High resolution shadowing of Mycobacterium leprae

Metal shadow casting techniques for transmission electron microscopic examination was used to determine the morphological characteristics of Mycobacterium leprae in untreated and treated patients. This technique is used to visualize bacterial surface structures by thermal evaporation of platinum alloys under moderate vacuum. This method gives a high contrast image at relatively low resolution and is useful for correlating micro-morphology quantitatively to early therapeutic effects of anti-leprosy drugs. Using these techniques in untreated cases, the surface structures of M. leprae were uniformly filled with relatively homogenous protoplasm surrounded by a cell wall. Most of the bacilli had thick cell walls with prominent banded and fibrous structures on the surface of the cell body. The cell wall was not detached in any of the solid bacilli in untreated cases. The bacilli varied in size and some of them were swollen in their mid-portion. Some bacilli were very short and completely filled with cytoplasm; therefore, these short bacilli were counted as solid bacilli in electron microscopic morphological index (EM-MI) determination. During treatment, mainly the cytoplasms of the bacilli were affected, and degeneration was observed. Ultrastructurally, the cytoplasm was shrunken and detached from the cell wall indicating mild degeneration. After moderate degeneration, the cytoplasm appeared fragmented. In advanced degeneration, all structures except the cell walls collapsed completely and no fibrous or band structures were visible on the surfaces of the cell walls. Therefore, these bacilli were counted as non-solid bacilli for EM-MI determination. This study shows that transmission electron shadowing gives more accurate counts than standard light microscopy of intact M. leprae bacilli in patient specimens.     

High resolution shadowing of Mycobacterium leprae

Metal shadow casting techniques for transmission electron microscopic examination was used to determine the morphological characteristics of Mycobacterium leprae in untreated and treated patients. This technique is used to visualize bacterial surface structures by thermal evaporation of platinum alloys under moderate vacuum. This method gives a high contrast image at relatively low resolution and is useful for correlating micro-morphology quantitatively to early therapeutic effects of anti-leprosy drugs. Using these techniques in untreated cases, the surface structures of M. leprae were uniformly filled with relatively homogenous protoplasm surrounded by a cell wall. Most of the bacilli had thick cell walls with prominent banded and fibrous structures on the surface of the cell body. The cell wall was not detached in any of the solid bacilli in untreated cases. The bacilli varied in size and some of them were swollen in their mid-portion. Some bacilli were very short and completely filled with cytoplasm; therefore, these short bacilli were counted as solid bacilli in electron microscopic morphological index (EM-MI) determination. During treatment, mainly the cytoplasms of the bacilli were affected, and degeneration was observed. Ultrastructurally, the cytoplasm was shrunken and detached from the cell wall indicating mild degeneration. After moderate degeneration, the cytoplasm appeared fragmented. In advanced degeneration, all structures except the cell walls collapsed completely and no fibrous or band structures were visible on the surfaces of the cell walls. Therefore, these bacilli were counted as non-solid bacilli for EM-MI determination. This study shows that transmission electron shadowing gives more accurate counts than standard light microscopy of intact M. leprae bacilli in patient specimens.     

New structural components detected in B. pertussis of different serotypes]

The authors present electron microscopic data on the study of morphological peculiarities of the strains belonging to various serological types. All the strains studied had a structure characteristic of Gram-negative bacteria. Two types intracellular membranes and intracytoplasmic crystal-like structures were revealed in a number of strains (No. 222, No. gZ353, No. 475), irrespective of the serological types. Dynamics of formation of the crystal-like structures in the bacterial cell was described. Marked changes occurred in the cells with the formation of crystal-like structures: cytoplasmic membrane became detached from the cell wall with the resultant contraction of the cytoplasm; large periplastic spaces formed.     

Effect of aculeacin A, a wall-active antibiotic, on synthesis of the yeast cell wall

A wall-active, amphophilic antibiotic aculeacin A significantly but incompletely inhibited in vitro the activity of beta-(1,3)glucan synthase prepared from highly susceptible yeasts Saccharomyces cerevisiae and Candida albicans. In contrast, comparable cell-free preparations from S. cerevisiae active in chitin synthase or mannan synthase were insensitive to the antibiotic, suggesting selectivity of its action in synthesis of the yeast cell wall. An electron microscopic study of the effects of aculeacin A at 0.31 micrograms/ml, the optimally active concentration, on osmotically stabilized C. albicans cells revealed morphological alterations in both cell walls and cell membranes. Deformation in contour and derangement of the layered structure of the cell wall were prominent. In addition, massive fibrous material of beta-glucan-like microfibrils was occasionally extruded from the cell surface. Accompanying this effect on the cytology of the cell wall, ultrastructural and functional impairment of the cell membrane was demonstrated by transmission and freeze-fracture electron microscopic techniques. These data suggest that aculeacin A affects synthesis of the yeast cell wall through not only selective blockage of beta-(1,3)glucan synthase, as a result of a primary interaction with the cell membrane, but also inhibition of the fabrication of beta-glucan or other wall components into well-organized cell walls.     

ELECTRON MICROSCOPE STUDY OF MYCOBACTERIUM LEPRAE AND ITS ENVIRONMENT IN A VESICULAR LEPROUS LESION.

Imaeda, Tamotsu (Instituto Venezolano de Investigaciones Cientificas, Caracas, Venezuela) and Jacinto Convit. Electron microscope study of Mycobacterium leprae and its environment in a vesicular leprous lesion. J. Bacteriol. 83:43-52. 1962.-Biopsied specimens of a borderline leprosy lesion were observed with the electron microscope. In this lesion, the majority of Mycobacterium leprae were laden with cytoplasmic components. The bacilli were separated from the cytoplasm of host cells by an enclosing membrane, thus differing from the environment of well-developed lepra cells in lepromatous lesions.The cell wall is composed of a moderately dense layer. A diffuse layer is discernible outside the cell wall, separated from it by a low density space. It is suggested that the cell wall is further coated by a low density layer, although the nature of the outermost diffuse layer has not yet been determined.The plasma membrane consists of a double layer, i.e., dense inner and outer layers separated by a low density space. The outer layer is closely adjacent to the cell wall. In the region where the outer layer of the plasma membrane enters the cytoplasm and is transformed into a complex membranous structure, the inner layer encloses this membranous configuration. Together they form the intracytoplasmic membrane system.In the bacterial cytoplasm, moderately dense, presumably polyphosphate bodies are apparent. As neither these bodies nor the intracytoplasmic membrane system are visible in the degenerating bacilli, it seems probable that these two components represent indicators of the state of bacillary activity.     

Ultrastructure at the Host-Parasite Interface of Phytophthora capsici in Roots and Stems of Capsicum annuum

The infecting hyphae of Phytophthora capsici grew intercellularly in infected tissues of roots and stems of pepper (Capsicum annuum). The vascular tissues were not markedly disorganized even when heavily infected. Intercellularly growing hyphae penetrated the host cells by forming haustorium-like bodies. The consistent features of ultrastructural changes in infected tissues of pepper roots and stems were degeneration of cell organelles and dissolution of host cell walls. The cytoplasm detached from the cell wall aggregated abundantly around some haustorium-like bodies or the penetration sites of fungal hyphae. The host cell walls were palely stained, thinned and swollen, possibly being biochemically altered by the action of fungal macerating enzymes. Electron-dense, wall-like material was apposed on the outer wall of xylem vessel contacted by fungal hyphae. The infecting hyphae were also surrounded by granular, dark-staining cytoplasm. Characteristics of host cell responses to the invading P. capsici were the deposition of papilla-like material on host cell walls next to hyphae and the encasement of haustorium-like bodies with wall appositions.     

戊唑醇对赤霉病菌生长发育影响的细胞学和免疫细胞化学研究

本文采用电子显微镜和免疫细胞化学技术研究了三唑类杀菌剂戊唑醇 (Tebuconazole) 对小麦赤霉病菌Fusarium graminearum菌丝的形态结构、细胞壁成份和毒素产生的影响。结果表明,戊唑醇不但强烈抑制了培养基上菌丝的生长,而且可引起菌丝形态和结构的明显畸形。电镜观察发现,药剂处理后菌丝呈现不规则的肿胀、过度分枝;菌丝细胞壁不规则加厚,尤其是菌丝顶端部位加厚明显;菌丝形成的不完整隔膜增多,且隔膜壁不规则增厚;菌丝细胞内液泡增加、脂肪粒累积,细胞器排列紊乱,原生质最终坏死。有时在坏死菌丝内可发现新的子菌丝,但子菌丝细胞壁不规则加厚、细胞质坏死、也呈不正常状态,并可再度形成新的菌丝。免疫细胞化学标记表明,药剂处理后菌丝细胞中毒素的标记密度明显低于对照菌丝,表明毒素的产生受到了抑制;而菌丝细胞壁的主要成份几丁质和-1,3-葡聚糖的标记密度明显高于对照处理,表明药剂处理可引起菌丝细胞壁中几丁质和-1,3-葡聚糖的过度累积。     

Structural differentiation of the Bacillus subtilis 168 cell wall.

Exponential-growth-phase cultures of Bacillus subtilis 168 were probed with polycationized ferritin (PCF) or concanavalin A (localized by the addition of horseradish peroxidase conjugated to colloidal gold) to distinguish surface anionic sites and teichoic acid polymers, respectively. Isolated cell walls, lysozyme-digested cell walls, and cell walls treated with mild alkali to remove teichoic acid were also treated with PCF. After labelling, whole cells and walls were processed for electron microscopy by freeze-substitution. Thin sections of untreated cells showed a triphasic, fibrous wall extending more than 30 nm beyond the cytoplasmic membrane. Measurements of wall thickness indicated that the wall was thicker at locations adjacent to septa and at pole-cylinder junctions (P < 0.001). Labelling studies showed that at saturating concentrations the PCF probe labelled the outermost limit of the cell wall, completely surrounding individual cells. However, at limiting PCF concentrations, labelling was observed at only discrete cell surface locations adjacent to or overlying septa and at the junction between pole and cylinder. Labelling was rarely observed along the cell cylinder or directly over the poles. Cells did not label along the cylindrical wall until there was visible evidence of a developing septum. Identical labelling patterns were observed by using concanavalin A-horseradish peroxidase-colloidal gold. Neither probe appeared to penetrate between the fibers of the wall. We suggest that the fibrous appearance of the wall seen in freeze-substituted cells reflects turnover of the wall matrix, that the specificity of labelling to discrete sites on the cell surface is indicative of regions of extreme hydrolytic activity in which alpha-glucose residues of the wall teichoic acids and electronegative sites (contributed by phosphate and carboxyl groups of the teichoic acids and carboxyl groups of the peptidoglycan polymers) are more readily accessible to our probes, and that the wall of exponentially growing B. subtilis cells contains regions of structural differentiation.     

Subcellular localization of Mycobacterium leprae-specific phenolic glycolipid (PGL-I) antigen in human leprosy lesions and in M. leprae isolated from armadillo liver

Phenolic glycolipid (PGL-I), an antigen specific to Mycobacterium leprae, was localized subcellularly in M. leprae residing in human skin, in M. leprae isolated from armadillo liver ('isolated M. leprae') and outside M. leprae in human lepromatous skin. For a quantitative localization of PGL-I sites, specimens, including skin segments stored for 6 years in glutaraldehyde, were embedded in hydrophilic Lowicryl (K4M) resin for ultrathin sectioning. Ultracryosections and Araldite sections of comparable specimens were used for comparison of localization results. A monoclonal antibody (F 47-21-3) directed to antigenic oligosaccharide of PGL-I was employed as primary antibody in immunogold labelling of ultrathin sections. K4M-immunogold methods gave very satisfactory quantitative gold-labelling of PGL-I. The localization of PGL-I by this method partially corresponded with sites detectable in both ultracryosections and the qualititatively superior Araldite sections, but new sites were also localized. Cell walls in human M. leprae and in isolated M. leprae possessed many PGL-I sites, particularly in dividing organisms. PGL-I or its antigenic oligosaccharide was also found, to a lesser extent, in the bacterial cytoplasm. Capsules discernible around part of isolated M. leprae cells displayed heavy PGL-I labelling, sometimes clearly confined to a zone distant from the cell wall. Extrabacterial PGL-I in M. leprae-infected human skin was encountered (1) in phagolysosomes and cytoplasm proper of dermal macrophages containing M. leprae, and (2) intra- and extracellularly in epidermal areas where basal cells harboured M. leprae in untreated multibacillary patients.     

白花罗勒(Ocimum basilium L.)盾状腺毛分泌过程的超微结构研究

白花罗勒成熟的盾状腺毛头部细胞中 ,质体含量丰富 ,体积较大 ,其中有大量的嗜锇物质积累 ;在分泌过程中 ,分泌细胞出现质壁分离现象 ;嗜锇物质向外分泌的途径有两条 :一条是以胞吐的方式 ,另一条是以渗透的方式     

Pollen and Tapetum Development in Male Fertile Rosmarinus Officinalis L. (Lamiaceae)

The development of microspores/pollen grains and tapetum was studied in fertile Rosmarinus officinalis L. (Lamiaceae). Most parts of the cell walls of the secretory anther tapetum undergo modifications before and during meiosis: the inner tangential and radial cell walls, and often also the outer tangential and radial wall, acquire a fibrous appearance; these walls become later transformed into a thin poly-saccharidic film, which is finally dissolved after microspore mitosis. Electron opaque granules found within the fibrous/lamellated tapetal walls consist of sporopollenin-like material, but cannot be interpreted as Ubisch bodies. The middle lamella and the primary wall of the outer tangential and radial tapetal walls remain unmodified, but get covered by an electron opaque, sporopollenin-like layer. Pollenkitt is formed only by lipid droplets from the ground plasma and/or ER profiles, the plastids do not form pollenkitt precursor lipids. Tapetum maturation (“degeneration”) does not take place before late vacuolate stage.

The apertures are determined during meiosis by vesicles or membrane stacks on the surface of the plasma membrane. The procolumellae are conical, but at maturity the columellae are more cylindrical in shape. The columellar bases often fuse, but a genuine foot layer is lacking. The formation of the endexine starts with sporopollenin-accumulating white lines adjacent to the columellar bases. Later, the endexine grows more irregularly by the accumulation of sporopollenin globules. In mature pollen the intine is clearly bilayered.

Generative cells (GCs) and sperm cells contain a comparatively large amount of cytoplasm, and organelles like mitochondria, dictyosomes, ER, and multi-vesicular bodies, but no plastids; GCs and sperms are separated from the vegetative cell only by two plasma membranes.     

Cross wall synthesis and the arrangement of the wall polymers in the cell wall of Staphylococcus spp

The growing process and the fine structure of the cross wall of Staphylococcus were investigated by electron microscopy. Examination of the tangentially sectioned cross wall revealed that it was initially synthesized as a thin cell wall layer by an invaginated cytoplasmic membrane. The wall thickness soon increased by additional synthesis of the wall from the cytoplasmic membrane located at the side region of the cross wall. Scanning electron microscopic observation of sodium dodecyl sulfate-treated and mechanically separated cross walls revealed that the outer surface of the cross wall exhibits regular circular structures and the inner surface showed has an irregular surface. This indicates that cell wall materials were arranged in a regular circular manner in the initially synthesized thin layer. It is conceivable that in Staphylococcus spp. two cell wall synthesizing systems are present: wall-elongation synthesis in which wall materials are arranged in a regular circular manner and wall-thickening synthesis in which wall materials are arranged in an irregular manner.     

Localisation of β-glucosidase in Trichoderma reesei cell walls with immunoelectron microscopy

Abstract Using ferritin-conjugated antibodies as an electron microscopic marker, β-glucosidase was localized within the cell walls of the imperfect fungus Trichoderma reesei QM9414. With different states of cell wall degradation obtained with a cell wall-lysing culture filtrate of Micromonospora chalcea , β-glucosidase was mainly detected within the outer, fibrous exopolysaccharide layer and the outer face of the plasma membrane.     

Ultrastructure of bacilli and the bacillary origin of the macrophagic inclusions in Whipple's disease

An electron microscopic and cytochemical study of the Whipple bacillus in jejunal biopsies from three untreated patients was made using fixation procedures developed for the satisfactory preservation of bacterial ultrastructure. The envelopes of the normal-looking bacilli present free in the lamina propria consisted of the following layers. (i) A cytoplasmic membrane with a triple-layered profile and a mean thickness (peak-to-peak distance) of 6.08 nm. (ii) A thick (20 nm) cell wall containing peptidoglycan; the wall had a hitherto undescribed inner layer that contained polysaccharides, possibly teichoic acids. (iii) Surrounding the cell wall, a surface membrane with a symmetric profile and a mean peak-to-peak distance of 4.74 nm. The ultrastructural pattern of the Whipple bacillus wall corresponds to that of Gram-positive bacteria, but with an additional surface membrane. This membrane is different from the outer membrane of Gram-negative bacteria because it has a symmetric profile, is thinner and has no periodic acid-Schiff (PAS)-positive components. Normal-looking bacilli were seen very rarely inside jejunal macrophages, but degenerating bacteria were abundant in these phagocytes. Electron microscopy and ultrastructural cytochemistry of Whipple bacilli inside jejunal macrophages of the three untreated patients showed that the degenerative process is a sequence that leads to the loss of bacillary forms and to the accumulation of bacterial remnants resistant to degradation by the macrophage. These remnants correspond to the innermost, polysaccharide-containing portion of the bacillus wall. The progressive accumulation of these PAS-positive wall remnants is the origin of the intramacrophagic inclusions that are important in the histological diagnosis of Whipple's disease. The reported results indicate that in the three patients studied, the Whipple bacillus multiplies extracellularly, the bacteria that are phagocytosed by macrophages being degraded.     

Immunogold labeling method for Mycobacterium leprae-specific phenolic glycolipid in glutaraldehyde-osmium-fixed and Araldite-embedded leprosy lesions

Phenolic glycolipid (PGL)-I, a Mycobacterium leprae-specific antigen currently used for serodiagnosis of preclinical leprosy, has thus far not been localized subcellularly in leprosy bacilli and their host cells. In this study, we developed an immunogold-labeling technique for qualitative identification of PGL-I sites in glutaraldehyde-osmium-fixed and Araldite-embedded M. leprae and host macrophages in human skin biopsies. Such "hard-fixed," plastic-embedded skin and nerve biopsies from patients with varying cell-mediated immunity to leprosy are amply available worldwide. Our method involves etching of plastic sections with H2O2, incubation with swine serum to eliminate nonspecific labeling, and long (22 hr) incubation at room temperature with monoclonal antibodies to PGL-I. Gold labeling was seen predominantly on cell walls of M. leprae, in vacuolar spaces of bacillated phagolysosomes, and occasionally on the cytoplasm and cell membrane of M. leprae. Host macrophage cytoplasm was labeled very infrequently. This technique allows studies on possibly persisting antigenic PGL-I in multibacillary leprosy patients during or after multidrug therapy. The method may also prove useful for subcellular localization of specific bacterial lipids in other mycobacterial diseases, including tuberculosis.     

Periodic Acid-Methenamine Silver Stain for Mycobacteria in Tissue Sections

The electron microscope has proven very effective for visualization of various morphological features of bacteria. Cationized ferritin (CF) is a stain commonly used to increase the electron microscopic resolution of bacterial cells, thereby enabling detailed analysis of their morphological and structural features. CF has been useful for microscopic examination of the bacterial capsule, cell wall, S-layer, and various unique morphological structures. In addition, as a cation, CF binds only to negatively charged molecules. Thus, CF has been used to identify sites of anionic charge on the bacterial cell surface, which has led to insights concerning the formation and turnover of bacterial peptidoglycan and the S-layer proteins. As a cation, however, CF may also interact with certain cellular components, causing erroneous interpretation of microscopic results. This review provides a discussion of both the strengths and weaknesses of CF when used as a stain for electron microscopy.     

Postpollination-prezygotic ovular secretions into the micropylar canal inPseudotsuga menziesii (Pinaceae)

Ovular morphology was examined ultrastructurally inPseudotsuga menziesii to determine the effects of the ovule on pollen development. Vesicles containing lipid-like substances traverse cell walls of the inner epidemis of the integument and release their contents at the integument surface to form the integumentary membrane. A major aqueous secretion from the integument into the micropylar canal is proposed to occur by the movement of the integumentary membrane and its invaginations towards the center of the micropylar canal. The cellular degeneration of the nucellar apex results from the breakdown of vacuoles. After this degeneration, electron-dense substances move from the prothallial cells of the female gametophyte towards the nucellus, and many morphological changes in the nucellus, prothallial cells, and micropylar canal take place simultaneously. We interpret these changes to result from another major secretion from the prothallial cells. Egg cytoplasm appears to disorganize for a short time. Simultaneously, substantial amounts of electron dense-substances in the prothallial cells and lipid-like substances in surface cell walls of the female gametophyte move towards the nucellus as components of the third major secretion.     

Fine structure of cell wall surfaces in the giant-cellular xanthophycean alga <Emphasis Type="Italic">Vaucheria terrestris</Emphasis>

The mechanical strength of cell walls in the tip-growing cells of Vaucheria terrestris is weakened by treatment with proteolytic enzymes. To clarify the morphological characteristics of the components maintaining cell wall strength, the fine structures of the cell walls, with and without protease treatment, were observed by transmission electron microscopy (TEM) and atomic force microscopy (AFM). Observations indicated that cellulose microfibrils were arranged in random directions and overlapped each other. Most of the microfibrils observed in the inner surface of the cell wall were embedded in amorphous materials, whereas in the outer surface of the cell wall, microfibrils were partially covered by amorphous materials. The matrix components embedding and covering microfibrils were almost completely removed by protease treatment, revealing layers of naked microfibrils deposited deeply in the cell wall. Topographic data taken from AFM observations provided some additional information that could not be obtained by TEM, including more detailed images of the granular surface textures of the matrix components and the detection of microfibrils in the interior of the cell wall. In addition, quantitative AFM data of local surface heights enabled us to draw three-dimensional renderings and to quantitatively estimate the extent of the exposure of microfibrils by the enzymatic treatment.     

Ultrastructural characteristics of the external surfaces of Pasteurella pneumotropica from mice and Pasteurella multocida from rabbits

The surface structures of the cells of Pasteurella pneumotropica from mice and Pasteurella multocida from rabbits were examined by transmission electron microscopy after ruthenium red staining and polycationic ferritin labelling. P. pneumotropica strains ATCC 35149 and K 79114 had slight extracellular fibrous materials associated with cell walls with ruthenium red staining. Ferritin labelling method revealed thick strands or sparsely ferritin-labelled materials on the cell surface of the strains. P. multocida strains Pm-78 and P-2440 had ferritin-labelled capsules surrounded with the cell wall. Strain Pm-78, which was serotyped as A:12, had a thick capsule, whereas serotype -:3 strain P-2440 had a thin and irregular capsule.     

Ultrastructure of rumen bacterial attachment to forage cell walls.

The degradation of forage cell walls by rumen bacteria was investigated with critical-point drying/scanning electron microscopy and ruthenium red staining/transmission electron microscopy. Differences were observed in the manner of attachment of different morphological types of rumen bacteria to plant cell walls during degradation. Cocci, constituting about 22% of the attached bacteria, appeared to be attached to degraded plant walls via capsule-like substances averaging 58 nm in width (range, 21 to 84 nm). Many bacilli appeared to adhere to forage substrates without distinct capsule-like material, although unattached bacteria with capsules were observed occasionally. Certain bacili appeared to be attached to degraded tissue via small amounts of extracellular material, but others apparently had no extracellular material. Bacilli with a distinct morphology due to an irregularly folded, electron-dense outer layer or layers (about 15 nm thick) and without fibrous extracellular material consituted about 37% of the attached bacteria and were observed to adhere so closely to degraded plant walls that the bacterial shape conformed to the shape of the degraded zone. In the rumen ecosystem, bacteria appeared to adhere to plant substrates during degradation by capsule-like material and by small amounts of extracellular material, as well as by the other means not observable by electron microscopy.