Dynamics of fungal colonization in a new medical mycology laboratory

OBJECTIVE OF THE STUDY

Study of the spatio-temporal fungal colonization in a new medical mycology laboratory.

METHODS

A 17-month survey of airborne fungal contamination was conducted in a new medical mycology laboratory at a tertiary care university hospital. This survey was implemented at three different periods: before the new premises were occupied (period A), during the move into the new laboratory (period B) and after resumption of the mycological activities in these new premises (period C).

RESULTS

During period A, the airborne fungal load ranged from 2.3 to 6 cfu/m(3). The most frequently recovered airborne fungi were Penicillium spp. (75 to 100%). During period B, a dramatic increase in Penicillium chrysogenum conidia was observed in the air of the new laboratory (40 to 160 cfu/m(3)). During period C, the fungal load ranged from 4.5 to 8.4 cfu/m(3). Penicillium was the most common genus identified in rooms of the laboratory where no filamentous fungi were handled, while Aspergillus was clearly the predominant genus (78%) in the room dedicated to the culture of filamentous fungi.

CONCLUSIONS

We suggest that the specific fungal ecology in air of the room dedicated to the culture of filamentous fungi is due to the handling of a large number of medical strains of A. fumigatus.

Unexpected modulation of recall B and T cell responses after immunization with rotavirus-like particles in the presence of LT-R192G

LT-R192G, a mutant of the thermolabile enterotoxin of E. coli, is a potent adjuvant of immunization. Immune responses are generally analyzed at the end of protocols including at least 2 administrations, but rarely after a prime. To investigate this point, we compared B and T cell responses in mice after one and two intrarectal immunizations with 2/6 rotavirus-like particles (2/6-VLP) and LT-R192G. After a boost, we found, an unexpected lower B cell expansion measured by flow cytometry, despite a secondary antibody response. We then analyzed CD4(+)CD25(+)Foxp3(+) regulatory T cells (Tregs) and CD4(+)CD25(+)Foxp3(-) helper T cells after in vitro (re)stimulation of mesenteric lymph node cells with the antigen (2/6-VLP), the adjuvant (LT-R192G) or both. 2/6-VLP did not activate CD4(+)CD25(+)Foxp3(-) nor Foxp3(+) T cells from non-immunized and 2/6-VLP immunized mice, whereas they did activate both subsets from mice immunized with 2/6-VLP in the presence of adjuvant. LT-R192G dramatically decreased CD4(+)CD25(+)Foxp3(+) T cells from non-immunized and 2/6-VLP immunized mice but not from mice immunized with 2/6-VLP and adjuvant. Moreover, in this case, LT-R192G increased Foxp3 expression on CD4(+)CD25(+)Foxp3(+) cells, suggesting specific Treg activation during the recall. Finally, when both 2/6-VLP and LT-R192G were used for restimulation, LT-R192G clearly suppressed both 2/6-VLP-specific CD4(+)CD25(+)Foxp3(-) and Foxp3(+) T cells. All together, these results suggest that LT-R192G exerts different effects on CD4(+)CD25(+)Foxp3(+) T cells, depending on a first or a second contact. The unexpected immunomodulation observed during the recall should be considered in designing vaccination protocols.

Profiles and seasonal distribution of airborne fungi in indoor and outdoor environments at a French hospital

A one-year prospective survey of fungal air contamination was conducted in outdoor air and inside two haematological units of a French hospital. Air was sampled with a portable Air System Impactor. During this period of survey, the mean viable fungal load was 122.1 cfu/m(3) in outdoor air samples, and 4.1 and 3.9 cfu/m(3) in samples from adult and pediatric haematology units, respectively. In outdoor samples, Cladosporium was the dominant genus (55%) while in the clinical units, Penicillium sp. (23 to 25%), Aspergillus sp. (15 to 23%) and Bjerkandera adusta (11 to 13%) were the most frequently recovered airborne fungi. The outdoor fungal load was far higher in autumn (168 cfu/m(3)), spring (110 cfu/m(3)) and summer (138 cfu/m(3)) than in winter (49 cfu/m(3)). In indoor air, fungal concentrations were significantly lower in winter (2.7 to 3.1 cfu/m(3)) than in summer (4.2 to 5.0 cfu/m(3)) in both haematology units. In the outdoor environment, Penicillium sp. and Aspergillus sp. were more abundant in winter while the levels of Cladosporium were lowest during this season. In the haematological units, the presence of Aspergillus sp. was stable during the year (close to 20%), Bjerkandera sp. was particularly abundant in winter (close to 30%); levels of Penicillium sp. were highest in autumn while levels of Cladosporium sp. were highest in spring and summer.

A prospective survey of air and surface fungal contamination in a medical mycology laboratory at a tertiary care university hospital

BACKGROUND

Invasive filamentous fungi infections resulting from inhalation of mold conidia pose a major threat in immunocompromised patients. The diagnosis is based on direct smears, cultural symptoms, and culturing fungi. Airborne conidia present in the laboratory environment may cause contamination of cultures, resulting in false-positive diagnosis. Baseline values of fungal contamination in a clinical mycology laboratory have not been determined to date.

METHODS

A 1-year prospective survey of air and surface contamination was conducted in a clinical mycology laboratory during a period when large construction projects were being conducted in the hospital. Air was sampled with a portable air system impactor, and surfaces were sampled with contact Sabouraud agar plates. The collected data allowed the elaboration of Shewhart graphic charts.

RESULTS

Mean fungal loads ranged from 2.27 to 4.36 colony forming units (cfu)/m(3) in air and from 0.61 to 1.69 cfu/plate on surfaces.

CONCLUSIONS

Strict control procedures may limit the level of fungal contamination in a clinical mycology laboratory even in the context of large construction projects at the hospital site. Our data and the resulting Shewhart graphic charts provide baseline values to use when monitoring for inappropriate variations of the fungal contamination in a mycology laboratory as part of a quality assurance program. This is critical to the appropriate management of the fungal risk in hematology, cancer and transplantation patients.

The RNA binding site of S8 ribosomal protein of Escherichia coli: Selex and hydroxyl radical probing studies

The RNA binding site of ribosomal protein S8 of Escherichia coli is confined to a small region within the stem of a hairpin in 16S rRNA (nt 588-605/633-651), and thus represents a model system for understanding RNA/protein interaction rules. The S8 binding site on 16S rRNA was suspected to contain noncanonical features difficult to prove with classical genetical or biochemical means. We performed in vitro iterative selection of RNA aptamers that bind S8. For the different aptamers, the interactions with the protein were probed with hydroxyl radicals. Aptamers that were recognized according to the same structural rules as wild-type RNA, but with variations not found in nature, were identified. These aptamers revealed features in the S8 binding site that had been concealed during previous characterizations by the high base conservation throughout evolution. Our data demonstrate that the core structure of the S8 binding site is composed of three interdependent bases (nt 597/641/643), with an essential intervening adenine nucleotide (position 642). The other elements important for the binding site are a base pair (598/640) above the three interdependent bases and a bulged base at position 595, the identity of which is not important. Possible implications on the geometry of the S8 binding site are discussed with the help of a three-dimensional model.

The 16S rRNA binding site of Thermus thermophilus ribosomal protein S15: comparison with Escherichia coli S15, minimum site and structure

Binding of Escherichia coli and Thermus thermophilus ribosomal proteins S15 to a 16S ribosomal RNA fragment from T. thermophilus (nt 559-753) has been investigated in detail by extensive deletion analysis, filter-binding assays, gel mobility shift, structure probing, footprinting with chemical, enzymatic, and hydroxyl radical probes. Both S15 proteins recognize two distinct sites. The first one maps in the bottom of helix 638-655/717-734 (H22) and in the three-way junction between helix 560-570/737-747 (H20), helix 571-600/606-634 (H21), and H22. The second is located in a conserved purine-rich region in the center of H22. The first site provides a higher contribution to the free energy of binding than the second one, and both are required for efficient binding. A short RNA fragment of 56 nt containing these elements binds S15 with high affinity. The structure of the rRNA is constrained by the three-way junction and requires both magnesium and S15 to be stabilized. A 3D model, derived by computer modeling with the use of experimental data, suggests that the bound form adopts a Y-shaped conformation, with a quasi-coaxial stacking of H22 on H20, and H21 forming an acute angle with H22. In this model, S15 binds to the shallow groove of the RNA on the exterior side of the Y-shaped structure, making contact with the two sites, which are separated by one helix turn.

Imaging of the cytoplasmic leaflet of the plasma membrane by atomic force microscopy

The cytoplasmic face of ventral cell membranes of Madin-Darby canine kidney (MDCK) cells grown on glass coverslips was imaged by atomic force microscopy (AFM) in air and under aqueous medium, in "contact" mode. Micrometer range scans on air-dried samples revealed a heterogeneous structure with some filaments, likely corresponding to actin filaments that abut the inner leaflet of the membrane, and a few semi-organized lattice structures that might correspond to clathrin lattices. Experiments in phosphate-buffered saline confirmed the heterogeneity of the inner membrane surface with the presence of large (> 100 nm) globular structures emerging from the surface. Using sub-micrometer scan ranges, protruding particles, that occupy most of the membrane surface, were imaged in liquid medium and in air. These particles, 8 to 40 nm x-y size, were still present following ethanol dehydration which extracts a large fraction of membrane lipids, indicating their proteic nature. Due, at least partly, to the presence of some peripheral proteins, high magnification images of the inner membrane surface were heterogeneous with regard to particle distribution. These data compare with those previously reported for the external membrane leaflet at the surface of living MDCK cells. They show that details of the cytosolic membrane surface can be resolved by AFM. Finally, the images support the view of a plasma membrane organization where proteins come into close proximity.

Structural elements of rps0 mRNA involved in the modulation of translational initiation and regulation of E. coli ribosomal protein S15

Previous experiments showed that S15 inhibits its own translation by binding to its mRNA in a region overlapping the ribosome loading site. This binding was postulated to stabilize a pseudoknot structure that exists in equilibrium with two stem-loops and to trap the ribosome on its mRNA loading site in a transitory state. In this study, we investigated the effect of mutations in the translational operator on: the binding of protein S15, the formation of the 30S/mRNA/tRNA(fMet) ternary initiation complex, the ability of S15 to inhibit the formation of this ternary complex. The results were compared to in vivo expression and repression rates. The results show that (1) the pseudoknot is required for S15 recognition and translational control; (2) mRNA and 16S rRNA efficiently compete for S15 binding and 16S rRNA suppresses the ability of S15 to inhibit the formation of the active ternary complex; (3) the ribosome binds more efficiently to the pseudoknot than to the stem-loop; (4) sequences located between nucleotides 12 to 47 of the S15 coding phase enhances the efficiency of ribosome binding in vitro; this is correlated with enhanced in vivo expression and regulation rates.

Imaging of the membrane surface of MDCK cells by atomic force microscopy

The membrane surface of polarized renal epithelial cells (MDCK cells) grown as a monolayer was imaged with the atomic force microscope. The surface topography of dried cells determined by this approach was consistent with electron microscopy images previously reported. Fixed and living cells in aqueous medium gave more fuzzy images, likely because of the presence of the cell glycocalix. Treatment of living cells with neuraminidase, an enzyme that partly degrades the glycocalix, allowed sub-micrometer imaging. Protruding particles, 10 to 60 nm xy size, occupy most of the membrane surface. Protease treatment markedly reduced the size of these particles, indicating that they corresponded to proteins. Tip structure effects were probably involved in the exaggerated size of imaged membrane proteins. Although further improvements in the imaging conditions, including tip sharpness, are required, atomic force microscope already offers the unique possibility to image proteins at the membrane surface of living cells.

Minimal 16S rRNA binding site and role of conserved nucleotides in Escherichia coli ribosomal protein S8 recognition

Escherichia coli ribosomal protein S8 was previously shown to bind a 16S rRNA fragment (nucleotides 584-756) with the same affinity as the complete 16S rRNA, and to shield an irregular helical region (region C) [Mougel, M., Eyermann, F., Westhof, E., Romby, P., Expert-Bezançon, Ebel, J. P., Ehresmann, B. & Ehresmann, C. (1987). J. Mol. Biol. 198, 91-107]. Region C was postulated to display characteristic features: three bulged adenines (A595, A640 and A642), a non-canonical U598-U641 pair surrounded by two G.C pairs. In order to delineate the minimal RNA binding site, deletions were introduced by site-directed mutagenesis and short RNA fragments were synthesized. Their ability to bind S8 was assayed by filter binding. Our results show that the RNA binding site can be restricted to a short helical stem (588-605/633-651) containing region C. The second part of the work focused on region C and on the role of conserved nucleotides as potential determinants of S8 recognition. Single and double mutations were introduced by site-directed mutagenesis in fragment 584-756, and their effect on S8 binding was measured. It was found that the three bulged positions are essential and that adenines are required at positions 640 and 642. U598 is also crucial and the highly conserved G597.C643 pair cannot be inverted. These conserved nucleotides are either directly involved in the recognition process as direct contacts or required to maintain a specific conformation. The strong evolutionary pressure and the small number of positive mutants stress the high stringency of the recognition process.

Non-linear least-squares methods applied to the analysis of fluorescence energy transfer measurements

We describe a new method for calculating the efficiency of fluorescence energy transfer on labeled macromolecules using steady-state measurements. A single estimation of the efficiency value is obtained by a global analysis of all the measurement data sets (absorption, emission and excitation spectra) using non-linear least-squares. The method was tested on simulated and experimental data obtained from three simple model compounds: an equimolar mixture of tryptophan-tyrosine and two peptides, Trp-Tyr and Trp-Gly-Gly-Tyr, in which transfer efficiencies are respectively nearly 100% and 50%. The method was found to be reliable and provides methodological and quantitative advantages in regard to the sequential methods currently used.

Images of 16S ribosomal RNA by scanning tunnelling microscopy

We report the use of scanning tunnelling microscopy (STM) to study surface topographies of complex nucleic acid structures. From low-resolution STM images of uncoated 16S ribosomal RNA, we demonstrate the possibility of determining several objective parameters (molecular mass and radius of gyration) in order to characterize and identify the molecules observed. These parameters were compared with values obtained by other physical methods and the radius of gyration was found to be the most reliable. At high resolution, it was possible to measure the main dimensions of selected V-form particles more precisely than with electron microscopy. Images of the more compact form have been also obtained that show different domains in the macromolecular structure.

Scanning tunnelling microscopy of 16S ribosomal RNA in water

The scanning tunnelling microscope has been used to image 16S ribosomal RNA molecules in water electrophoretically deposited on graphite surface. Two kinds of images have been obtained: images showing aggregates of 16S ribosomal RNA molecules similar to those obtained from DNA solutions and others showing individual 16S ribosomal RNA molecules. An interesting characteristic of these images, recorded in constant current mode, is that the 16S ribosomal RNA molecules appear to be located below the graphite surface. The morphology and several structural parameters of the molecules were consistent with the data obtained from electron microscopy.

Fast preparative separation of 'native' core E coli 30S ribosomal proteins

We have developed an ion-exchange high performance liquid chromatographic method for preparative separation of 'core' proteins from E coli 30S ribosomal subunits, extracted with salt under non-denaturing conditions. This method yields individual proteins in pure and native form at high concentrations, (5 to 25 mg/ml) suitable for direct use in 1D-, 2D- or 3D-NMR studies.

Purification of E. coli 30S ribosomal proteins by high-performance liquid chromatography under non-denaturing conditions

High-performance ion-exchange chromatography was applied to the separation of proteins from the 30S ribosomal subunit under non-denaturing conditions. It was shown that a single chromatographic step only allows the purification of nine proteins. To increase the number of separated proteins, a prefractionation step was added that depends on the physical characteristics of the proteins to be purified. Sixteen out of 21 proteins could be purified by using prefractionation (gel permeation and lithium chloride salt washing). This method is well suited to preparing fresh samples on demand for optical studies owing to the simplicity of the buffers used and the amounts of proteins recovered in the eluted peaks (0.05-0.1 mg/ml).