Visualizing nuclei in skin cryosections: viable options to 4'6-diamidino-2-phenylindol for confocal laser microscopy.

BACKGROUND: Visualization of nuclei in skin (cryo-) sections is essential for both, rapid overview and reliable orientation within skin samples. Therefore, nuclear staining is a very common counterstain for immunohistochemical studies of human skin as this nuclear staining precisely depicts the cellular distribution within the epidermis. Moreover, it clearly shows the epidermal-dermal border as well as the transition zone between the living and the cornified layers of the epidermis. For standard epifluorescence microscopy, 4'6-diamidino-2-phenylindol (DAPI) is commonly used. For confocal laser scanning microscopy (CLSM), however, DAPI is often not suitable because its excitation maximum is in the ultraviolet (UV) range (Ex(max) 359 nm) when bound to DNA, and UV lasers and the corresponding optics are not part of CLSM standard configuration. METHODS: In order to find an adequate DAPI substitute that is excitable with standard visible light lasers, the following nuclear stains were tested: LOLOt-1 iodide (Ex(max) 565 nm), TOTO s -3 iodide (Ex(max) 642 nm), LO-PROt-1 iodide (Ex(max) 567 nm), SYTO s 84 (Ex(max) 567 nm), SYTO s 85 (Ex(max) 567 nm), SYTOX s Green (Ex(max) 488 nm) and SYTOX s Orange (Ex(max) 547 nm), Propidium iodide (Ex(max) 535 nm). Besides optimal concentration and incubation time, following criteria were also evaluated: photobleaching, background, e.g. cytoplasmic staining of RNA, and sensitivity to different fixation conditions (unfixed, IEM fixation, PLP fixation and PFA fixation). RESULTS: According to these criteria Sytox s Green showed the best overall staining score and can be used for variously fixed skin samples and shows a distinct and stable green nuclear fluorescence.

Pros and cons: cryo-electron microscopic evaluation of block faces versus cryo-sections from frozen-hydrated skin specimens prepared by different techniques.

Over the last two decades, several different preparative techniques have been developed to investigate frozen-hydrated biological samples by electron microscopy. In this article, we describe an alternative approach that allows either ultrastructural investigations of frozen human skin at a resolution better than 15 nm or sample throughput that is sufficiently high enough for quantitative morphological analysis. The specimen preparation method we describe is fast, reproducible, does not require much user experience or elaborate equipment. We compare high-pressure freezing with plunge freezing, and block faces with frozen-hydrated slices (sections), to study variations in cell thickness upon hydration changes. Plunge freezing is optimal for morphological and stereological investigations of structures with low water content. By contrast, high-pressure freezing proved optimal for high-resolution studies and provided the best ultrastructural preservation. A combination of these fast-freezing techniques with cryo-ultramicrotomy yielded well-preserved block faces of the original biological material. Here we show that these block faces did not exhibit any of the artefacts normally associated with cryo-sections, and--after evaporating a heavy metal and carbon onto the surface--are stable enough in the electron beam to provide high-resolution images of large surface areas for statistical analysis in a cryo-SEM (scanning electron microscope). Because the individual preparation steps use only standard equipment and do not require much experience from the experimenter, they are generally more usable, making this approach an interesting alternative to other methods for the ultrastructural investigation of frozen-hydrated material.

A short history of sweat gland biology.

The axilla, especially its microflora and axillary sweat glands as well as their secretions, is the main target of cosmetic compositions such as deodorants or antiperspirants. There are three types of sweat glands present in the axillary skin, namely apocrine, eccrine and apoeccrine sweat glands. Here, we provide an overview of the morphological, structural and functional characteristics of the different gland types and present techniques that allow their clear distinction. Moreover, we describe different forms of perspiration as physical reactions to external and internal stimuli.

Are sweat glands an alternate penetration pathway? Understanding the morphological complexity of the axillary sweat gland apparatus.

To build an effective barrier against the penetration of extrinsic agents is one of the skin's main functions. The barrier properties of the stratum corneum and the epidermis have been subject to extensive studies in the past while the role of skin appendages as possible pathways of penetration are only rarely described. In order to study the possible penetration barriers in these complex appendages, a careful investigation of their morphology and ultrastructure has to be done. Studying the morphology of axillary skin appendages requires clear-cut criteria for the differentiation between eccrine, apocrine and apoeccrine glands. Therefore we studied the distribution of proteins described to be specific for either eccrine or apocrine glands (CD15, CD44, S-100 and milk fat globulin) on axillary skin samples from healthy young adults by immunofluorescence. Additionally, we examined the distribution of cytoskeletal proteins such as cytokeratins (1/10/11, 14, 18) and F-actin. For a more detailed understanding of the possible versatile barrier elements of the axillary sweat glands, we studied the distribution of tight-junction-associated proteins (occludin, claudin 1, claudin 4). The coils and the dermal duct may provide an active barrier built of tight junctions as occludin and claudin 4 are co-localized. However, the intra-epidermal duct did not show any co-localization of the investigated proteins. By combining morphological features as revealed by F-actin staining and the distribution of the above-mentioned proteins, immunocytochemical typing of eccrine and apocrine glands becomes possible. With this tool, we could also confirm the existence of apoeccrine glands and locate them in their 'natural environment'.

Influence of cleansing on stratum corneum tryptic enzyme in human skin.

Desquamation in human skin is a well-balanced process of de novo production of corneocytes and their shedding from the skin surface. The proteolysis of corneodesmosomes is an important step in the final desquamation process. In the degradation of these adhesion molecules, the stratum corneum tryptic enzyme (SCTE) plays a key role. In initial studies with extracts of porcine epidermis, SCTE was shown to be inactivated by low concentrations of sodium lauryl ether sulphate (SLES). These in vitro findings were supported by in situ results obtained by measuring the release of fluorescent dyes coupled to trypsin-specific substrates incubated on human skin cross-sections. Moreover, in further studies, it could be demonstrated that the SCTE activity in the human horny layer decreases after in vivo application of cleansing products containing SLES. After repeated washing of human volunteers with tap water, a standard market cleansing product (SLES/betaine system) or a new improved cleansing product (SLES/betaine/disodium cocoyl glutamate system), the specific SCTE activity was determined in extracts from the uppermost layers of the stratum corneum. It could be shown that after application of the new formula the remaining SCTE activity was significantly higher than after use of the standard market formula. This ex vivo approach has proven to be very helpful for measuring surfactant effects on human skin enzymes. Using this assay, we developed an improved shower gel formula, which leads to a significantly higher skin enzyme activity after application, compared to a standard market formula.

From tissue to cellular ultrastructure: closing the gap between micro- and nanostructural imaging.

Structural investigation of tissue biopsies requires the coupling of optimal structural sample preservation with detailed information collected at the light and electron microscopic level. Unfortunately, although cryo-immobilization by high-pressure freezing provides the best structural preservation, it is used routinely only for electron microscopic (EM) investigations, whereas for light microscopy chemical fixation protocols have been established. These chemically invasive fixation protocols have the drawback of introducing unpredictable fixation artefacts. Therefore, comparative histopathological (i.e. light microscopic) and ultrastructural (i.e. EM) results are usually obtained from parallel samples that have not been prepared identically and never by examining exactly the same features in exactly the same, optimally preserved sample. Finally, finding an area of interest for EM investigation within a complex tissue is like searching for a needle in a haystack. To overcome these handicaps, we modified the well-established freeze-substitution technique (FS) to allow us to investigate resin-embedded cryo-immobilized tissue by confocal laser scanning microscopy (CLSM) prior to EM examination. Thus (1) selected cells throughout the whole tissue block can be depicted by CLSM and subsequently (2) selectively prepared by targeted sectioning for follow-up investigation of the identical structure by transmission electron microscopy. This is facilitated by the addition of specific fluorescent dyes during the first FS exchange step. Selective binding properties of various dyes to different cellular structures allow a direct histological description of the tissue at the light microscope level. After embedding and preparation of a blockface, the specimen can first be examined by CLSM. For areas of interest, the depth in the resin block is determined followed by removal of the tissue lying above. Then, the cell layer can be cut into a series of ultrathin sections and examined by EM for determination of the subcellular and nanostructural organization.

Comparison of six different commercial IgG-ELISA kits for the detection of TBEV-antibodies.

BACKGROUND: Tick-borne encephalitis virus (TBEV) is a pathogenic human flavivirus endemic in some parts of Europe and Asia. Commercial enzyme immunoassays (EIA) for the detection of IgG antibodies are often used in TBEV-seroprevalence studies, as well as for the confirmation of a successful vaccination against TBEV. However, the detection of TBEV-specific antibodies can be biased by the cross-reactivity between different flavivirus genera. OBJECTIVES: To compare different EIA test systems for the detection of TBEV-IgG antibodies. STUDY DESIGN: Six commercial EIA kits for the detection of TBEV-specific antibodies are compared, using serum panels (n=139) of subjects with a documented clinical history (109 sera from TBEV infected patients, 30 sera from people vaccinated against TBEV). For the analysis of possible cross-reactivities, 24 sera from yellow fever vaccinated people and 13 sera positive for Dengue virus-specific antibodies were also included. RESULTS: The sensitivity of the different TBEV test systems ranges from 73 to 99%. However, when testing the yellow fever and Dengue virus positive specimens, problems with the flavivirus cross- reactivity become obvious, resulting in specificities between 14 and 81%. CONCLUSIONS: This study shows the necessity of further improvement of the existing TBEV test systems regarding both sensitivity and specificity.

Rapid quantification and differentiation of human polyomavirus DNA in undiluted urine from patients after bone marrow transplantation.

A combined PCR assay was developed for the detection and typing of human polyomavirus (huPoV) in clinical samples, consisting of (i) a qualitative seminested PCR assay (snPCR) to discriminate between huPoV BK and JC and (ii) a high-throughput, quantitative TaqMan PCR assay (TM-PCR) for the general detection of huPoV. The TM-PCR detects huPoV DNA in a linear range from 10(7) to 10(1) copies per assay. In reproducibility runs, the inter- and intra-assay variabilities were < or =60 and < or =50%, respectively. The snPCR assay uses a set of four primers for the same region of the BK and JC viral genomes. In the first round of amplification, two general primers were used; in the second round, one of these general primers and two additional, BK- or JC-specific primers were used simultaneously to produce amplicons of different sizes specific for BK virus (246 bp) and JC virus (199 bp), respectively. We tested different urine dilutions in order to determine the inhibitory effects of urine on PCR amplification. Furthermore, we compared the use of native urine with DNA purified by different preparation procedures. Our results show, that a 1:10 dilution of the urine led to complete reduction of the amplification inhibition found with 6% of undiluted urine samples. In a clinical study including 600 urine specimens, our assay turned out to be fast, cheap, and reliable in both qualitative and quantitative aspects.

Treatment of BK virus-associated hemorrhagic cystitis and simultaneous CMV reactivation with cidofovir.

Hemorrhagic cystitis (HC) is a common complication following high-dose chemotherapy and bone marrow transplantation, and the treatment of virus-associated HC remains to be optimized. This is the first report on the successful use of cidofovir in a patient with HC and polyoma viruria concomitant with CMV reactivation after allogeneic BMT. Treatment led to a significant decrease in viruria and to sustained suppression of CMV reactivation. Administered with probenecid and hydration, cidofovir was well tolerated, and there were no side-effects.

Diagnostic electron microscopy is still a timely and rewarding method.

BACKGROUND: Parallel to its technical development starting in the 1930s, electron microscopy (EM) became an important tool in basic and clinical virology. First utilized in the rapid diagnosis of smallpox, it developed to a diagnostic routine in the early 1960s using the negative staining technique. EM was applied to infected cell-cultures and also to 'dirty' specimens including urine, feces, vesicle fluid, liquor. With the implementation of molecular biological and genetic techniques, the use of diagnostic EM decreased. OBJECTIVES: (1) To give a perspective on future indications and possible uses by discussing the past and the present of diagnostic EM, (2) To describe the system of External Quality Assessment on EM virus diagnosis (EQA-EMV) established in 1994 by our laboratory and its achievements. STUDY DESIGN: EQA-EMV is run to evaluate, to confirm and to improve the quality of diagnostic EM. Two different types of specimen are sent out: (1) prepared grids to assess and train the diagnostic skills of the participants, (2) stabilized virus particle suspensions to assess preparation efficiency. RESULTS: Diagnostic EM differs from other diagnostic tests in its rapidity and its undirected 'open view'. To emphasize these advantages, the indications for diagnostic EM are discussed, fundamental for a continuing future adaptation. Besides appropriate techniques, quality control measures are required to achieve and keep high diagnostic standards. The results from 6 years of EQA-EMV are presented. CONCLUSIONS: In the history of diagnostic EM in virology, a change in use has been seen. Starting in the 1990s and coincident with the broad introduction of 'modern' diagnostic techniques, the number of EM diagnostic labs has decreased considerably--in spite of the obvious advantages of this technique. To guarantee the continuing performance of diagnostic EM in the future. EQA runs have to be performed as with other techniques in the diagnostic armament. The growing number of participants and participating countries indicates an interest in as well as a need for this program.

HBV core particles allow the insertion and surface exposure of the entire potentially protective region of Puumala hantavirus nucleocapsid protein.

Core particles of the hepatitis B virus (HBV) potentiate the immune response against foreign epitopes presented on their surface. Potential insertion sites in the monomeric subunit of the HBV core protein were previously identified at the N- and C-terminus and in the immunodominant c/e1 region. In a C-terminally truncated core protein these sites were used to introduce the entire 120 amino acid (aa)-long potentially immunoprotective region of the hantavirus (serotype Puumala) nucleocapsid protein. The N- and C-terminal fusion products were unable to form core-like particles in detectable amounts. However, a suppressable stop codon located between the HBV core and the C-terminally fused hantavirus sequence restored the ability to form particles ('mosaic particles'); in contrast to the C-terminal fusion product the mosaic construct allowed the formation of particles built up by the core protein itself and the HBV core-Puumala nucleocapsid-readthrough protein. The mosaic particles exposed the 120 aa region of the PUU nucleocapsid protein on their surface as demonstrated by ELISA and immuno electron microscopy applying different monoclonal antibodies. Insertion of the hantaviral sequence into the c/e1 region not only allowed the formation of chimeric particles, but again the surface accessibility of the sequence. HBV core antigenicity itself was, however, reduced in the particles carrying insertions in the c/e1 region, probably due to a masking effect of the 120 aa long insert.

Bacteriophage diversity in the North Sea.

In recent years interest in bacteriophages in aquatic environments has increased. Electron microscopy studies have revealed high numbers of phage particles (10(4) to 10(7) particles per ml) in the marine environment. However, the ecological role of these bacteriophages is still unknown, and the role of the phages in the control of bacterioplankton by lysis and the potential for gene transfer are disputed. Even the basic questions of the genetic relationships of the phages and the diversity of phage-host systems in aquatic environments have not been answered. We investigated the diversity of 22 phage-host systems after 85 phages were collected at one station near a German island, Helgoland, located in the North Sea. The relationships among the phages were determined by electron microscopy, DNA-DNA hybridization, and host range studies. On the basis of morphology, 11 phages were assigned to the virus family Myoviridae, 7 phages were assigned to the family Siphoviridae, and 4 phages were assigned to the family Podoviridae. DNA-DNA hybridization confirmed that there was no DNA homology between phages belonging to different families. We found that the 22 marine bacteriophages belonged to 13 different species. The host bacteria were differentiated by morphological and physiological tests and by 16S ribosomal DNA sequencing. All of the bacteria were gram negative, facultatively anaerobic, motile, and coccoid. The 16S rRNA sequences of the bacteria exhibited high levels of similarity (98 to 99%) with the sequences of organisms belonging to the genus Pseudoalteromonas, which belongs to the gamma subdivision of the class Proteobacteria.

[Expedition, experiment and expertise reflected in Robert Koch's assets]. / Expedition, Experiment und Expertise im Spiegel des Nachlasses von Robert Koch.

Basic techniques in bacteriology provided the foundation for the success of experimental medicine. The combination of laboratory experiments and field studies consolidated bacteriology as a paradigm for the development of preventive strategies. Robert Koch's (1843-1910) contribution to this development is crucial in that he integrated the technical facilities of his era into microbiological research. The present study introduces various sources of Koch's assets which, in addition to manuscripts and letters, include also bacteriological slides and photographs. These relicts allow to reconstruct an example of the scientific process as a whole, to investigate his style and purpose as a scientist, and to follow Koch's strategy of visualisation with contemporary technical equipment. The example chosen is Koch's last expedition when the German government sent him to investigate the spreading of sleeping-sickness in Eastern Africa and to test "Atoxyl" as a specific remedy. Most case-studies and laboratory-research took place on the Sese-Islands in Lake Victoria and illustrate the extreme conditions in tropical Africa. The experiments searching for the etiological agent of sleeping-sickness--a typical disease only for central Africa--involved bacteriological slides which were to be the basis for further experimental results and the expertise expected of him.