obtain effective wash-out of blood and rapid diffusion of dixative into the tissue. Addition of macromolecules (2% PVP, mol. wt. 40000) into the fixative slightly improved the ultrastructural preservation in the BBB regions of the centrel nervous system.     

激光共聚焦扫描显微镜和透射电镜观察大鼠纹状体内谷氨酸能突触连接的对比观察

目的 探讨使用激光共聚焦扫描显微镜 (Laser scanning confocal microscope,LSCM)观察大鼠纹状体内谷氨酸能突触连接的方法的可行性.方法 12只正常大鼠分为两组,6只大鼠进行纹状体中等棘刺神经元的CM-DiI 单细胞标记,然后Ⅰ型囊泡膜谷氨酸转运体(vesicular glutamate transporter 1,VGluT1 )免疫荧光标记,LSCM层扫后三维重建,观察VGluT1阳性位点在中等棘刺神经元树突上的分布.另外6只大鼠用TEM观察不对称性突触在纹状体神经元树突上的分布.对两种方法的结果进行比较.结果 用LSCM 和TEM方法观察到的纹状体神经元上谷氨酸能突触连接分布情况一致,没有统计学差异.但LSCM更具优越性的是,可以对图像进行三维重构,从而有利于对神经元之间突触连接的空间分布观察和定量分析.结论 神经细胞荧光标记技术结合LSCM观察是考察纹状体神经元上谷氨酸能突触连接的有效方法.     

Keratin 8 protection of placental barrier function

The intermediate filament protein keratin 8 (K8) is critical for the development of most mouse embryos beyond midgestation. We find that 68% of K8-/- embryos, in a sensitive genetic background, are rescued from placental bleeding and subsequent death by cellular complementation with wild-type tetraploid extraembryonic cells. This indicates that the primary defect responsible for K8-/- lethality is trophoblast giant cell layer failure. Furthermore, the genetic absence of maternal but not paternal TNF doubles the number of viable K8-/- embryos. Finally, we show that K8-/- concepti are more sensitive to a TNF-dependent epithelial apoptosis induced by the administration of concanavalin A (ConA) to pregnant mothers. The ConA-induced failure of the trophoblast giant cell barrier results in hematoma formation between the trophoblast giant cell layer and the embryonic yolk sac in a phenocopy of dying K8-deficient concepti in a sensitive genetic background. We conclude the lethality of K8-/- embryos is due to a TNF-sensitive failure of trophoblast giant cell barrier function. The keratin-dependent protection of trophoblast giant cells from a maternal TNF-dependent apoptotic challenge may be a key function of simple epithelial keratins.     

Comparative studies of bacterial biofilms on steel surfaces using atomic force microscopy and environmental scanning electron microscopy

Environmental scanning electron microscopy (ESEM) and atomic force microscopy (AFM) were compared as tools for the observation of bacterial biofilms developed on carbon steel and AISI 316 stainless steel surfaces under stagnant conditions. Biofilms were generated in batch cultures of two different isolates of marine sulphate reducing bacteria (SRB) and in cultures consisting of mixed populations of acidophilic bacteria, known as "acid streamers";. Imaging of single SRB cells on mica was also carried out to reveal the surface topography of individual bacterial cells at nanometre resolution. Following the removal of biofilms, the stainless steel surfaces were profiled using AFM to determine the degree of steel deterioration. ESEM and AFM studies of bacterial biofilms in-situ, gave both qualitative and quantitative information on biofilm structure at high resolution. The use of AFM image analysis software allowed estimation of the width and height of bacterial cells, the thickness and width of exopolymeric (EPS) capsule and bacterial flagella, as well as characterisation of the surface roughness of the steel, including measurements of depth and diameter of individual pits. Exposure of stainless steel specimens to acid streamers resulted in a significant increase in the surface roughness of the steel, compared to specimens placed in sterile medium.     

Scanning electron microscopy of gametophyte characters and antheridial opening in some Ceylonese species of Thelypteridaceae

Gametophytes of the fern family Thelypteridaceae were cultivated aseptically under controlled conditions and investigated with the scanning electron microscope. This report concerns six species, viz. Sphaerostephanos arbuscula S. subtruncatus, S. unitus, Macrothelypteris torresiana, Amauropelta hakgalensis and Pneumatopteris truncata . The gametophytes have some features in common. They are more or less heart-shaped and have glandular trichomes on surfaces and margins. In the middle is an elongated cushion bearing gametangia and rhizoids on the lower surface. Antheridia are of the type common to leptosporangiates, consisting of a basal cell, a ring cell and a cap cell. Archegonia consist externally of four rows of cells meeting at the top with triangular cells. The following features are distinguishing. The form of the margin of the thallus, type of hairiness, and the abundance of glandular hairs. Acicular hairs occur in Sphaerostephanos unitus and Pneumatopteris truncata . In Amauropelta hakgalensis the archegonium deviates from the common type in having a basal layer that consists of eight cells instead of four. In Macrothelypteris torresiana the four or three top cells are markedly irregular. In Sphaerostephanos arbuscula and Amauropelta hakgalensis the antheridial cap cell is sometimes divided. The manner of opening of antheridia and release of spermatozoids varies in each of the species investigated. This investigation reveals that it is possible to identify the species from gametophyte characters only.