Showing papers in "Journal of Eukaryotic Microbiology in 1991"

The protozoan-metazoan trophic link in pelagic ecosystems

Abstract: The evidence for a qualitatively and quantitatively important trophic link between planktonic Protozoa and higher order metazoan consumers is reviewed. the available data are obtained primarily, but not exclusively, from laboratory studies of calanoid copepod consumers and tintinnid ciliate prey from marine estuarine and nearshore environments. the data indicates that the protozoan-metazoan link is of similar magnitude and importance in the pelagic ecosystems of freshwaters. It is proposed that planktonic Protozoa constitute a high quality, nitrogen-rich food in the diets of their metazoan consumers. Implications of die trophic link to the consumers, prey, and ecosystem are discussed.

Mixotrophic Protists in Marine and Freshwater Ecosystems

Abstract: Some protists from both marine and freshwater environments function at more than one trophic level by combining photosynthesis and particle ingestion. Photosynthetic algae from several taxa (most commonly chrysomonads and dinoflagellates) have been reported to ingest living prey or nonliving particles, presumably obtaining part of their carbon and/or nutrients from phagocytosis. Conversely, some ciliates and sarcodines sequester chloroplasts after ingestion of algal prey. Plastid retention or "chloroplast symbiosis" by protists was first demonstrated <20 years ago in a benthic foraminiferan. Although chloroplasts do not divide within these mixotrophic protists, they continue to function photosynthetically and may contribute to nutrition. Sarcodines and ciliates that harbor endosymbiotic algae could be considered mixotrophic but are not covered in detail here. The role of mixotrophy in the growth of protists and the impact of their grazing on prey populations have received increasing attention. Mixotrophic protists vary in their photosynthetic and ingestion capabilities, and thus, in the relative contribution of photosynthesis and phagotrophy to their nutrition. Abundant in both marine and freshwaters, they are potentially important predators of algae and bacteria in some systems. Mixotrophy may make a stronger link between the microbial and classic planktonic food webs by increasing trophic efficiency.

Feeding In Planktonic Protozoans: Evidence For Non‐Random Acquisition of Prey

Abstract: The literature on discriminant feeding by planktonic protozoans using geometric and nongeometric criteria is reviewed with emphasis on recent studies that indicate phagotrophic protists can use information other than particle size or shape to sort among potential prey. Sufficient data are available for ciliates, aplastidic microflagellates, and phagotrophic dinoflagellates. Numerous representative taxa of all three groups have chemosensory capabilities, either to specific chemicals or to prey exudates, that modify their motility patterns resulting in aggregation or dispersal. Representatives of all three groups also have specific prey preferences. These considerations imply, but do not prove, selectivity in feeding through use of chemical cues. Although prey geometry is clearly a first-order determinant of ingestion through passive mechanical selection, recent studies illustrate that planktonic ciliates and flagellates can use other criteria to discriminate among prey. the evidence clearly implicates use of chemical cues, most likely perceived through contact chemoreception. Filter feeders as well as raptors have such abilities indicating that feeding mechanisms per se do not imply limitations on feeding behavior. Evidence of considerable flexibility and complexity in chemoperceptive feeding suggests that we have only glimpsed the more detailed features of feeding behavior in aquatic protozoans.

Malaria sporozoites release circumsporozoite protein from their apical end and translocate it along their surface.

Abstract: Plasmodium sporozoites, the causative agents of malaria, release circumsporozoite (CS) protein into medium when under conditions simulating those that the parasites encounter in the bloodstream of the vertebrate host. CS protein of the rodent parasite, Plasmodium berghei, is released as the lower molecular weight form, Pb44. This release is substratum- and antibody-independent. Previous studies show that CS protein is released at the trailing, posterior end of motile sporozoites. Video and electron microscopic studies now demonstrate that CS protein is released at the apical end of cytochalasin b-immobilized sporozoites. We propose that CS protein released from the apical end, the leading end of gliding sporozoites, adheres to the sporozoite surface and is translocated posteriorly by a cytochalasin-sensitive and apparently actin-mediated surface motor, which drives gliding motility. This model explains the mechanism of both the circumsporozoite precipitation (CSP) reaction and formation of the CS protein trail by gliding sporozoites.

Culture, electron microscopy, and immunoblot studies on a microsporidian parasite isolated from the urine of a patient with AIDS.

Abstract: Microsporidian spores isolated from a urine sample of an HIV-positive patient were inoculated onto monolayers of six different cell cultures The parasites (CDC:0291:V213) grew profusely in two of the cultures (HLF and E6) and extruded spores into the culture medium The spores were Gram-positive, 225- to 28-microns long, 125- to 18-microns broad, and smooth-walled Some of the spores had already extruded their polar tubes, which were either straight or slightly coiled Infected host cells contained parasitophorous vacuoles filled with developing stages of the parasite, including mature spores Each spore was surrounded by a thin, electron-dense exospore; a thick electron-lucent endospore; and a thin cell membrane Cross-sections of six coils of the polar tube were seen inside the spore Proteins extracted from spores of our isolate and those from Encephalitozoon cuniculi were separated on gradient sodium dodecyl sulfate-polyacrylamide gels and either silver-stained or transferred to nitrocellulose membranes As many as 35 bands, ranging in molecular mass from 10,000 to 200,000, were visualized in the silver-stained gel When reacted with the serum of our patient, strips cut from the membrane showed a number of bands ranging in molecular weight from 25,000 to 200,000 However, unique differences between the profiles of the two parasites were seen both in the immunoblot and the silver-stained protein profiles Based on these findings, we conclude that our isolate belongs to the genus Encephalitozoon, but more studies are needed to identify our isolate to the species level

A soluble phospholipase of Toxoplasma gondii associated with host cell penetration.

Abstract: We previously reported that phospholipase increases host cell penetration by Toxoplasma gondii. Here we show that calcium-dependent phospholipase A (PLA) activity is found in the supernatant of sonically disrupted T. gondii. When fractions of disrupted T. gondii were incubated with host cells, the release of fatty acids and lysolipids was detected. Fractions of sonically disrupted T. gondii with PLA activity increased T. gondii host cell penetration in a bioassay. In addition, a protein of approximately 20 kDa was detected by immunoblot of T. gondii antigens with horse antiserum to snake venom, the major antibody of which recognizes PLA2. Incubation of T. gondii with exogenous PLA2 resulted in increased solubility of a rhoptry protein. This protein, which we previously characterized as involved with enhanced parasite invasion of host cells and which is recognized by monoclonal antibody Tg49, was detected in increased amounts in supernatant fractions of extracellular parasites treated with PLA2. Whereas without PLA2 treatment, it is only slightly soluble under physiological conditions. This raises the possibility that PLA may be implicated in the release of rhoptry proteins.

Corneal microsporidioses: characterization and identification.

Abstract: Two ocular infectious disorders attributed to Microsporidia have been observed. They differ in that one infection involves the corneal stroma leading to corneal ulceration and suppurative keratitis whereas the other infection involves the conjunctival and corneal epithelium. The corneal stromal infection is caused by a binucleated oval spore that is Nosema-like in character. The conjunctival and corneal epithelial infection occurs in HIV-sero-positive individuals and is caused by a spore containing a single nucleus that is a member of the genus Encephalitozoon. Characteristics of these genera and the above-mentioned infections are presented.

Phylogenetic relationships of Blepharisma americanum and Colpoda inflata within the phylum ciliophora inferred from complete small subunit rRNA gene sequences.

Abstract: The complete small subunit rRNA gene sequences of the heterotrich Blepharisma americanum and the colpodid Colpoda inflata were determined to be 1719 and 1786 nucleotides respectively. the phylogeny produced by comparisons with other ciliates indicated that C. inflata is allied more closely with the nassophoreans and oligohymenophoreans than the spirotrichs. This is consistent with the placement of the colpodids in the Class Copodea. Blepharisma americanum was not grouped with the hypotrichs but instead was placed as the earliest branching ciliate. the distinct separation of B. americanum supports the elevation to class status given the heterotrichs based on morphological characters.

Enterocytozoon salmonis n. sp.: an intranuclear microsporidium from salmonid fish.

Abstract: The developmental stages of a recently described microsporidian from the nucleus of hematopoietic cells of salmonid fish were found to be unique among the Microsporida. All observed stages, including meronts, sporonts, and spores were in direct contact with the host cell nucleus (principally hematopoietic cells) of chinook salmon (Oncorhynchus tshawytscha). There is no parasitophorous vacuole and sporogony does not involve formation of a pansporoblastic membrane as with other members of the suborder Apansporoblastina. The extrusion apparatus differentiates prior to division of sporogonial plasmodia. The spores are ovoid (1 x 2 microns) and uninucleate, and possess a coiled polar tube with 8-12 turns. Developmental stages of the salmonid microsporidian are similar to those described for Enterocytozoon bieneusi as found in the intestinal mucosa of human AIDS patients. However, the intranuclear development, different cell types, and host infected clearly separate the salmonid and human parasites. Accordingly, the intranuclear parasite of salmonids is given the name Enterocytozoon salmonis n. sp. within the suborder Apansporoblastina.

Endosymbiotic Methanogenic Bacteria In Anaerobic Ciliates: Significance For the Growth Efficiency of the Host

Abstract: Endosymbiotic methanogenic bacteria of three species of anaerobic ciliates (Plagiopyla frontata, Metopus conforms, and M. palaeformis) were inactivated with the specific methanogen inhibitor 2-bromoethanesulfonic acid. the absence of endosymbiont methanogens reduced growth rate and growth yield by about 30% in P. frontata and M. contortus, while no significant change in fitness was observed in M. palaeformis. In Plagiopyla the growth rate constant is not affected by an artificially increased pH2 neither in normal nor in methanogen-free ciliates. the energetic advantage conferred by endosymbiont methanogens in Plagiopyla and in Metopus contortus probably is due to excretion of organic material from the bacteria at the expense of bacterial reproduction. It is unlikely that the maintenance of a low pH2 within the cells due to H2-consumption by the bacteria is important to the ciliates.

Restriction fragment length polymorphism analysis of Cryptosporidium parvum isolates of bovine and human origin.

Abstract: Cryptosporidium parvum oocysts isolated from different hosts and geographical areas were compared by restriction endonuclease analysis of repetitive DNA: Iowa (bovine), Florida (bovine), New York (bovine), Peru (human), Brazil (human), and Mexico (human). Southern blot hybridization analysis was performed using the restriction endonuclease enzyme Eco RI and the DNA probe pV47-2. The probe hybridized with 18 bands present in all the isolates. The Brazilian, Mexican, and Peruvian human isolates had an additional common band of 4.3 kbp that was absent in the bovine isolates. Two extra bands of 14 and 12 kbp were present in the Brazilian isolate whereas the Mexican isolate had an extra band of 14 kbp. When the Iowa and Peru C. parvum isolates were passed twice through calves, oocysts recovered from both passages showed identical banding patterns, suggesting that recombination of the repetitive sequences was not altered during sexual reproduction. The DNA digested with other restriction endonucleases were tested confirming differences between isolates. A genomic DNA library is currently being produced to better define isolate variation in C. parvum.

Fine Structure of a New Human Microsporidian, Encephalitozoon hellem, in Culture

Abstract: Encephalitozoon hellem is a new human microsporidian isolated from corneal biopsies and conjunctival scrapings of three AIDS patients and cultured in Madin Darby canine kidney (MDCK) cells. Encephalitozoon hellem and Encephalitozoon cuniculi display different protein profiles with sodium dodecyl sulfate-polyacrylamide gel electrophoresis and unique antibody binding patterns with murine antisera against Western blots of each organism. Developmental stages of E. hellem in culture are similar to E. cuniculi. Meronts are 1.3-2.7 microns in diameter, develop within a parasitophorous vacuole adjacent to the vacuolar membrane, divide by binary fission, and contain one or two discrete nuclei. Sporonts measure 2 x 3 microns, separate from the vacuolar membrane, and have a thickened outer membrane. Sporoblasts display a tri-layered wall and possess the earliest recognized polar filaments. Mature spores measure 1 x 1.5 microns and are more electron-dense than other stages. Each spore contains a single nucleus, a polar tubule with four to nine coils, thin electron-dense exospore and thick, electron-lucent endospore. Although E. hellem and E. cuniculi differ biochemically and immunologically, their fine structure and development are indistinguishable.

Ultrastructural Study of the Development of Pleistophora schubergi Zwölfer, 1927 (Protozoa, Microsporida) in Larvae of the Spruce Budworm, Choristoneura fumiferana and Its Subsequent Taxonomic Change to the Genus Endoreticulatus

Abstract: This study demonstrates that Pleistophora schubergi Zwolfer, 1927, a microsporidium originally isolated from the midgut epithelium of Nygmia phaeorrhoea Don (Euproctis chrysorrhoea L.) and Porthetria dispar L., and subsequently reported in several other insects including the spruce budworm, Choristoneura fumiferana (the host used in this investigation), does not belong in the genus Pleistophora Gurley, 1893. Pleistophora schubergi lacks the major features that are characteristic of Pleistophora typicalis, the type species of this genus. A comparison of ultrastructural observations reported for the type species of the genus Pleistophora, P. typicalis, and our observations of P. schubergi revealed significant differences. A thick (0.5 μm) amorphous coat, derived from parasite secretions and deposited external to the parasite plasmalemma, surrounds all developmental stages in P. typicalis. Double membranes, derived from host rough endoplasmic reticulum cisternae encircle the parasite plasmalemma of all developmental stages in P. schubergi. The sporophorous vesicle encases the spores in P. typicalis, and originates from the parasite-secreted coat that is present around meronts. In P. schubergi, the host endoplasmic reticulum cisternae form the envelope that surrounds the meronts. Moreover, the sporophorous vesicle envelope in P. typicalis persists around groups of spores, while in P. schubergi this envelope breaks easily to release the spores in the host cytoplasm. By comparing the characteristics of the microsporidium found in the spruce budworm with those of the recently created polysporous genera that sporulate within a vesicle, we found that P. schubergi does belong in the new genus Endoreticulatus Brooks et al. 1988, and consequently rename it Endoreticulatus schubergi (Zwolfer, 1927) n. comb.

Differential DNA Amplification and Copy Number Control in the Hypotrichous Ciliate Euplotes crassus

Abstract: . During macronuclear development in hypotrichous ciliated protozoans, several thousand macronuclear DNA molecules are amplified several-hundred fold. We investigated the regulation of this amplification by determining the copy numbers of three different macronuclear DNA molecules in the hypotrichous ciliate Euplotes crassus. Two of the macronuclear DNA molecules were present in approximately 1,000 copies per cell, while the third was present in approximately 6,500 copies per cell. These reiteration levels were achieved either during macronuclear development, or shortly thereafter, and were maintained during vegetative growth. The most abundant macronuclear DNA molecule is present as a single-copy sequence in the micronuclear genome. Thus, its high copy number results from differential amplification. These results indicate that DNA amplification during macronuclear development is regulated individually for each macronuclear DNA molecule.

Tetrahymena Thermophila: Growth In Synthetic Nutrient Medium In the Presence and Absence of Glucose

Abstract: This report contains the newest directions for preparation of the synthetic nutrient medium for some Tetrahymena species that do not require lipids. In the standard medium T. thermophila, strains SB 210 and 281, multiply at 37" C with doubling times of around 2 h and at 26" C around 5 h. We have established multiplication rates as functions of variations in the composition of the medium. In media in which all components are present at one-third of the normal concentrations and only the essential amino acids are included, growth and multiplication become sharply dependent on glucose in strain SB 28 1. Such media may be used for selection and enrichment of certain specified cell lines. Key words. Absence of glucose, growth rates, synthetic nutrient medium. HE first successful synthetic nutrient medium for Tetra- T hymena species was reported by Kidder & Dewey in 195 1 (6). It was used to establish the nutrient requirement of these cells, but was not widely employed otherwise in spite of its excellent scientific possibilities. Synthetic media may give insight into mechanisms of feeding biology because their compositions can be varied at will (4, 121. Thus, an essential nutrient can be administered as a "monomer" to be taken up directly or as a form that requires hydrolysis before uptake. For instance amino acids can be added as free acids (8), dipeptides (lo), or polypeptides (8). The results of the experiments indicate that amino acids are taken up by plasma membrane transport mechanisms (8), that the membrane has uptake sites also for dipeptides (lo), and that coagulated, par- ticulate polypeptides are much more readily utilized than dis- solved ones (8). Similarly, phosphate can be offered as ortho- phosphate or organic compounds like phosphorylcholine or phytin. Wildtype cells can use the two former ( 121, but not the latter (unpubl. results). Experiments of this kind have thrown light on uptake mechanisms of these cells and have shown that exoenzymes can play important roles for the nutrition of these cells (3, 4). Carbohydrate sources can limit growth rates of Tetrahymena in synthetic media (2, 111. In both cases nonessential amino acids were excluded from the nutrient medium and the con- centrations of the essential amino acids were reduced compared to standard recipes (5, 61. In their experiments, Cox et al. (2) excluded glucose and increased the concentrations of a few ami- no acids to provide the energy required for cell growth and multiplication. Roberts & Morse ( 1 11 also excluded glucose but added various carbohydrates to supply the cells with energy. Both groups observed a clear difference in growth between cul- tures with and without glucose. We feel, however, that these differences were too small if the media were used as selection media, for instance for cells into which new genes had been introduced. We have attempted to maximize the difference of growth rates in the presence and absence of glucose, varying growth conditions like pH values, temperatures, nutrient con- centrations, etc. Obviously, many parameters can be changed here we have varied a few, and our results should be considered as a paradigm. Variations of our procedures might produce results similar to those reported with any given cell line.

Synchronous Division of an Endosymbiotic Methanogenic Bacterium In the Anaerobic Ciliate Plagiopyla Frontata Kahl

Abstract: The life cycle of a methanogenic bacterium, symbiotic within the marine, free-living anaerobic ciliate Plagiopyla frontata, was studied using light microscopy and transmission electron microscopy (TEM) the bacteria are disc-shaped During the growth phase of the host, bacteria and hydrogenosomes (organelles which ferment pyruvate into acetate and hydrogen) are arranged in conglomerates resembling stacks of coins in which bacteria and hydrogenosomes alternate; hydrogenosomes always cap the ends of the stacks During the growth phase, numbers of hydrogenosomes and bacteria remain constant (about 5,000 and 3,500 per cell, respectively) Hydrogenosomes increase in volume shortly after cell division Methanogens increase in volume slowly during the growth phase of the ciliate and rapidly when the ciliate begins to divide the hydrogenosomes divide mainly during the initial phases of cell division while the methanogens divide synchronously during the last phase of ciliate division the timing of reproduction of the symbionts is controlled by the host-cell cycle the ciliate is known to receive an energetic advantage from its symbionts the suppression of continuous bacterial reproduction may trigger the secretion of excess bacterial production as soluble organic compounds, for use by the ciliate

Splenomegaly and reticulocytosis caused by Babesia microti infections in natural populations of the montane vole, Microtus montanus.

Abstract: . A survey for Babesia microti in rodents was conducted at six sites within Grand Teton National Park, Wyoming. Blood and spleen smears, hematocrits, and reticulocyte counts were made on all of the animals to evaluate parameters for the diagnosis of babesiosis. Ticks were removed for identification. Of 257 Microtus montanus, 103 were infected with B. microti. In addition, five of 12 Microtus pennsylvanicus and one of three Arvicola richardsoni were parasitized by B. microti. Peromyscus maniculatus (n = 40) were not infected. Concurrent infections by Hepatozoon sp., Trypanosoma sp., and the bacterium, Grahamella sp., were noted in blood smears from a number of M. montanus. Splenomegaly and reticulocytosis were significant parameters associated with babesiosis while decreased hematocrit was not. Ticks removed from the voles were identified as Ixodes eastoni and were the probable vectors of the B. microti.

Calcium transport and compartment analysis of free and exchangeable calcium in Plasmodium falciparum-infected red blood cells.

Abstract: Calcium (Ca2+) is indispensable for normal development of the various stages of the asexual erythrocytic cycle of malaria parasites. However, the mechanisms involved in Ca2+ uptake, compartmentalization and cellular regulation are poorly understood. To clarify some of these issues, we have measured total, exchangeable, and free Ca2+ in normal red cells (RBCs) and Plasmodium falciparum (FCR-3)-infected cells (IRBCs) as a function of parasite development. All three forms of Ca2+ were found to be substantially higher in IRBCs than in RBCs, and to increase with parasite maturation up to the trophozoite stage and decline thereafter. Exchangeable and free [Ca2+] in host cell and parasite compartments were determined by selectively lysing IRBCs with Sendai virus, and estimating these parameters in the lysate (host cytosol) and the pellet (parasite cytosol). Levels of both exchangeable and free [Ca2+] were found to be higher in host cytosol than in parasite cytosol. The Ca2+ gradient across the parasite membrane can be maintained by the pH gradient across this membrane by means of a Ca2+/H+ antiporter. Host cytosol free [Ca2+] reached levels known to produce structural, physiological and biochemical changes in RBCs, and could account for similar features normally seen in malaria-infected red cells. Uptake of Ca2+ into IRBCs was nonsaturable and substantially faster than the saturable Ca2+ uptake into RBCs. The rate of Ca2+ uptake across the parasite membrane was even faster suggesting that the rate-limiting step in uptake into intact IRBCs is the translocation of Ca2+ across the host cell membrane.

Trypanosoma cruzi: flow cytometric analysis of developmental stage differences in DNA

Abstract: Flow cytometry and DNA binding-specific fluorescent reagents were used to compare the total DNA, G-C, and A-T content of the epimastigote and trypomastigote stages of Trypanosoma cruzi stocks. Significant total DNA differences of 2-12% between epimastigotes and trypomastigotes were found in three of six stocks studied. The epimastigote G-C content of five of six stocks was 4-8% higher than trypomastigotes, whereas the trypomastigote A-T content was 2.5-13% higher than the epimastigote A-T content. Although no obvious developmental stage association between total DNA and base composition was found, intrastage associations do exist. These observations were unaffected by nucleoprotein extraction implying that the observed differences between trypomastigotes and epimastigotes are not a consequence of nucleoprotein interference with DNA-binding fluorochromes. The nuclei and kinetoplasts of four T. cruzi stocks were isolated and analyzed. Developmental stage differences in nuclear and kinetoplast DNA are stock-dependent and base composition-dependent; both organelles contribute to the observed differences in DNA of intact cells. We found a nearly linear association between the percentage of total kinetoplast DNA, G-C, and A-T content. During metacyclogenesis, the G-C content decreases by approximately 7% as epimastigotes transform into metacyclic trypomastigotes. The decrease in G-C content precedes changes in morphology or in complement resistance. If the DNA changes are causally connected to developmental stage transformations in T. cruzi remains to be determined. However, our results could facilitate studies of the molecular genetic processes the parasite uses to successfully complete various phases of its life cycle and, consequently, the disease process it evokes.

Cryptosporidium parvum: in vitro cultivation in Madin-Darby canine kidney cells.

Abstract: To facilitate studies of the biology of Cryptosporidium parvum, we have developed an in vitro culture system using Madin-Darby canine kidney (MDCK) cells as the host cell. Oocysts or free sporozoites were incubated 37 degrees C with monolayers of MDCK cells in supplemented RPMI 1640 medium and the cells were examined at various time intervals after initiation of the culture. High rates of infection (up to 90% of MDCK cells) were achievable. Sequential development of trophozoites, meronts, microgametocytes, and macrogametocytes was observed over a 72-h period of culture. Between 72 and 96 h we observed formation of oocyst walls, but fully sporulated oocysts were not observed. This culture system provides access to both the asexual and sexual intracellular stages of C. parvum.

Geosmin As an Odorous Metabolite In Cultures of A Free‐Living Amoeba, Vannella Species (Gymnamoebia, Vannellidae)

Abstract: Geosim was identified as the cause of a distinct earthy/grassy odour detected in cultures of a free-living amoeba, Vannella species. Volatile components of cell lysates were isolated and concentrated by the Closed Loop Stripping method. Capillary, gas chromatography/mass spectrometry was used to identify odorous compounds. Bacterial symbionts observed in the cytoplasm of the amoebae may be responsible for production of the geosmin. This appears to be the first report of odorous compounds associated with a free-living protozoan and suggests that in some circumstances, Vannella sp. may contribute to taste and odour problems in drinking water.

Studies on ocular microsporidia.

Abstract: Sera from six ocular microsporidiosis patients and eight individuals with no history of microsporidiosis were assayed by enzyme-linked immunosorbent assay (ELISA) and by Western blot immunodetection. Microsporidia used as antigen include Nosema corneum, Encephalitozoon hellem, Encephalitozoon cuniculi, and Nosema algerae. Three AIDS patients with known E. hellem infections displayed ELISA antibody titers to E. hellem ranging from 1:400 to 1:12,800. Two patients with unclassified microsporidial infections displayed highest antibody titers to N. algerae (1:1,600 and 1:3,200), a mosquito microsporidian which, reportedly, cannot infect man. A sixth patient with a known N. corneum infection displayed the same ELISA antibody titer (1:1,600) to all four microsporidia. Western blot patterns also were variable among the patient sera; however, the most intense and complex antibody-binding patterns corresponded with the higher ELISA antibody titers. Sera from eight HIV-seronegative individuals with no history of microsporidiosis reacted variably to the four microsporidia. These results suggest that diagnosis of microsporidiosis may depend upon direct detection of the organisms using species-specific antibodies or molecular probes rather than conventional serology.

Introduction of Pneumocystis carinii in a colony of SCID mice.

Abstract: Pneumocystis carinii-free SCID mice were housed closely exposed to corticosteroid-treated non-SCID mice in a conventional area of our laboratory animal facilities. A one-day exposure was sufficient for P. carinii transmission. The lung infection increased thereafter. Irradiation or splenectomy of SCID mice at the beginning of the exposure resulted in a marked increase of parasite multiplication. Extrapulmonary foci of pneumocystosis were detected in heart and spleen of SCID mice infected by P. carinii via air transmission.

The putative mitochondrial genome of Plasmodium falciparum.

Abstract: Intraerythrocytic stages of mammalian malarial parasites employ glycolysis for energy production but some aspects of mitochondrial function appear crucial to their survival since inhibitors of mitochondrial protein synthesis and electron transport have antimalarial effects. Investigations of the putative mitochondrial genome of Plasmodium falciparum have detected organellar rRNAs and tRNAs encoded by a 35 kb circular DNA. Some features of the organization and sequence of the rRNA genes are reminiscent of chloroplast DNAs. The 35 kb DNA also encodes open reading frames for proteins normally found in chloroplast but not mitochondrial genomes. An apparently unrelated 6 kb tandemly repeated element which encodes two mitochondrial protein coding genes and fragments of rRNA genes is also found in malarial parasites. The malarial mitochondrial genome thus appears quite unusual. Further investigations are expected to provide insights into the possible functional relationships between these molecules and perhaps their evolutionary history.

Cryptosporidium infections in inbred strains of mice.

Abstract: Cryptosporidium, a protozoan parasite of man and animals, is an important etiological agent of diarrhea throughout the world, particularly in children and immunocompromised individuals such as AIDS patients. Unfortunately, because of the lack of both in vivo laboratory models and reliable in vitro parasite culture systems, virtually nothing is known about the immunological events occurring during disease. In order to identify reliable animal models for infection, we studied C. parvum infections in 19 different strains of mice representing 12 H-2 haplotypes: A/J, AKR/J, B10.D2/J, B10.M/J, C3H/HeJ, C57BL/65, C57BL/6J-bgJ, CBA/NJ, DBA/1J, DBA/2J, HRS/J, HTG/J, NZB/B1NJ, NZW/J, P/J, RIII/J, SJL/J, SWR/J, and WB/ReJ, and in one gerbil: Meriones unguiculatus. Fecal samples and histological sections of the intestine taken on day 7 post-Cryptosporidium inoculation indicated that only the beige mouse (C57BL/6J-bgJ) harbored significant numbers of parasites compared to the other strains. The numbers of parasites harbored in these NK cell-deficient beige mice were, however, considerably lower than those seen in neonatal mice. Adult inbred mouse strains susceptible to Cryptosporidium infections are discussed.

Cytokine- and Pneumocystis carinii- induced L-arginine oxidation by murine and human pulmonary alveolar macrophages.

Abstract: Lipopolysaccharide plus interferon gamma stimulated the L-arginine-.NO pathway of murine, but not human pulmonary alveolar macrophages. Pneumocystis carinii induced .NO production by both murine and human pulmonary alveolar macrophages suggesting that the parasite stimulates L-arginine oxidation in these cells. The potential anti-Pneumocystis activity of .NO warrants further study.

Susceptibility dynamics in neonatal BALB/c mice infected with Cryptosporidium parvum.

Abstract: BALB/c Mice were infected as neonates and at different ages to study the susceptibility dynamics in this animal model to Cryptosporidium parvum. When 4-day-old animals were infected with 10(5) C. parvum oocysts, parasites were detected in the terminal ileum when the mice became 14-25 days old (10-21 days post-infection [PI]). The percentage of animals positive for parasites was 100% up to the age of 19 days (15 days PI) but decreased immediately thereafter until no parasites were detected in 26-day-old (22 days PI) or older mice. Parasite load also decreased in these animals from 184.7 parasites per high power field in 14-day-old animals (10 days PI) to 0.22 in 25-day-old (21 days PI) mice. In a second study, some neonatal mice became resistant to C. parvum when infection was attempted at day-10 of age (day-15 of age at sacrifice). The susceptibility to C. parvum decreased until 14 days of age (19 days of age at sacrifice) when mice could no longer be infected. Parasite load also decreased in infected mice from 235.6 parasites per high power field (9 days of age at sacrifice) to 0.25 (18 days of age at sacrifice).

In vitro and in vivo investigations of human microsporidia.

Abstract: The numerous infections of microsporidia which have been diagnosed in patients with AIDS have revealed the potential of these organisms for establishing themselves when the immune status of the host is compromised. Two species of Encephalitozoon, E. cuniculi and E. hellem, have been diagnosed in man, the former infecting a variety of tissues, the latter restricted to the corneal and conjunctival epithelia. These species are morphologically indistinguishable even at the ultrastructural level but can be separated biochemically. Two human sera were found to react with equal intensity in the ELISA on spores of E. cuniculi and E. hellem purified from in vitro cultures, and gave similar binding patterns in Western blots on SDS-PAGE protein profiles of the two species. This has raised questions about the identity of Encephalitozoon infections diagnosed previously in man. The diagnosis of Enterocytozoon bieneusi, which infects the intestinal enterocytes of AIDS patients and is associated with chronic diarrhoea, requires observation of smears or sections of biopsies or specialist observation of stool preparations. In vitro cultures, which would facilitate the raising of specific antisera, have proved difficult to establish. In vitro and in vivo systems for assaying drugs for microsporidia have revealed that albendazole has a marked effect on parasite numbers and morphology but does not eliminate infection, which resurges when drug pressure is removed.