Your search keyword '"Petrich, Annett"' showing total 16 results

1. Mandipropamid as a chemical inducer of proximity for in vivo applications

Author

Ziegler, Michael J., Yserentant, Klaus, Dunsing, Valentin, Middel, Volker, Gralak, Antoni J., Pakari, Kaisa, Bargstedt, Jörn, Kern, Christoph, Petrich, Annett, Chiantia, Salvatore, Strähle, Uwe, Herten, Dirk-Peter, and Wombacher, Richard

Published

2022

2. Influenza A M2 recruits M1 to the plasma membrane: A fluorescence fluctuation microscopy study

Author

Petrich, Annett, Dunsing, Valentin, Bobone, Sara, and Chiantia, Salvatore

Published

2021

3. Expanding Insights: Harnessing Expansion Microscopy for Super-Resolution Analysis of HIV-1–Cell Interactions.

Author

Petrich, Annett, Hwang, Gyu Min, La Rocca, Laetitia, Hassan, Mariam, Anders-Össwein, Maria, Sonntag-Buck, Vera, Heuser, Anke-Mareil, Laketa, Vibor, Müller, Barbara, Kräusslich, Hans-Georg, and Klaus, Severina

Subjects

*EXPANSION microscopy, *LIFE cycles (Biology), *MORPHOLOGY, *CELL nuclei, *HIV

Abstract

Expansion microscopy has recently emerged as an alternative technique for achieving high-resolution imaging of biological structures. Improvements in resolution are achieved by physically expanding samples through embedding in a swellable hydrogel before microscopy. However, expansion microscopy has been rarely used in the field of virology. Here, we evaluate and characterize the ultrastructure expansion microscopy (U-ExM) protocol, which facilitates approximately four-fold sample expansion, enabling the visualization of different post-entry stages of the HIV-1 life cycle, focusing on nuclear events. Our findings demonstrate that U-ExM provides robust sample expansion and preservation across different cell types, including cell-culture-adapted and primary CD4+ T-cells as well as monocyte-derived macrophages, which are known HIV-1 reservoirs. Notably, cellular targets such as nuclear bodies and the chromatin landscape remain well preserved after expansion, allowing for detailed investigation of HIV-1–cell interactions at high resolution. Our data indicate that morphologically distinct HIV-1 capsid assemblies can be differentiated within the nuclei of infected cells and that U-ExM enables detection of targets that are masked in commonly used immunofluorescence protocols. In conclusion, we advocate for U-ExM as a valuable new tool for studying virus–host interactions with enhanced spatial resolution. [ABSTRACT FROM AUTHOR]

Published

2024

4. Distribution and phylogeny of Brachyspira spp. in human intestinal spirochetosis revealed by FISH and 16S rRNA-gene analysis

Author

Rojas, Pablo, Petrich, Annett, Schulze, Julia, Wiessner, Alexandra, Loddenkemper, Christoph, Epple, Hans-Jörg, Sterlacci, William, Vieth, Michael, Kikhney, Judith, and Moter, Annette

Published

2017

5. Fluorescence in situ hybridization for the identification of Treponema pallidum in tissue sections

Author

Petrich, Annett, Rojas, Pablo, Schulze, Julia, Loddenkemper, Christoph, Giacani, Lorenzo, Schneider, Thomas, Hertel, Moritz, Kikhney, Judith, and Moter, Annette

Published

2015

6. Influenza A Virus Infection Alters Lipid Packing and Surface Electrostatic Potential of the Host Plasma Membrane.

Author

Petrich, Annett and Chiantia, Salvatore

Subjects

*CELL membranes, *VIRUS diseases, *INFLUENZA A virus, *ELECTRIC potential, *SURFACE potential

Abstract

The pathogenesis of influenza A viruses (IAVs) is influenced by several factors, including IAV strain origin and reassortment, tissue tropism and host type. While such factors were mostly investigated in the context of virus entry, fusion and replication, little is known about the viral-induced changes to the host lipid membranes which might be relevant in the context of virion assembly. In this work, we applied several biophysical fluorescence microscope techniques (i.e., Förster energy resonance transfer, generalized polarization imaging and scanning fluorescence correlation spectroscopy) to quantify the effect of infection by two IAV strains of different origin on the plasma membrane (PM) of avian and human cell lines. We found that IAV infection affects the membrane charge of the inner leaflet of the PM. Moreover, we showed that IAV infection impacts lipid–lipid interactions by decreasing membrane fluidity and increasing lipid packing. Because of such alterations, diffusive dynamics of membrane-associated proteins are hindered. Taken together, our results indicate that the infection of avian and human cell lines with IAV strains of different origins had similar effects on the biophysical properties of the PM. [ABSTRACT FROM AUTHOR]

Published

2023

7. Benchmarking of novel green fluorescent proteins for the quantification of protein oligomerization in living cells.

Author

Petrich, Annett, Aji, Amit Koikkarah, Dunsing, Valentin, and Chiantia, Salvatore

Subjects

*FLUORESCENT proteins, *STEREOLOGY, *CELL imaging, *FLUORESCENCE spectroscopy, *OLIGOMERIZATION, *FLUORESCENCE microscopy, *GREEN fluorescent protein

Abstract

Protein-protein-interactions play an important role in many cellular functions. Quantitative non-invasive techniques are applied in living cells to evaluate such interactions, thereby providing a broader understanding of complex biological processes. Fluorescence fluctuation spectroscopy describes a group of quantitative microscopy approaches for the characterization of molecular interactions at single cell resolution. Through the obtained molecular brightness, it is possible to determine the oligomeric state of proteins. This is usually achieved by fusing fluorescent proteins (FPs) to the protein of interest. Recently, the number of novel green FPs has increased, with consequent improvements to the quality of fluctuation-based measurements. The photophysical behavior of FPs is influenced by multiple factors (including photobleaching, protonation-induced "blinking" and long-lived dark states). Assessing these factors is critical for selecting the appropriate fluorescent tag for live cell imaging applications. In this work, we focus on novel green FPs that are extensively used in live cell imaging. A systematic performance comparison of several green FPs in living cells under different pH conditions using Number & Brightness (N&B) analysis and scanning fluorescence correlation spectroscopy was performed. Our results show that the new FP Gamillus exhibits higher brightness at the cost of lower photostability and fluorescence probability (pf), especially at lower pH. mGreenLantern, on the other hand, thanks to a very high pf, is best suited for multimerization quantification at neutral pH. At lower pH, mEGFP remains apparently the best choice for multimerization investigation. These guidelines provide the information needed to plan quantitative fluorescence microscopy involving these FPs, both for general imaging or for protein-protein-interactions quantification via fluorescence fluctuation-based methods. [ABSTRACT FROM AUTHOR]

Published

2023

8. Molecular epidemiology and spatial distribution of Selenomonas spp. in subgingival biofilms

Author

Drescher, Julia, Riep, Birgit, Neumann, Konrad, Friedmann, Anton, Petrich, Annett, Göbel, Ulf B., and Moter, Annette

Published

2010

9. Multicolor fluorescence fluctuation spectroscopy in living cells via spectral detection.

Author

Dunsing, Valentin, Petrich, Annett, and Chiantia, Salvatore

Subjects

*CELL membranes, *CELLULAR signal transduction, *EXTRACELLULAR matrix proteins, *CELL nuclei, *BIOLOGICAL systems, *FLUORESCENCE spectroscopy

Abstract

Signaling pathways in biological systems rely on specific interactions between multiple biomolecules. Fluorescence fluctuation spectroscopy provides a powerful toolbox to quantify such interactions directly in living cells. Cross-correlation analysis of spectrally separated fluctuations provides information about intermolecular interactions but is usually limited to two fluorophore species. Here, we present scanning fluorescence spectral correlation spectroscopy (SFSCS), a versatile approach that can be implemented on commercial confocal microscopes, allowing the investigation of interactions between multiple protein species at the plasma membrane. We demonstrate that SFSCS enables cross-talk-free cross-correlation, diffusion, and oligomerization analysis of up to four protein species labeled with strongly overlapping fluorophores. As an example, we investigate the interactions of influenza A virus (IAV) matrix protein 2 with two cellular host factors simultaneously. We furthermore apply raster spectral image correlation spectroscopy for the simultaneous analysis of up to four species and determine the stoichiometry of ternary IAV polymerase complexes in the cell nucleus. [ABSTRACT FROM AUTHOR]

Published

2021

10. Filifactor alocis - involvement in periodontal biofilms

Author

Göbel Ulf B, Friedmann Anton, Berning Moritz, Hübner Julia, Petrich Annett, Griffen Ann L, Riep Birgit, Schlafer Sebastian, and Moter Annette

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Bacteria in periodontal pockets develop complex sessile communities that attach to the tooth surface. These highly dynamic microfloral environments challenge both clinicians and researchers alike. The exploration of structural organisation and bacterial interactions within these biofilms is critically important for a thorough understanding of periodontal disease. In recent years, Filifactor alocis, a fastidious, Gram-positive, obligately anaerobic rod was repeatedly identified in periodontal lesions using DNA-based methods. It has been suggested to be a marker for periodontal deterioration. The present study investigated the epidemiology of F. alocis in periodontal pockets and analysed the spatial arrangement and architectural role of the organism in in vivo grown subgingival biofilms. Results A species-specific oligonucleotide probe, FIAL, was designed and evaluated. A total of 490 subgingival plaque samples were submitted to PCR and subsequent dot blot hybridization to compare the prevalence of F. alocis in patients suffering from generalized aggressive periodontitis (GAP), chronic periodontitis (CP), and control subjects resistant to periodontitis. Moreover, a specially designed carrier system was used to collect in vivo grown subgingival biofilms from GAP patients. Subsequent topographic analysis was performed using fluorescence in situ hybridization. While the majority of patients suffering from GAP or CP harboured F. alocis, it was rarely detected in the control group. In the examined carrier-borne biofilms the organism predominantly colonized apical parts of the pocket in close proximity to the soft tissues and was involved in numerous structures that constitute characteristic architectural features of subgingival periodontal biofilms. Conclusions F. alocis is likely to make a relevant contribution to the pathogenetic structure of biofilms accounting for periodontal inflammation and can be considered an excellent marker organism for periodontal disease.

Published

2010

11. Aerococcus urinae – A potent biofilm builder in endocarditis.

Author

Yaban, Berrin, Kikhney, Judith, Musci, Michele, Petrich, Annett, Schmidt, Julia, Hajduczenia, Maria, Schoenrath, Felix, Falk, Volkmar, and Moter, Annette

Subjects

URINARY tract infections, FLUORESCENCE in situ hybridization, INFECTIVE endocarditis, HEART valves, ENDANGERED species, ANAEROBIC bacteria, AEROMONAS hydrophila

Abstract

The diagnosis of infective endocarditis (IE) remains a challenge. One of the rare bacterial species recently associated with biofilms and negative cultures in infective endocarditis is Aerococcus urinae. Whether the low number of reported cases might be due to lack of awareness and misidentification, mainly as streptococci, is currently being discussed. To verify the relevance and biofilm potential of Aerococcus in endocarditis, we used fluorescence in situ hybridization to visualize the microorganisms within the heart valve tissue. We designed and optimized a specific FISH probe (AURI) for in situ visualization and identification of A. urinae in sections of heart valves from two IE patients whose 16S rRNA gene sequencing had deteced A. urinae. Both patients had a history of urinary tract infections. FISH visualized impressive in vivo grown biofilms in IE, thus confirming the potential of A. urinae as a biofilm pathogen. In both cases, FISH/PCR was the only method to unequivocally identify A. urinae as the only causative pathogen for IE. The specific FISH assay for A. urinae is now available for further application in research and diagnostics. A. urinae should be considered in endocarditis patients with a history of urinary tract infections. These findings support the biofilm potential of A. urinae as a virulence factor and are meant to raise the awareness of this pathogen. [ABSTRACT FROM AUTHOR]

Published

2020

12. Co-Localized or Randomly Distributed? Pair Cross Correlation of In Vivo Grown Subgingival Biofilm Bacteria Quantified by Digital Image Analysis.

Author

Schillinger, Claudia, Petrich, Annett, Lux, Renate, Riep, Birgit, Kikhney, Judith, Friedmann, Anton, Wolinsky, Lawrence E., Göbel, Ulf B., Daims, Holger, and Moter, Annette

Subjects

*DENTAL plaque, *PATHOGENIC microorganisms, *DIGITAL images, *IMAGE analysis, *BACTERIA, *BIOFILMS

Abstract

The polymicrobial nature of periodontal diseases is reflected by the diversity of phylotypes detected in subgingival plaque and the finding that consortia of suspected pathogens rather than single species are associated with disease development. A number of these microorganisms have been demonstrated in vitro to interact and enhance biofilm integration, survival or even pathogenic features. To examine the in vivo relevance of these proposed interactions, we extended the spatial arrangement analysis tool of the software daime (digital image analysis in microbial ecology). This modification enabled the quantitative analysis of microbial co-localization in images of subgingival biofilm species, where the biomass was confined to fractions of the whole-image area, a situation common for medical samples. Selected representatives of the diseaseassociated red and orange complexes that were previously suggested to interact with each other in vitro (Tannerella forsythia with Fusobacterium nucleatum and Porphyromonas gingivalis with Prevotella intermedia) were chosen for analysis and labeled with specific fluorescent probes via fluorescence in situ hybridization. Pair cross-correlation analysis of in vivo grown biofilms revealed tight clustering of F. nucleatum/periodonticum and T. forsythia at short distances (up to 6 μm) with a pronounced peak at 1.5 μm. While these results confirmed previous in vitro observations for F. nucleatum and T. forsythia, random spatial distribution was detected between P. gingivalis and P. intermedia in the in vivo samples. In conclusion, we successfully employed spatial arrangement analysis on the single cell level in clinically relevant medical samples and demonstrated the utility of this approach for the in vivo validation of in vitro observations by analyzing statistically relevant numbers of different patients. More importantly, the culture-independent nature of this approach enables similar quantitative analyses for "as-yet-uncultured" phylotypes which cannot be characterized in vitro. [ABSTRACT FROM AUTHOR]

Published

2012

13. Filifactor alocis - involvement in periodontal biofilms.

Author

Schlafer, Sebastian, Riep, Birgit, Griffen, Ann L., Petrich, Annett, Hübner, Julia, Berning, Moritz, Friedmann, Anton, Göbel, Ulf B., and Moter, Annette

Subjects

BACTERIA, BIOFILMS, ANAEROBIC bacteria, IN situ hybridization, PATHOGENIC bacteria

Abstract

Background: Bacteria in periodontal pockets develop complex sessile communities that attach to the tooth surface. These highly dynamic microfloral environments challenge both clinicians and researchers alike. The exploration of structural organisation and bacterial interactions within these biofilms is critically important for a thorough understanding of periodontal disease. In recent years, Filifactor alocis, a fastidious, Gram-positive, obligately anaerobic rod was repeatedly identified in periodontal lesions using DNA-based methods. It has been suggested to be a marker for periodontal deterioration. The present study investigated the epidemiology of F. alocis in periodontal pockets and analysed the spatial arrangement and architectural role of the organism in in vivo grown subgingival biofilms. Results: A species-specific oligonucleotide probe, FIAL, was designed and evaluated. A total of 490 subgingival plaque samples were submitted to PCR and subsequent dot blot hybridization to compare the prevalence of F. alocis in patients suffering from generalized aggressive periodontitis (GAP), chronic periodontitis (CP), and control subjects resistant to periodontitis. Moreover, a specially designed carrier system was used to collect in vivo grown subgingival biofilms from GAP patients. Subsequent topographic analysis was performed using fluorescence in situ hybridization. While the majority of patients suffering from GAP or CP harboured F. alocis, it was rarely detected in the control group. In the examined carrier-borne biofilms the organism predominantly colonized apical parts of the pocket in close proximity to the soft tissues and was involved in numerous structures that constitute characteristic architectural features of subgingival periodontal biofilms. Conclusions: F. alocis is likely to make a relevant contribution to the pathogenetic structure of biofilms accounting for periodontal inflammation and can be considered an excellent marker organism for periodontal disease. [ABSTRACT FROM AUTHOR]

Published

2010

14. Effect of Erufosine on Membrane Lipid Order in Breast Cancer Cell Models.

Author

Tzoneva, Rumiana, Stoyanova, Tihomira, Petrich, Annett, Popova, Desislava, Uzunova, Veselina, Momchilova, Albena, and Chiantia, Salvatore

Subjects

CANCER cells, ANALYTICAL chemistry, CELL membranes, THIN layer chromatography, BREAST cancer, MEMBRANE lipids

Abstract

Alkylphospholipids are a novel class of antineoplastic drugs showing remarkable therapeutic potential. Among them, erufosine (EPC3) is a promising drug for the treatment of several types of tumors. While EPC3 is supposed to exert its function by interacting with lipid membranes, the exact molecular mechanisms involved are not known yet. In this work, we applied a combination of several fluorescence microscopy and analytical chemistry approaches (i.e., scanning fluorescence correlation spectroscopy, line-scan fluorescence correlation spectroscopy, generalized polarization imaging, as well as thin layer and gas chromatography) to quantify the effect of EPC3 in biophysical models of the plasma membrane, as well as in cancer cell lines. Our results indicate that EPC3 affects lipid–lipid interactions in cellular membranes by decreasing lipid packing and increasing membrane disorder and fluidity. As a consequence of these alterations in the lateral organization of lipid bilayers, the diffusive dynamics of membrane proteins are also significantly increased. Taken together, these findings suggest that the mechanism of action of EPC3 could be linked to its effects on fundamental biophysical properties of lipid membranes, as well as on lipid metabolism in cancer cells. [ABSTRACT FROM AUTHOR]

Published

2020

15. Macropinocytosis and Clathrin-Dependent Endocytosis Play Pivotal Roles for the Infectious Entry of Puumala Virus.

Author

Bauherr, Sandy, Larsberg, Filip, Petrich, Annett, Sperber, Hannah Sabeth, Klose, Victoria, Luckner, Madlen, Azab, Walid, Schade, Matthias, Höfer, Chris Tina, Lehmann, Maik Joerg, Witkowski, Peter T., Krüger, Detlev H., Herrmann, Andreas, and Schwarzer, Roland

Subjects

*ENDOCYTOSIS, *HEMORRHAGIC fever with renal syndrome, *RNA interference, *REOVIRUSES

Abstract

Viruses from the taxonomic family Hantaviridae are encountered as emerging pathogens causing two life-threatening human zoonoses: hemorrhagic fever with renal syndrome (HFRS) and hantavirus cardiopulmonary syndrome (HCPS) with case fatalities of up to 50 %. Here we comprehensively investigated entry of the Old-World Hantavirus Puumala virus (PUUV) into mammalian cells, showing that upon treatment with pharmacological inhibitors of macropinocytosis and clathrin-mediated endocytosis PUUV infections are greatly reduced. We demonstrate that the inhibitors did not interfere with viral replication and that RNA interference, targeting cellular mediators of macropinocytosis, decreases PUUV infection levels significantly. Moreover, we established lipophilic tracer staining of PUUV particles and show colocalization of stained virions and markers of macropinosomes. Finally, we report a significant increase in the fluid-phase uptake of cell infected with PUUV, indicative of a virus-triggered promotion of macropinocytosis. [ABSTRACT FROM AUTHOR]

Published

2020

16. Involvement of Guggenheimella bovis in digital dermatitis lesions of dairy cows

Author

Schlafer, Sebastian, Nordhoff, Marcel, Wyss, Chris, Strub, Sarah, Hübner, Julia, Gescher, Dorothee Maria, Petrich, Annett, Göbel, Ulf B., and Moter, Annette

Subjects

*CATTLE diseases, *ETIOLOGY of diseases, *FLUORESCENCE in situ hybridization, *POLYMERASE chain reaction

Abstract

Abstract: Digital dermatitis (DD) of cattle leads to lameness and a decrease of milk production and is responsible for major economic losses worldwide. Although a bacterial aetiology is generally accepted, it still is unclear which microorganisms cause and/or maintain the disease. Recently, a previously undiscovered bacterial species, Guggenheimella bovis, has been isolated from the front of two DD lesions in Swiss cattle and suggested as a potential pathogen. The aims of the present study were to determine the prevalence of G. bovis in 58 German cows suffering from DD via dot blot hybridization, and to analyse the spatial distribution of G. bovis within the affected tissue by fluorescence in situ hybridization (FISH). A species-specific probe, GUBO1, was designed and evaluated. In none of the 58 samples Guggenheimella could be detected, while cultured G. bovis was reliably identified by GUBO1. Further FISH experiments were carried out on two additional biopsies of Swiss cattle tested positive for G. bovis by quantitative PCR and permitted visualization of the newly discovered bacteria in situ. In these biopsies G. bovis proved to be tissue invasive forming characteristic spherical microcolonies not only within the bacterial biofilm but also in seemingly unaffected parts of the tissue not yet reached by the advancing bacterial front. Although the presence of G. bovis does not constitute an essential premise for DD, it seems likely that the bacterial species involved in DD vary, and that in some cases G. bovis is crucial for the development of DD lesions. [Copyright &y& Elsevier]

Published

2008