A comparative study of cytoplasmic basophilia and the population density of ribosomes in the secretory cells of mouse seminal vesicle

Summary A comparative cytochemical and electron microscopic study on the ergastoplasm in the secretory cells of the seminal vesicles of castrated, normal, and testosterone-treated mice is reported. Castration induced a progressive decline in cytoplasmic basophilia (identified with ribonucleic acid) and testosterone treatment caused an enhancement over the normal level. There were corresponding changes in total area of ergastoplasmic membranes, but the expected changes in population density of ribosomes (ribonucleoprotein particles) in the intercisternal cytoplasm did not occur. These observations conflict with the currently-accepted view that almost all of the ribonucleic acid responsible for cytoplasmic basophilia in adult mammalian cells is contained in the ribosomes.Other changes in the fine structure of these cells in the experimental animals are briefly described.This research was aided by grants from the American Cancer Society and the United States Public Health Service (B-2145). Preliminary reports were made at the Tenth Annual Meeting of the Histochemical Society (Deane and Porter 1959) and the Tenth International Congress for Cell Biology (Deane and Porter 1960).     

Complex formation between metarhodopsin II and GTP-binding protein in bovine photoreceptor membranes leads to a shift of the photoproduct equilibrium

Cap binding protein (CBP)-related polypeptides were identified in different cytoplasmic RNP particles of embryonic chick muscles using monoclonal antibody to purified CBP. A single immunoreactive peptide (M_r 78000) was present in preparations of both free mRNP particles and a novel 10 S translation inhibitory RNP particle. In contrast, proteins isolated from these particles showed two new low-M_r immunoreactive peptides (M_r 43000 and M_r 29000). No CBP related protein could be detected in polysomal mRNP, although an immunoreactive M_r 43000 CBP-related protein was present in polysomes. The relevance of the association of different CBP-related polypeptides with cytoplasmic RNP particles and polysomes are discussed.     

CYTOPLASMIC DNA SYNTHESIS IN AMOEBA PROTEUS : I. On the Particulate Nature of the DNA-Containing Elements

The incorporation of tritiated thymidine in Amoeba proteus was reinvestigated in order to see if it could be associated with microscopically detectable structures. Staining experiments with basic dyes, including the fluorochrome acridine orange, revealed the presence of large numbers of 0.3 to 0.5 µ particles in the cytoplasm of all cells studied. The effect of nuclease digestion on the dye affinity of the particles suggests that they contain DNA as well as RNA. Centrifugation of living cells at 10,000 g leads to the sedimentation of the particles in the centrifugal third of the ameba near the nucleus. Analysis of centrifuged cells which had been incubated with H₃-thymidine showed a very high degree of correlation between the location of the nucleic acid-containing granules and that of acid-insoluble, deoxyribonuclease-sensitive labeled molecules and leads to the conclusion that cytoplasmic DNA synthesis in Amoeba proteus occurs in association with these particles.     

Fine Structure of Bacillus subtilis : I. Fixation

The fine structure of Bacillus subtilis has been studied by observing sections fixed in KMnO₄, OsO₄, or a combination of both. The majority of examinations were made in samples fixed in 2.0 per cent KMnO₄ in tap water. Samples were embedded in butyl methacrylate for sectioning. In general, KMnO₄ fixation appeared to provide much better definition of the boundaries of various structures than did OsO₄. With either type of fixation, however, the surface structure of the cell appeared to consist of two components: cell wall and cytoplasmic membrane. Each of these, in turn, was observed to have a double aspect. The cell wall appeared to be composed of an outer part, broad and light, and an inner part, thin and dense. The cytoplasmic membrane appeared (at times, under KMnO₄ fixation) as two thin lines. In cells fixed first with OsO₄ solution, and then refixed with a mixture of KMnO₄ and OsO₄ solutions, the features revealed were more or less a mixture of those revealed by each fixation alone. A homogeneous, smooth structure, lacking a vacuole-like space, was identified as the nuclear structure in a form relatively free of artifacts. Two unidentified structures were observed in the cytoplasm when B. subtilis was fixed with KMnO₄. One a tortuous, fine filamentous element associated with a narrow light space, was often found near the ends of cells, or attached to one end of the pre-spore. The other showed a special inner structure somewhat similar to cristae mitochondriales.     

Continuous interesterification of oils and fats using dried fungus immobilized in biomass support particles

The industrial feasibility of an interesterification process using acetone-dried fungus (as a lipase catalyst) immobilized in biomass support particles (BSPs) was examined by continuous interesterification between olive oil and methyl stearate, where the water content of the reaction mixture (C_w) was controlled at a given value. The C_w affected not only the inactivation rate of lipase in the cells but also the production rate of the by-product (diglycerides). The optimal C_w was determined as about 100 ppm. The half-life of lipase in the cells was about 1200 h at the optimal C_w, suggesting that the interesterification process using the immobilized fungus is industrially feasible.     

Minimal Features of Efficient Incorporation of the Hemagglutinin-Neuraminidase Protein into Sendai Virus Particles

Two transmembrane glycoproteins form spikes on the surface of Sendai virus, a member of the Respirovirus genus of the Paramyxovirinae subfamily of the Paramyxoviridae family: the hemagglutinin-neuraminidase (HN) and the fusion (F) proteins. HN, in contrast to F, is dispensable for viral particle production, as normal amounts of particles can be produced with highly reduced levels of HN. This HN reduction can result from mutation of an SYWST motif in its cytoplasmic tail to AFYKD. HN_AFYKD accumulates at the infected cell surface but does not get incorporated into particles. In this work, we derived experimental tools to rescue HN_AFYKD incorporation. We found that coexpression of a truncated HN harboring the wild-type cytoplasmic tail, the transmembrane domain, and at most 80 amino acids of the ectodomain was sufficient to complement defective HN_AFYKD incorporation into particles. This relied on formation of disulfide-bound heterodimers carried out by the two cysteines present in the HN 80-amino-acid (aa) ectodomain. Finally, the replacement of the measles virus H cytoplasmic and transmembrane domains with the corresponding HN domains promoted measles virus H incorporation in Sendai virus particles.     

Assessing the in vitro toxicity of the lunar dust environment using respiratory cells exposed to Al<Subscript>2</Subscript>O<Subscript>3</Subscript> or SiO<Subscript>2</Subscript> fine dust particles

Prior chemical and physical analysis of lunar soil suggests a composition of dust particles that may contribute to the development of acute and chronic respiratory disorders. In this study, fine Al₂O₃ (0.7 μm) and fine SiO₂ (mean 1.6 μm) were used to assess the cellular uptake and cellular toxicity of lunar dust particle analogs. Respiratory cells, murine alveolar macrophages (RAW 264.7) and human type II epithelial (A549), were cultured as the in vitro model system. The phagocytic activity of both cell types using ultrafine (0.1 μm) and fine (0.5 μm) fluorescent polystyrene beads was determined. Following a 6-h exposure, RAW 264.7 cells had extended pseudopods with beads localized in the cytoplasmic region of cells. After 24 h, the macrophage cells were rounded and clumped and lacked pseudopods, which suggest impairment of phagocytosis. A549 cells did not contain beads, and after 24 h, the majority of the beads appeared to primarily coat the surface of the cells. Next, we investigated the cellular response to fine SiO₂ and Al₂O₃ (up to 5 mg/ml). RAW 264.7 cells exposed to 1.0 mg/ml of fine SiO₂ for 6 h demonstrated pseudopods, cellular damage, apoptosis, and necrosis. A549 cells showed slight toxicity when exposed to fine SiO₂ for the same time and dose. A549 cells had particles clustered on the surface of the cells. Only a higher dose (5.0 mg/ml) of fine SiO₂ resulted in a significant cytotoxicity to A549 cells. Most importantly, both cell types showed minimal cytotoxicity following exposure to fine Al₂O₃. Overall, this study suggests differential cellular toxicity associated with exposure to fine mineral dust particles.     

Calcium signaling in pathogenic and beneficial plant microbe interactions: What can we learn from the interaction between Piriformospora indica and Arabidopsis thaliana

Elevation of intracellular calcium levels in a plant cell is an early signaling event in many mutualistic and pathogenic plant/microbe interactions. In pathogenic plant/fungus interactions, receptor-mediated cytoplasmic calcium elevations induce defense genes via the activation of ion fluxes at the plasma membrane, an oxidative burst and MAPK activation. Mycorrhizal and beneficial endophytic plant/fungus interactions result in a better plant performance through sequencial cytoplasmic and nuclear calcium elevations. The specificity of the calcium responses depends on the calcium signature, its amplitude, duration, frequency and location, a selective activation of calcium channels in the diverse cellular membranes and the stimulation of calcium-dependent signaling components. Arabidopsis contains more than 100 genes for calcium-binding proteins and channels and the response to pathogens and beneficial fungi relies on a highly specific activation of individual members of these protein families. Genetic tools are required to understand this complex response patterns and the cross talks between the individual calcium-dependent signaling pathways. The beneficial interaction of Arabidopsis with the growth-promoting endophyte Piriformospora indica provides a nice model system to unravel signaling events leading to mutualistic or pathogenic plant/fungus interactions.Key words: Piriformospora indica, calcium, calcium signature, plant/microbe interaction     

A real-time qPCR assay to quantify Ophiocordyceps sinensis biomass in Thitarodes larvae

Ophiocordyceps sinensis, an entomogenous fungus parasitic in the larvae of moths (Lepidoptera), is one of the most valuable medicinal fungi, and it only distributed naturally on the Tibetan Plateau. The parasitical amount of O. sinensis in various tissues of the host Thitarodes larvae has an important role in study the occurrence and developmental mechanisms of O. sinensis, but there no an effective method to detect the fungal anamorph. A real-time quantitative PCR (qPCR) system, including a pair of species-specific ITS primers and its related program, was developed for O. sinensis assay with high reliability and efficiency. A calibration curve was established and exhibited a very good linear correlation between the fungal biomass and the C _T values (R ²=0.999419) by the qPCR system. Based on this method, O. sinensis was detected rapidly in four tissues of its host caterpillars, and the results were shown as following: the maximum content of O. sinensis parasitized in the fat-body, and next came body-wall; both of them were much larger than that observed in the haemolymph and intestinal-wall. Taken together, these results show that qPCR assays may become useful tools for study on developmental mechanism of O. sinensis.     

Quantitative Proteomics of an Amphibian Pathogen,Batrachochytrium dendrobatidis,following Exposure to Thyroid Hormone

Batrachochytrium dendrobatidis (Bd), a chytrid fungus, has increasingly been implicated as a major factor in the worldwide decline of amphibian populations. The fungus causes chytridiomycosis in susceptible species leading to massive die-offs of adult amphibians. Although Bd infects the keratinized mouthparts of tadpoles and negatively affects foraging behavior, these infections are non-lethal. An important morphogen controlling amphibian metamorphosis is thyroid hormone (T₃). Tadpoles may be infected with Bd and the fungus may be exposed to T₃ during metamorphosis. We hypothesize that exposure of Bd to T₃ may induce the expression of factors associated with host colonization and pathogenicity. We utilized a proteomics approach to better understand the dynamics of the Bd-T₃ interaction. Using liquid chromatography-mass spectrometry (LC-MS), we generated a data set of a large number of cytoplasmic and membrane proteins following exposure of Bd to T₃. From these data, we identified a total of 263 proteins whose expression was significantly changed following T₃ exposure. We provide evidence for expression of an array of proteins that may play key roles in both genomic and non-genomic actions of T₃ in Bd. Additionally, our proteomics study shows an increase in several proteins including proteases and a class of uncommon crinkler and crinkler-like effector proteins suggesting their importance in Bd pathogenicity as well as those involved in metabolism and energy transfer, protein fate, transport and stress responses. This approach provides insights into the mechanistic basis of the Bd-amphibian interaction following T₃ exposure.     

Cytoplasmic Ribonucleoprotein Components of the Novikoff Hepatoma

Prominent nucleoprotein sedimentation boundaries were demonstrable in cytoplasmic extracts of Novikoff hepatoma. Fractionation of the homogenates by differential centrifugation or a density gradient method revealed that 65 to 75 per cent of the cytoplasmic ribonucleic acid was present in the form of free ribonucleoprotein particles. After purification by differential centrifugation in dilute buffer, the particles contained 37 per cent RNA, very little lipid, and no demonstrable membrane material. Ultracentrifugal boundaries corresponding to those seen in the original extracts were present, the main component having an s20, _w of 81 S. Upon exposure to chelating agents, the particles dissociated through an intermediate component with sedimentation rate of 56 S to a final stage in which 46 and 28 S subunits were present in a weight ratio of 2:1. ATP and pyrophosphate were equally effective in causing dissociation. ADP was considerably less effective. Treatment of the purified particles with deoxycholate removed one-third of the protein and significantly altered the ultracentrifugal pattern. The particles now dissociated directly to the 46 and 28 S subunit when exposed to chelating agents. Upon electron microscopy, the 81 S particle appeared as an oblate spheroid 24 mµ in diameter. The 46 and 28 S subunits also appeared spheroidal.     

UV Micrographs and Photomicrographs from the Palynological Laboratory,Stockholm-Solna

In Equisetum both the spore and the rhizoidal and first-formed prothallial cells contain sac-like cytoplasmic particles limited by a unit membrane. After KMnO₄ fixation these bodies resemble the spherosomes described from earlier studies (e.g. Frey-Wyssling et al., 1964). They are bounded by a unit membrane, have a diameter of 0.8–1.7 μ and a fine granular content. After double fixation with buffered glutaraldehyde combined with an osmium post-fixative, or triple fixation with buffered formaldehyde added, the bodies resemble microbodies in fine structure. They have a thin unit membrane, a more coarsely granular matrix than after KMnO₄ fixation and very often a core like a 0.5 μ cluster of tubules or discs of around 200 Å in diameter. When spores are fixed in glutaraldehyde the bodies often show cytoplasmic invaginations or inclusions, which is never the case when they are fixed with KMnO₄     

THE CYTOPLASMIC FINE STRUCTURE OF THE DIATOM, NITZSCHIA PALEA

The cytoplasmic fine structure of the motile, pennate diatom, Nitzschia palea was studied in thin sections viewed in the electron microscope. The cells were fixed in OsO₄, embedded in methacrylate, and immersed in 10 per cent hydrofluoric acid (HF) for 36 to 40 hours to remove the siliceous cell wall prior to sectioning. The HF treatment did not cause any obvious cytoplasmic damage. The dictyosome complex is perinuclear, and located only in the central cytoplasm. Mitochondria are sparse in the central cytoplasm, but abundant in the peripheral cytoplasm, and fill many of the transvacuolar cytoplasmic strands. Characteristic, amorphous oil bodies fill certain cytoplasmic strands and probably are not leucosin. The pyrenoid appears to be membrane limited, and oil droplets are found adjacent to the pyrenoid. The pyrenoid of another diatom, Cymbella affinis, is also membrane-limited. The membrane limiting the pyrenoid may be a composite of the terminal portions of chloroplast discs, facilitating rapid movement of photosynthate into the pyrenoid matrix, where the characteristic oil droplets may be formed. Carinal fibrils are found singly in each carinal pore, and may be involved in the locomotion of Nitzschia palea.     

An Electron Microscope Study of the Salamander Thyroid during Hormonal Stimulation

Cytological changes in thyroid glands following administration of thyroid-stimulating hormone (TSH), were studied in adult salamanders, Ambystoma tigrinum, Triturus torosus, and Triturus viridescens by electron and light microscopy. Thyroids from untreated salamanders contained large follicles, faintly basophilic colloid, low follicle cells with flattened nuclei, and scant, slightly basophilic cytoplasm. After TSH administration the cell height and nuclear volume increased. Cytoplasmic basophilia was markedly increased and follicle lumina were reduced. In electron micrographs, stacks of ergastoplasmic lamellae appeared near the nucleus occasionally in contact with the nuclear membrane. In more advanced stages of stimulation, lamellar arrays were largely replaced by small disoriented vesicles and larger vacuoles containing colloid-like material. Sections of obliquely oriented ergastoplasmic membranes contained rows of extremely fine particles. Microvilli increased in size and number and Golgi structures became more extensive. Homogeneous osmiophilic droplets increased in size and abundance. Some of the smaller droplets were seen associated with the Golgi zone. Droplets similar in size and density frequently contained closely packed, whorled lamellae. Mitochondria showed no structural changes but occurred in aggregates interposed between the nucleus and highly folded portions of the basal cell membrane.     

Acapsular Cryptococcus neoformans activates the NLRP3 inflammasome

Cryptococcus neoformans (C. neoformans) is an opportunistic fungal pathogen that mainly infects immunocompromised individuals such as AIDS patients. Although cell surface receptors for recognition of C. neoformans have been studies intensively, cytoplasmic recognition of this pathogen remains unclear. As an important detector of pathogen infection, inflammasome can sense and get activated by infection of various pathogens, including pathogenic fungi such as Candida albicans and Aspergillus fumigatus. Our present study showed that acapsular C. neoformans (cap59Δ) activated the NLRP3-, but not AIM2-nor NLRC4- inflammasome. During this process, viability of the fungus was required. Moreover, our in vivo results showed that during the pulmonary infection of cap59Δ, immune cell infiltration into the lung and effective clearance of the fungus were both dependent on the presence of NLRP3 inflammasome. In summary, our data suggest that the capsule of C. neoformans prevents recognition of the fungus by host NLRP3 inflammasome and indicate that manipulation of inflammasome activity maybe a novel approach to control C. neoformans infection.     

Developmental regulators in <Emphasis Type="Italic">Aspergillus fumigatus</Emphasis>

The filamentous fungus Aspergillus fumigatus is the most prevalent airborne fungal pathogen causing severe and usually fatal invasive aspergillosis in immunocompromised patients. This fungus produces a large number of small hydrophobic asexual spores called conidia as the primary means of reproduction, cell survival, propagation, and infectivity. The initiation, progression, and completion of asexual development (conidiation) is controlled by various regulators that govern expression of thousands of genes associated with formation of the asexual developmental structure conidiophore, and biogenesis of conidia. In this review, we summarize key regulators that directly or indirectly govern conidiation in this important pathogenic fungus. Better understanding these developmental regulators may provide insights into the improvement in controlling both beneficial and detrimental aspects of various Aspergillus species.     

The human fungal pathogen Malassezia and its role in cancer

Malassezia belongs to the fungal division Basidiomycota and plays an important role in the mycobiome of the mammalian system. The fungus propagates by budding and mostly remains commensal with the host comprising of warm-blooded animals. During infection, it converts from yeast to its pathogenic hyphal form and this leads to many diseases in humans. Currently, there are 18 known species of Malassezia out of which 11 species are related to humans and the prevalence of the species varies with geographical location. In addition to several diseases it causes, recent research shows the direct role of the fungus in promoting oncogenesis. The fungus thrives with a fine balance between commensalism and its pathogenic state. Its high lipid content in the cell wall provides a robust defense system against the host immunogenic factors. In this review, we discuss the role of the fungus and its host cell receptors in promoting inflammation and disease. We highlight the potential procancerous role of the metabolites produced by Malassezia in tumor development and highlight how the antimicrobial peptides like Defensin and Nanovesicles like MalaEx modulate the host defense system. Finally, we discuss the importance of fungal dysbiosis caused by Malassezia and its role in human diseases. Though working with the fungus is difficult for several reasons, utilizing modern genomic approaches to understanding the biology of this fungus is of tremendous clinical importance. This review highlights different ways by which the fungus affects human health and often leads to several life-threatening diseases including cancer.     

Galactolipid Synthesis in Vicia faba Leaves: IV. Site(s) of Fatty Acid Incorporation into the Major Glycerolipids

The fatty acids of the major glycerolipids of Vicia faba leaves were analyzed immediately following ¹⁴CO₂ feeding. The leaves were fractionated into chloroplast and cytoplasmic fractions and the location of radioactivity in the fatty acids determined. The results indicate that the major site of incorporation of fatty acids is in the phospholipids. Phosphatidylcholine contained the highest level of radioactivity in the cytoplasmic fraction, whereas phosphatidylglycerol contained radioactivity in both the chloroplast and cytoplasmic fractions. The galactolipids contained very little radioactivity in comparison, this radioactivity being confined to high speed centrifugal fractions believed to contain the envelopes of the chloroplast. Our results suggest that phosphatidylcholine is a major site of incorporation of fatty acids (mainly in oleic acid) in the cytoplasm, whereas phosphatidylglycerol is also a site of incorporation involving both oleic and palmitic acids, inside and outside the chloroplast.     

SlERF52 regulates SlTIP1;1 expression to accelerate tomato pedicel abscission

Abscission of plant organs is induced by developmental signals and diverse environmental stimuli and involves multiple regulatory networks, including biotic or abiotic stress-impaired auxin flux in the abscission zone (AZ). Depletion of auxin activates AZ ethylene (ETH) production and triggers acceleration of abscission, a process that requires hydrogen peroxide (H₂O₂). However, the interaction between these networks and the underlying mechanisms that control abscission are poorly understood. Here, we found that expression of tonoplast intrinsic proteins, which belong to the aquaporin (AQP) family in the AZ was important for tomato (Solanum lycopersicum) pedicel abscission. Liquid chromatography–tandem mass spectrometry and in situ hybridization revealed that SlTIP1;1 was most abundant and specifically present in the tomato pedicel AZ. SlTIP1;1 localized in the plasma membrane and tonoplast. Knockout of SlTIP1;1 resulted in delayed abscission, whereas overexpression of SlTIP1;1 accelerated abscission. Further analysis indicated that SlTIP1;1 mediated abscission via gating of cytoplasmic H₂O₂ concentrations and osmotic water permeability (P_f). Elevated cytoplasmic levels of H₂O₂ caused a suppressed auxin signal in the early abscission stage and enhanced ETH production during abscission. Furthermore, we found that increasing P_f was required to enhance the turgor pressure to supply the break force for AZ cell separation. Moreover, we observed that SlERF52 bound directly to the SlTIP1;1 promoter to regulate its expression, demonstrating a positive loop in which cytoplasmic H₂O₂ activates ETH production, which activates SlERF52. This, in turn, induces SlTIP1;1, which leads to elevated cytoplasmic H₂O₂ and water influx.

A SlERF52-SlTIP1;1 regulatory module accelerates pedicel abscission by increasing cytoplasmic hydrogen peroxide contents and osmotic water permeability.