Your search keyword '"Tobias Busch"' showing total 94 results

1. A jaw based human-machine interface with machine learning.

Author

Tobias Busch, Jennifer Zeilfelder, Kai Zhou, and Wilhelm Stork

Published

2019

2. A human-machine interface based on tongue and jaw movements.

Author

Jennifer Zeilfelder, Tobias Busch, Christoph Zimmermann, and Wilhelm Stork

Published

2018

3. Receptive Vocabulary of Children With Bilateral Cochlear Implants From 3 to 16 Years of Age

Author

Tobias Busch, Ellen Irén Brinchmann, Johan Braeken, and Ona Bø Wie

Subjects

Male, Speech and Hearing, Cochlear Implants, Cross-Sectional Studies, Otorhinolaryngology, Humans, Female, Deafness, Child, Vocabulary, Language Development, Cochlear Implantation, Retrospective Studies

Abstract

The vocabulary of children with cochlear implants is often smaller than that of their peers with typical hearing, but there is uncertainty regarding the extent of the differences and potential risks and protective factors. Some studies indicate that their receptive vocabulary develops well at first, but that they fail to keep up with their typical hearing peers, causing many CI users to enter school with a receptive vocabulary that is not age-appropriate. To better understand the receptive vocabulary abilities of children with cochlear implants this study explored age-related differences to matched children with typical hearing and associations between vocabulary skills and child-level characteristics.A retrospective cross-sectional study with matched controls was conducted at the Norwegian national cochlear implant center at Oslo University Hospital. Eighty-eight children (mean age 8.7 years; range 3.2 to 15.9; 43 girls, 45 boys) who had received bilateral cochlear implants before 3 years of age were compared with two groups of children with typical hearing. One group was matched for maternal education, sex, and chronological age, the other group was matched for maternal education, sex, and hearing age. Receptive vocabulary performance was measured with the British Picture Vocabulary Scale.Cochlear implant users' receptive vocabulary was poorer than that of age-matched children with typical hearing ( M = 84.6 standard points, SD = 21.1; children with typical hearing: M = 102.1 standard points, SD = 15.8; mean difference -17.5 standard points, 95% CI [-23.0 to -12.0], p0.001; Hedges's g = -0.94, 95% CI [-1.24 to -0.62]), and children with cochlear implants were significantly more likely to perform below the normative range (risk ratio = 2.2, 95% CI [1.42 to 3.83]). However, there was a significant nonlinear U-shaped effect of age on the scores of cochlear implant users, with the difference to the matched typical hearing children being largest (23.9 standard points, on average) around 8.7 years of age and smaller toward the beginning and end of the age range. There was no significant difference compared with children with typical hearing when differences in auditory experience were accounted for. Variability was not significantly different between the groups. Further analysis with a random forest revealed that, in addition to chronological age and hearing age, simultaneous versus sequential implantation, communication mode at school, and social integration were predictors of cochlear implant users' receptive vocabulary.On average, the receptive vocabulary of children with cochlear implants was smaller than that of their typical hearing peers. The magnitude of the difference was changing with age and was the largest for children in early primary school. The nonlinear effect of age might explain some of the ambiguity in previous research findings and could indicate that better intervention is required around school entry. The results emphasize that continuous monitoring and support are crucial to avoid far-reaching negative effects on the children's development and well-being.

Published

2022

4. Mucosa-like differentiation of head and neck cancer cells is inducible and drives the epigenetic loss of cell malignancy

Author

Felix Oppel, Sarah Gendreizig, Laura Martinez-Ruiz, Javier Florido, Alba López-Rodríguez, Harkiren Pabla, Lakshna Loganathan, Leonie Hose, Philipp Kühnel, Pascal Schmidt, Matthias Schürmann, Judith Martha Neumann, Flavian Viyof Ful, Lars Uwe Scholtz, Dina Ligum, Frank Brasch, Karsten Niehaus, Germaine Escames, Tobias Busche, Jörn Kalinowski, Peter Goon, and Holger Sudhoff

Subjects

Cytology, QH573-671

Abstract

Abstract Head and neck squamous cell carcinoma (HNSCC) is a highly malignant disease with high death rates that have remained substantially unaltered for decades. Therefore, new treatment approaches are urgently needed. Human papillomavirus-negative tumors harbor areas of terminally differentiated tissue that are characterized by cornification. Dissecting this intrinsic ability of HNSCC cells to irreversibly differentiate into non-malignant cells may have tumor-targeting potential. We modeled the cornification of HNSCC cells in a primary spheroid model and analyzed the mechanisms underlying differentiation by ATAC-seq and RNA-seq. Results were verified by immunofluorescence using human HNSCC tissue of distinct anatomical locations. HNSCC cell differentiation was accompanied by cell adhesion, proliferation stop, diminished tumor-initiating potential in immunodeficient mice, and activation of a wound-healing-associated signaling program. Small promoter accessibility increased despite overall chromatin closure. Differentiating cells upregulated KRT17 and cornification markers. Although KRT17 represents a basal stem cell marker in normal mucosa, we confirm KRT17 to represent an early differentiation marker in HNSCC tissue. Cornification was frequently found surrounding necrotic areas in human tumors, indicating an involvement of pro-inflammatory stimuli. Indeed, inflammatory mediators activated the differentiation program in primary HNSCC cells. In HNSCC tissue, distinct cell differentiation states were found to create a common tissue architecture in normal mucosa and HNSCCs. Our data demonstrate a loss of cell malignancy upon faithful HNSCC cell differentiation, indicating that targeted differentiation approaches may be therapeutically valuable. Moreover, we describe KRT17 to be a candidate biomarker for HNSCC cell differentiation and early tumor detection.

Published

2024

5. Exploration of In Situ Extraction for Enhanced Triterpenoid Production by Saccharomyces cerevisiae

Author

Mariam Dianat, Sarah Straaten, Aldo Maritato, Daniel Wibberg, Tobias Busche, Lars M. Blank, and Birgitta E. Ebert

Subjects

betulinic acid, biocompatible solvent, in situ extraction, metabolic engineering, organic solvent, plant natural products, Biotechnology, TP248.13-248.65

Abstract

ABSTRACT Plant‐derived triterpenoids are in high demand due to their valuable applications in cosmetic, nutraceutical, and pharmaceutical industries. To meet this demand, microbial production of triterpenoids is being developed for large‐scale production. However, a prominent limitation of microbial synthesis is the intracellular accumulation, requiring cell disruption during downstream processing. Destroying the whole‐cell catalyst drives up production costs and limits productivity and product yield per cell. Here, in situ product extraction of triterpenoids into a second organic phase was researched to address this limitation. An organic solvent screening identified water‐immiscible isopropyl myristate as a suitable in situ extractant, enabling extraction of up to 90% of total triterpenoids from engineered Saccharomyces cerevisiae. Combining isopropyl myristate and β‐cyclodextrins improved extraction efficiency. In a first configuration, repeated batch fermentation with sequential product extraction and cell recycling resulted in 1.8 times higher production than a reference fermentation without in situ product extraction. In the second configuration, yeast cells were in contact with the second organic phase throughout a fed‐batch fermentation to continuously extract triterpenoids. This resulted in 90% product extraction and an extended production phase. Further improvement of triterpenoid production was not achieved due to microbial host limitations uncovered through omics analyses.

Published

2024

6. Learning Curve and One-Year Outcome of XEN 45 Gel Stent Implantation in a Swedish Population

Author

Dragana Škiljić, Anders Bergström, Tobias Busch, Thiemo Rudolph, and Madeleine Zetterberg

Subjects

Intraocular pressure, medicine.medical_specialty, genetic structures, Open angle glaucoma, business.industry, medicine.medical_treatment, Glaucoma, Stent, Retrospective cohort study, Phacoemulsification, medicine.disease, eye diseases, Ophthalmology, Cohort, medicine, sense organs, Adverse effect, business

Abstract

Purpose Evaluation of 1-year-outcome of XEN 45 gel stent surgery in a Swedish cohort with regard to clinical success, complications, and learning curve. Patients and methods This was a retrospective study of glaucoma patients undergoing glaucoma XEN-stent surgery alone or combined with phacoemulsification between December 2015 and May 2017. Intraocular pressure (IOP), number of medical agents, and adverse events were assessed. Clinical success rate was defined as achieving individual target pressure with/without medication. Results A total of 113 eyes were included in the final statistics. Mean age was 70.8±11.8 years. Primary open angle glaucoma (POAG) accounted for 46.9% and exfoliative glaucoma (PEXG) for 40.7%. Mean preoperative IOP was 23.8±6.2 mmHg and mean number of agents 3.4. After 1 year, mean IOP was reduced to 16.1±4.7 mmHg and medication to 1.34 substances on average. Failure rate at 1-year follow-up was 34% with no significant difference between POAG and PEXG. There was a trend of higher success rate for combined cases (P=0.116). Stents with malpositioned or curved appearance had significantly worse outcome. The failure rate of the most productive surgeon dropped from 33% to 10% from the first implantations. Temporary hypotony (19.5%) and choroidal detachment (9.7%) were the most common complications. Blockage of the inner stent lumen was common (8.8%), with a high proportion of failure. Conclusion XEN-stent surgery is a surgical option in uncontrolled glaucoma in both POAG and PEXG. A XEN-stent can reduce both IOP and the number of antiglaucoma medications needed. The learning curve is significant and stent positioning is crucial for optimal results. Combined XEN-cataract surgery is not inferior to stand-alone procedures. The long-time effectiveness is still to be proven.

Published

2020

7. Human papillomavirus-associated head and neck squamous cell carcinoma cells lose viability during triggered myocyte lineage differentiation

Author

Sarah Gendreizig, Laura Martínez-Ruiz, Alba López-Rodríguez, Harkiren Pabla, Leonie Hose, Frank Brasch, Tobias Busche, Germaine Escames, Holger Sudhoff, Lars Uwe Scholtz, Ingo Todt, and Felix Oppel

Subjects

Cytology, QH573-671

Abstract

Abstract Head and neck squamous cell carcinoma (HNSCC) is a highly malignant disease, and death rates have remained at approximately 50% for decades. New tumor-targeting strategies are desperately needed, and a previous report indicated the triggered differentiation of HPV-negative HNSCC cells to confer therapeutic benefits. Using patient-derived tumor cells, we created a similar HNSCC differentiation model of HPV+ tumor cells from two patients. We observed a loss of malignant characteristics in differentiating cell culture conditions, including irregularly enlarged cell morphology, cell cycle arrest with downregulation of Ki67, and reduced cell viability. RNA-Seq showed myocyte-like differentiation with upregulation of markers of myofibril assembly. Immunofluorescence staining of differentiated and undifferentiated primary HPV+ HNSCC cells confirmed an upregulation of these markers and the formation of parallel actin fibers reminiscent of myoblast-lineage cells. Moreover, immunofluorescence of HPV+ tumor tissue revealed areas of cells co-expressing the identified markers of myofibril assembly, HPV surrogate marker p16, and stress-associated basal keratinocyte marker KRT17, indicating that the observed myocyte-like in vitro differentiation occurs in human tissue. We are the first to report that carcinoma cells can undergo a triggered myocyte-like differentiation, and our study suggests that the targeted differentiation of HPV+ HNSCCs might be therapeutically valuable.

Published

2024

8. 5′-untranslated region sequences enhance plasmid-based protein production in Sulfolobus acidocaldarius

Author

Laura Kuschmierz, Alexander Wagner, Christian Schmerling, Tobias Busche, Jörn Kalinowski, Christopher Bräsen, and Bettina Siebers

Subjects

Protein expression, Archaea, Sulfolobus acidocaldarius, 5’-untranslated region, Shine-Dalgarno, Microbiology, QR1-502

Abstract

Sulfolobus acidocaldarius, a thermoacidophilic archaeon of the phylum Thermoproteota (former Crenarchaeota), is a widely used model organism for gene deletion studies and recombinant protein production. Previous research has demonstrated the efficacy of the saci_2122 promoter (Para), providing low basal activity and high pentose-dependent induction. However, the available expression vector does not include a 5′-terminal untranslated region (5’-UTR), a typical element found in bacterial expression vectors that usually enhances protein production in bacteria. To establish S. acidocaldarius as a production strain in biotechnology in the long term, it is intrinsically relevant to optimize its tools and capacities to increase production efficiencies. Here we show that protein production is increased by the integration of S. acidocaldarius 5’-UTRs into Para expression plasmids. Using the esterase Saci_1116 as a reporter protein, we observed a four-fold increase in soluble and active protein yield upon insertion of the saci_1322 (alba) 5’-UTR. Screening of four additional 5’-UTRs from other highly abundant proteins (thα, slaA, slaB, saci_0330) revealed a consistent enhancement in target protein production. Additionally, site-directed mutagenesis of the Shine-Dalgarno (SD) motif within the alba 5’-UTR revealed its significance for protein synthesis. Ultimately, the alba 5’-UTR optimized expression vector improved the expression of various proteins, including six glycosyltransferases and one hydroxyacyl-CoA dehydratase from S. acidocaldarius, and a malto-oligosyltrehalose trehalohydrolase from Saccharolobus solfataricus, demonstrating its applicability. Our results show that the integration of SD-motif containing 5’-UTRs significantly enhanced plasmid-based protein production in S. acidocaldarius. This advancement in recombinant expression not only broadens the utility of S. acidocaldarius as an archaeal expression platform but also marks an important step toward potential biotechnological applications.

Published

2024

9. Transcriptomic analysis and cellular responses to nanoscale zero-valent iron in green microalga Raphidocelis subcapitata

Author

Cheryl S.Y. Yeap, Nhung H.A. Nguyen, Tobias Busche, Daniel Wibberg, Jakub Riha, Olaf Kruse, Miroslav Cernik, Olga Blifernez-Klassen, and Alena Sevcu

Subjects

NZVI, DNA repair and replication, Microalgae, RNA-seq, Non-photochemical quenching, Iron stress, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Nanoscale zero valent iron (nZVI) is used to remediate aquifers polluted by organochlorines or heavy metals and was also suggested to eliminate harmful algal blooms. nZVI can therefore affect microorganisms in the vicinity of the application area, including microalgae. However, studies on early transcriptomic effects of microalgae after exposure to nZVI are rare. Here, we described the early physiological and transcriptomic response of the freshwater ecological indicator green microalga, Raphidocelis subcapitata ATCC 22662, to 100 mg/L of reactive nZVI and non-reactive nano-magnetite (nFe3O4). The combined effect of shading and the release of total iron from nZVI posed a short-term inhibition effect leading to 15 % of deformed cells and cytosol leakage, while cells viability increased after 24 h. nZVI triggered a more pronounced transcriptomic response with (7380 differentially expressed genes [DEGs]) compared to nFe3O4 (4601 DEGs) after 1 h. nZVI, but not nFe3O4 increased the expression of genes function in DNA repair and replication, while deactivated carbohydrate-energy metabolisms, mitochondria signaling, and transmembrane ion transport. This study highlights an early fate assessment of algal cells under nZVI and nFe3O4 exposure using next-generation risk assessment methods and will serve as valuable information for safe and sustainable application of nZVI in water remediation.

Published

2024

10. Identification and biochemical characterisation of tyrosine aminotransferase from Anthoceros agrestis unveils the conceivable entry point into rosmarinic acid biosynthesis in hornworts

Author

Maike Petersen and Tobias Busch

Subjects

Anthoceros agrestis, Ketoacid, Transamination, Anthocerotophyta, Plant Science, Amino acid metabolism, Depsides, Substrate Specificity, Rosmarinic acid (RA), chemistry.chemical_compound, Tyrosine aminotransferase, Biosynthesis, Genetics, Caffeic acid, Escherichia coli, Aromatic aminotransferase, Tyrosine Transaminase, chemistry.chemical_classification, biology, Rosmarinic acid, Pyridoxal 5’-phosphate (PLP), Tyrosine aminotransferase (TAT), Bryophytes, biology.organism_classification, Amino acid, Anthocerotopsida, Enzyme, Biochemistry, chemistry, Cinnamates, Original Article, Hornworts, 2-Oxoacid

Abstract

Main conclusion Tyrosine aminotransferase (AaTAT) from the hornwort Anthoceros agrestis Paton (Anthocerotaceae) was amplified and expressed in E. coli. The active enzyme is able to accept a wide range of substrates with distinct preference for l-tyrosine, therefore, possibly catalysing the initial step in rosmarinic acid biosynthesis. Abstract The presence of rosmarinic acid (RA) in the hornwort A. agrestis is well known, and some attempts have been made to clarify the biosynthesis of this caffeic acid ester in lower plants. Parallel to the biosynthesis in vascular plants, the involvement of tyrosine aminotransferase (EC 2.6.1.5; TAT) as the initial step was assumed. The amplification of a nucleotide sequence putatively encoding AaTAT (Genbank MN922307) and expression in E. coli were successful. The enzyme proved to have a high acceptance of l-tyrosine (Km 0.53 mM) whilst slightly preferring 2-oxoglutarate over phenylpyruvate as co-substrate. Applying l-phenylalanine as a potential amino donor or using oxaloacetate or pyruvate as a replacement for 2-oxoglutarate as amino acceptor resulted in significantly lower catalytic efficiencies in each of these cases. To facilitate further substrate search, two methods were introduced, one using ninhydrin after thin-layer chromatography and the other using derivatisation with o-phthalaldehyde followed by HPLC or LC–MS analysis. Both methods proved to be well applicable and helped to confirm the acceptance of further aromatic and aliphatic amino acids. This work presents the first description of a heterologously expressed TAT from a hornwort (A. agrestis) and describes the possible entry into the biosynthesis of RA and other specialised compounds in a so far neglected representative of terrestrial plants and upcoming new model organism.

Published

2021

11. Cochlear Implant Data Logs Predict Children's Receptive Vocabulary

Author

Astrid Van Wieringen, A.M.J. Vermeulen, Margreet Langereis, Tobias Busch, and Filiep Vanpoucke

Subjects

medicine.medical_specialty, Vocabulary, Speech perception, medicine.medical_treatment, media_common.quotation_subject, Deafness, Audiology, Language Development, 01 natural sciences, Cochlear nucleus, 03 medical and health sciences, Speech and Hearing, 0302 clinical medicine, Cochlear implant, 0103 physical sciences, medicine, otorhinolaryngologic diseases, Humans, Speech, Child, 030223 otorhinolaryngology, Association (psychology), 010301 acoustics, media_common, Cochlear Implantation, Language development, Cochlear Implants, Variation (linguistics), Otorhinolaryngology, Speech Perception, Akaike information criterion, Psychology

Abstract

OBJECTIVES: The data logs of Cochlear Nucleus cochlear implant (CI) sound processors show large interindividual variation in children's daily CI use and auditory environments. This study explored whether these differences are associated with differences in the receptive vocabulary of young implanted children. DESIGN: Data of 52 prelingually deaf children, who had received a CI before 3 years of age, were obtained from their clinical records. In total, 73 Peabody Picture Vocabulary tests and CI data logs for 1 year preceding each test were collected. The data logs were used to determine the children's average daily amount of CI use and exposure to speech, speech in noise, noise, music, and quiet. In addition, information was collected about other potential predictors of language abilities, namely gender, age, age at implantation, etiology of deafness, educational placement, and implantation mode (unilateral, bilateral). Model selection with Akaike's information criterion was used to determine which data-logging metrics, other variables, and combinations of both best predict receptive vocabulary scores. RESULTS: The data showed a strong positive association between receptive vocabulary and daily CI use, and a negative association between receptive vocabulary and daily exposure to music. Associations with the data logs' speech and noise metrics were less clear. The most important other variable was educational placement. The best model performance was achieved when data logs and other information were combined. CONCLUSIONS: The results emphasize the importance of consistent CI use and a rich auditory environment for the early language development of young CI users. The study also shows that CI data logs capture information about children's environment and CI use that are related to language performance and can help to detect and address problems and improve the auditory rehabilitation after cochlear implantation. ispartof: EAR AND HEARING vol:41 issue:4 pages:733-746 ispartof: location:United States status: published

Published

2020

12. Learning Curve and One-Year Outcome of XEN 45 Gel Stent Implantation in a Swedish Population

Author

Tobias, Busch, Dragana, Skiljic, Thiemo, Rudolph, Anders, Bergström, and Madeleine, Zetterberg

Subjects

glaucoma, genetic structures, surgical success, XEN 45 gel stent, Ab interno implant, MIGS, minimal invasive glaucoma surgery, sense organs, pseudoexfoliative glaucoma, eye diseases, Original Research

Abstract

Purpose Evaluation of 1-year-outcome of XEN 45 gel stent surgery in a Swedish cohort with regard to clinical success, complications, and learning curve. Patients and Methods This was a retrospective study of glaucoma patients undergoing glaucoma XEN-stent surgery alone or combined with phacoemulsification between December 2015 and May 2017. Intraocular pressure (IOP), number of medical agents, and adverse events were assessed. Clinical success rate was defined as achieving individual target pressure with/without medication. Results A total of 113 eyes were included in the final statistics. Mean age was 70.8±11.8 years. Primary open angle glaucoma (POAG) accounted for 46.9% and exfoliative glaucoma (PEXG) for 40.7%. Mean preoperative IOP was 23.8±6.2 mmHg and mean number of agents 3.4. After 1 year, mean IOP was reduced to 16.1±4.7 mmHg and medication to 1.34 substances on average. Failure rate at 1-year follow-up was 34% with no significant difference between POAG and PEXG. There was a trend of higher success rate for combined cases (P=0.116). Stents with malpositioned or curved appearance had significantly worse outcome. The failure rate of the most productive surgeon dropped from 33% to 10% from the first implantations. Temporary hypotony (19.5%) and choroidal detachment (9.7%) were the most common complications. Blockage of the inner stent lumen was common (8.8%), with a high proportion of failure. Conclusion XEN-stent surgery is a surgical option in uncontrolled glaucoma in both POAG and PEXG. A XEN-stent can reduce both IOP and the number of antiglaucoma medications needed. The learning curve is significant and stent positioning is crucial for optimal results. Combined XEN-cataract surgery is not inferior to stand-alone procedures. The long-time effectiveness is still to be proven.

Published

2020

13. Characterization of non-invasive oropharyngeal samples and nucleic acid isolation for molecular diagnostics

Author

Leonie Hose, Matthias Schürmann, Inga Mennebröcker, Rayoung Kim, Tobias Busche, Peter Goon, and Holger Sudhoff

Subjects

Medicine, Science

Abstract

Abstract Molecular diagnostics is an increasingly important clinical tool, especially in routine sampling. We evaluated two non-invasive methods (oral swabs and mouthwashes) for sampling nucleic acids from the oral/pharyngeal area. We created a workflow from sample collection (n = 59) to RT-qPCR based analysis. The samples were further characterized in terms of their cellular composition as well as the purity, degradation and microbial content of the derived DNA/RNA. We determined the optimal housekeeping genes applicable for these types of samples. The cellular composition indicated that mouthwashes contained more immune cells and bacteria. Even though the protocol was not specifically optimized to extract bacterial RNA it was possible to derive microbial RNA, from both sampling methods. Optimizing the protocol allowed us to generate stable quantities of DNA/RNA. DNA/RNA purity parameters were not significantly different between the two sampling methods. Even though integrity analysis demonstrated a high level of degradation of RNA, corresponding parameters confirmed their sequencing potential. RT-qPCR analysis determined TATA-Box Binding Protein as the most favorable housekeeping gene. In summary, we have developed a robust method suitable for multiple downstream diagnostic techniques. This protocol can be used as a foundation for further research endeavors focusing on developing molecular diagnostics for the oropharyngeal cavity.

Published

2024

14. Identification of myeloid-derived growth factor as a mechanically-induced, growth-promoting angiocrine signal for human hepatocytes

Author

Linda Große-Segerath, Paula Follert, Kristina Behnke, Julia Ettich, Tobias Buschmann, Philip Kirschner, Sonja Hartwig, Stefan Lehr, Mortimer Korf-Klingebiel, Daniel Eberhard, Nadja Lehwald-Tywuschik, Hadi Al-Hasani, Wolfram Trudo Knoefel, Stefan Heinrich, Bodo Levkau, Kai C. Wollert, Jürgen Scheller, and Eckhard Lammert

Subjects

Science

Abstract

Abstract Recently, we have shown that after partial hepatectomy (PHx), an increased hepatic blood flow initiates liver growth in mice by vasodilation and mechanically-triggered release of angiocrine signals. Here, we use mass spectrometry to identify a mechanically-induced angiocrine signal in human hepatic endothelial cells, that is, myeloid-derived growth factor (MYDGF). We show that it induces proliferation and promotes survival of primary human hepatocytes derived from different donors in two-dimensional cell culture, via activation of mitogen-activated protein kinase (MAPK) and signal transducer and activator of transcription 3 (STAT3). MYDGF also enhances proliferation of human hepatocytes in three-dimensional organoids. In vivo, genetic deletion of MYDGF decreases hepatocyte proliferation in the regenerating mouse liver after PHx; conversely, adeno-associated viral delivery of MYDGF increases hepatocyte proliferation and MAPK signaling after PHx. We conclude that MYDGF represents a mechanically-induced angiocrine signal and that it triggers growth of, and provides protection to, primary mouse and human hepatocytes.

Published

2024

15. Enhanced protein secretion in reduced genome strains of Streptomyces lividans

Author

Mohamed Belal Hamed, Tobias Busche, Kenneth Simoens, Sebastien Carpentier, Jan Kormanec, Lieve Van Mellaert, Jozef Anné, Joern Kalinowski, Kristel Bernaerts, Spyridoula Karamanou, and Anastassios Economou

Subjects

Reduced genome strains, Secretome, Proteomics, Transcriptomics, Heterologous secretion, Microbiology, QR1-502

Abstract

Abstract Background S. lividans TK24 is a popular host for the production of small molecules and the secretion of heterologous protein. Within its large genome, twenty-nine non-essential clusters direct the biosynthesis of secondary metabolites. We had previously constructed ten chassis strains, carrying deletions in various combinations of specialized metabolites biosynthetic clusters, such as those of the blue actinorhodin (act), the calcium-dependent antibiotic (cda), the undecylprodigiosin (red), the coelimycin A (cpk) and the melanin (mel) clusters, as well as the genes hrdD, encoding a non-essential sigma factor, and matAB, a locus affecting mycelial aggregation. Genome reduction was aimed at reducing carbon flow toward specialized metabolite biosynthesis to optimize the production of secreted heterologous protein. Results Two of these S. lividans TK24 derived chassis strains showed ~ 15% reduction in biomass yield, 2-fold increase of their total native secretome mass yield and enhanced abundance of several secreted proteins compared to the parental strain. RNAseq and proteomic analysis of the secretome suggested that genome reduction led to cell wall and oxidative stresses and was accompanied by the up-regulation of secretory chaperones and of secDF, a Sec-pathway component. Interestingly, the amount of the secreted heterologous proteins mRFP and mTNFα, by one of these strains, was 12 and 70% higher, respectively, than that secreted by the parental strain. Conclusion The current study described a strategy to construct chassis strains with enhanced secretory abilities and proposed a model linking the deletion of specialized metabolite biosynthetic clusters to improved production of secreted heterologous proteins.

Published

2024

16. Itaconate Production from Crude Substrates with U. maydis: Scale-up of an Industrially Relevant Bioprocess

Author

Tabea Helm, Thilo Stausberg, Martina Previati, Philipp Ernst, Bianca Klein, Tobias Busche, Jörn Kalinowski, Daniel Wibberg, Wolfgang Wiechert, Lien Claerhout, Nick Wierckx, and Stephan Noack

Subjects

Ustilago maydis, Itaconate, Industrial waste streams, Molasses, Glycerol, Scale-up, Microbiology, QR1-502

Abstract

Abstract Background Industrial by-products accrue in most agricultural or food-related production processes, but additional value chains have already been established for many of them. Crude glycerol has a 60% lower market value than commercial glucose, as large quantities are produced in the biodiesel industry, but its valorisation is still underutilized. Due to its high carbon content and the natural ability of many microorganisms to metabolise it, microbial upcycling is a suitable option for this waste product. Results In this work, the use of crude glycerol for the production of the value-added compound itaconate is demonstrated using the smut fungus Ustilago maydis. Starting with a highly engineered strain, itaconate production from an industrial glycerol waste stream was quickly established on a small scale, and the resulting yields were already competitive with processes using commercial sugars. Adaptive laboratory evolution resulted in an evolved strain with a 72% increased growth rate on glycerol. In the subsequent development and optimisation of a fed-batch process on a 1.5-2 L scale, the use of molasses, a side stream of sugar beet processing, eliminated the need for other expensive media components such as nitrogen or vitamins for biomass growth. The optimised process was scaled up to 150 L, achieving an overall titre of 72 g L− 1, a yield of 0.34 g g− 1, and a productivity of 0.54 g L− 1 h− 1. Conclusions Pilot-scale itaconate production from the complementary waste streams molasses and glycerol has been successfully established. In addition to achieving competitive performance indicators, the proposed dual feedstock strategy offers lower process costs and carbon footprint for the production of bio-based itaconate.

Published

2024

17. Sphingosine-1-phosphate suppresses GLUT activity through PP2A and counteracts hyperglycemia in diabetic red blood cells

Author

Nadine Thomas, Nathalie H. Schröder, Melissa K. Nowak, Philipp Wollnitzke, Shahrooz Ghaderi, Karin von Wnuck Lipinski, Annalena Wille, Jennifer Deister-Jonas, Jens Vogt, Markus H. Gräler, Lisa Dannenberg, Tobias Buschmann, Philipp Westhoff, Amin Polzin, Malte Kelm, Petra Keul, Sarah Weske, and Bodo Levkau

Subjects

Science

Abstract

Abstract Red blood cells (RBC) are the major carriers of sphingosine-1-phosphate (S1P) in blood. Here we show that variations in RBC S1P content achieved by altering S1P synthesis and transport by genetic and pharmacological means regulate glucose uptake and metabolic flux. This is due to S1P-mediated activation of the catalytic protein phosphatase 2 (PP2A) subunit leading to reduction of cell-surface glucose transporters (GLUTs). The mechanism dynamically responds to metabolic cues from the environment by increasing S1P synthesis, enhancing PP2A activity, reducing GLUT phosphorylation and localization, and diminishing glucose uptake in RBC from diabetic mice and humans. Functionally, it protects RBC against lipid peroxidation in hyperglycemia and diabetes by activating the pentose phosphate pathway. Proof of concept is provided by the resistance of mice lacking the S1P exporter MFSD2B to diabetes-induced HbA1c elevation and thiobarbituric acid reactive substances (TBARS) generation in diabetic RBC. This mechanism responds to pharmacological S1P analogues such as fingolimod and may be functional in other insulin-independent tissues making it a promising therapeutic target.

Published

2023

18. Correlation and agreement between Language ENvironment Analysis (lena™) and manual transcription for Dutch natural language recordings

Author

Tobias Busch, Anouk Sangen, Filiep Vanpoucke, and Astrid Van Wieringen

Subjects

Electronic media, QUANTITATIVE LINGUISTIC FEEDBACK, Environment analysis, Speech recognition, Social Sciences, CHILDREN, Experimental and Cognitive Psychology, COMMUNICATION, 050105 experimental psychology, Mean difference, Agreement, Psychology, Mathematical, Method comparison, Correlation, 030507 speech-language pathology & audiology, 03 medical and health sciences, Measurement error, Bias, Arts and Humanities (miscellaneous), Transcription (linguistics), Statistics, Developmental and Educational Psychology, Psychology, Child vocalization count, SOCIOECONOMIC-STATUS, 0501 psychology and cognitive sciences, AUTISM, Adult word count, General Psychology, Psychology, Experimental, 05 social sciences, Limits of agreement, Automatic speech recognition, Agreement analysis, SPEECH, Reliability, SIBLINGS, VOCABULARY, Conversational turn count, Psychology (miscellaneous), Dutch, 0305 other medical science, Human transcription, Natural language

Abstract

The Language ENvironment Analysis system (LENA™) automatically analyzes the natural sound environments of children. Among other things, it estimates the amounts of adult words (AWC), child vocalizations (CV), conversational turns (CT), and electronic media (TV) that a child is exposed to. To assess LENA's reliability, we compared it to manual transcription. Specifically, we calculated the correlation and agreement between the LENA estimates and manual counts for 48 five-min audio samples. These samples were selected from eight day-long recordings of six Dutch-speaking children (ages 2-5). The correlations were strong for AWC, r = . 87, and CV, r = . 77, and comparatively low for CT, r = . 52, and TV, r = . 50. However, the agreement analysis revealed a constant bias in AWC counts, and proportional biases for CV and CT (i.e., the bias varied with the values for CV and CT). Agreement for detecting electronic media was poor. Moreover, the limits of agreement were wide for all four metrics. That is, the differences between LENA and the manual transcriptions for individual audio samples varied widely around the mean difference. This variation could indicate that LENA was affected by differences between the samples that did not equally affect the human transcribers. The disagreements and biases cast doubt on the comparability of LENA measurements across families and time, which is crucial for using LENA in research. Our sample is too small to conclude within which limits LENA's measurements are comparable, but it seems advisable to be cautious of factors that could systematically bias LENA's performance and thereby create confounds. ispartof: BEHAVIOR RESEARCH METHODS vol:50 issue:5 pages:1921-1932 ispartof: location:United States status: published

Published

2017

19. Long-Term Language Development in Children With Early Simultaneous Bilateral Cochlear Implants

Author

Ona Bø Wie, Tobias Busch, Janne von Koss Torkildsen, Stefan K. Schauber, and Ruth Y. Litovsky

Subjects

Bilateral implantation, Vocabulary, medicine.medical_specialty, Longitudinal study, Adolescent, media_common.quotation_subject, Norwegian, Audiology, Deafness, 01 natural sciences, Language Development, 03 medical and health sciences, Speech and Hearing, 0302 clinical medicine, 0103 physical sciences, medicine, Humans, Longitudinal Studies, Cochlear implant, 030223 otorhinolaryngology, Child, 010301 acoustics, Reference group, media_common, Language, Language Tests, Grammar, Cochlear Implantation, language.human_language, Language development, Cochlear Implants, Otorhinolaryngology, Child, Preschool, language, Normative, Psychology, On Language, Research Article

Abstract

Objectives: This longitudinal study followed the language development of children who received the combination of early (5 to 18 months) and simultaneous bilateral cochlear implants (CIs) throughout the first 6 years after implantation. It examined the trajectories of their language development and identified factors associated with language outcomes. Design: Participants were 21 Norwegian children who received bilateral CIs between the ages of 5 and 18 mo and 21 children with normal hearing (NH) who were matched to the children with CIs on age, sex, and maternal education. The language skills of these two groups were compared at 10 time points (3, 6, 9, 12, 18, 24, 36, 48, 60, and 72 months after implantation) using parent reports and standardized measures of general language skills, vocabulary, and grammar. In addition, assessments were made of the effects of age at CI activation, speech recognition abilities, and mothers’ education on language outcomes 6 years after implantation. Results: During the first 4 years after implantation, the gap in general expressive and receptive language abilities between children with CIs and children with NH gradually closed. While at the initial five to six assessments (3 to 36 months after implantation), significant differences between children with CIs and children with NH were observed; at 4 years after implantation, there were no longer any significant group differences in general language skills and most children with CIs achieved scores within 1 SD of the tests’ normative means. From 2 to 3 years after implantation onward, expressive vocabulary and receptive grammar skills of children with CIs were similar to those of the reference group. However, from 4 years after implantation until the end of the observation period, 6 years after implantation, expressive grammar skills of children with CIs were lower than those of children with NH. In addition, a gap in receptive vocabulary appeared and grew increasingly larger from 4 to 6 years postimplantation. At the final assessment, the children with CIs had an average receptive vocabulary score around 1 SD below the normative mean. Regression analysis indicated that the children’s language outcomes at 6 years after implantation were related to their speech recognition skills, age at CI activation, and maternal education. Conclusions: In the first 4 years after implantation, the language performance of children with CIs became increasingly similar to that of their NH peers. However, between 4 and 6 years after implantation, there were indications of challenges with certain aspects of language, specifically receptive vocabulary and expressive grammar. Because these challenges first appeared after the 4-year assessment, the findings underline the importance of long-term language intervention to increase the chances of a continued language development comparable to that of NH peers. They also indicate that there is a need for comprehensive longitudinal studies of the language development of children with CIs beyond 4 years after implantation.

Published

2020

20. A jaw based human-machine interface with machine learning

Author

Wilhelm Stork, Jennifer Zeilfelder, Tobias Busch, and Kai Zhou

Subjects

0209 industrial biotechnology, business.industry, Computer science, Jaw movement, 02 engineering and technology, Bayes classifier, Machine learning, computer.software_genre, Auditory canal, Support vector machine, Naive Bayes classifier, ComputingMethodologies_PATTERNRECOGNITION, 020901 industrial engineering & automation, 0202 electrical engineering, electronic engineering, information engineering, Learning methods, Human–machine interface, 020201 artificial intelligence & image processing, Artificial intelligence, business, computer

Abstract

For a successful classification of jaw movement signals three different machine learning methods are implemented and evaluated: A Naive Bayes classifier, a Support Vector Machine (SVM) and a Convolutional Neuronal Network (CNN). In this case the present paper deals with the definition of intuitive jaw movements and their detection by a prototypical system for non-invasive measurement of pressure values in the closed external auditory canal. For this purpose, a database with 1013 recordings was created. The evaluation shows that all three learning methods provide a good recognition level. The Bayes classifier achieves with the used, small dataset with nearly 95% the best detection probability with realtime data. At the same time, the study shows that individual pressure profiles can severely impair recognition. Hence, the creation of a comprehensive database is required. Overall, this paper demonstrates that successful detection and differentiation of up to five jaw movement directions is possible. In total it could be shown using machine learning for jaw movement classification is a stable method with a high recognition level. However, the quality of classification increases with the size and diversity of the dataset.

Published

2019

21. Discovery and overproduction of novel highly bioactive pamamycins through transcriptional engineering of the biosynthetic gene cluster

Author

Nikolas Eckert, Yuriy Rebets, Lilya Horbal, Josef Zapp, Jennifer Herrmann, Tobias Busche, Rolf Müller, Jörn Kalinowski, and Andriy Luzhetskyy

Subjects

Streptomyces, Gene cluster, Transcriptional refactoring, Strain engineering, Antibiotic, Microbiology, QR1-502

Abstract

Abstract Background Pamamycins are a family of highly bioactive macrodiolide polyketides produced by Streptomyces alboniger as a complex mixture of derivatives with molecular weights ranging from 579 to 705 Daltons. The large derivatives are produced as a minor fraction, which has prevented their isolation and thus studies of chemical and biological properties. Results Herein, we describe the transcriptional engineering of the pamamycin biosynthetic gene cluster (pam BGC), which resulted in the shift in production profile toward high molecular weight derivatives. The pam BGC library was constructed by inserting randomized promoter sequences in front of key biosynthetic operons. The library was expressed in Streptomyces albus strain with improved resistance to pamamycins to overcome sensitivity-related host limitations. Clones with modified pamamycin profiles were selected and the properties of engineered pam BGC were studied in detail. The production level and composition of the mixture of pamamycins was found to depend on balance in expression of the corresponding biosynthetic genes. This approach enabled the isolation of known pamamycins and the discovery of three novel derivatives with molecular weights of 663 Da and higher. One of them, homopamamycin 677A, is the largest described representative of this family of natural products with an elucidated structure. The new pamamycin 663A shows extraordinary activity (IC50 2 nM) against hepatocyte cancer cells as well as strong activity (in the one-digit micromolar range) against a range of Gram-positive pathogenic bacteria. Conclusion By employing transcriptional gene cluster refactoring, we not only enhanced the production of known pamamycins but also discovered novel derivatives exhibiting promising biological activities. This approach has the potential for broader application in various biosynthetic gene clusters, creating a sustainable supply and discovery platform for bioactive natural products.

Published

2023

22. Sigma Factor Engineering in Actinoplanes sp. SE50/110: Expression of the Alternative Sigma Factor Gene ACSP50_0507 (σHAs) Enhances Acarbose Yield and Alters Cell Morphology

Author

Laura Schlüter, Tobias Busche, Laila Bondzio, Andreas Hütten, Karsten Niehaus, Susanne Schneiker-Bekel, Alfred Pühler, and Jörn Kalinowski

Subjects

σ factor, acarbose, Actinoplanes, transcription, regulation, cell morphology, Biology (General), QH301-705.5

Abstract

Sigma factors are transcriptional regulators that are part of complex regulatory networks for major cellular processes, as well as for growth phase-dependent regulation and stress response. Actinoplanes sp. SE50/110 is the natural producer of acarbose, an α-glucosidase inhibitor that is used in diabetes type 2 treatment. Acarbose biosynthesis is dependent on growth, making sigma factor engineering a promising tool for metabolic engineering. ACSP50_0507 is a homolog of the developmental and osmotic-stress-regulating Streptomyces coelicolor σHSc. Therefore, the protein encoded by ACSP50_0507 was named σHAs. Here, an Actinoplanes sp. SE50/110 expression strain for the alternative sigma factor gene ACSP50_0507 (sigHAs) achieved a two-fold increased acarbose yield with acarbose production extending into the stationary growth phase. Transcriptome sequencing revealed upregulation of acarbose biosynthesis genes during growth and at the late stationary growth phase. Genes that are transcriptionally activated by σHAs frequently code for secreted or membrane-associated proteins. This is also mirrored by the severely affected cell morphology, with hyperbranching, deformed and compartmentalized hyphae. The dehydrated cell morphology and upregulation of further genes point to a putative involvement in osmotic stress response, similar to its S. coelicolor homolog. The DNA-binding motif of σHAs was determined based on transcriptome sequencing data and shows high motif similarity to that of its homolog. The motif was confirmed by in vitro binding of recombinantly expressed σHAs to the upstream sequence of a strongly upregulated gene. Autoregulation of σHAs was observed, and binding to its own gene promoter region was also confirmed.

Published

2024

23. Histone binding of ASF1 is required for fruiting body development but not for genome stability in the filamentous fungus Sordaria macrospora

Author

Jan Breuer, Tobias Busche, Jörn Kalinowski, and Minou Nowrousian

Subjects

histone chaperone, ASF1, filamentous fungi, fruiting body formation, chromatin, Hi-C, Microbiology, QR1-502

Abstract

ABSTRACTThe highly conserved eukaryotic histone chaperone ASF1 is involved in the assembly and disassembly of nucleosomes during transcription, DNA replication, and repair. It was the first chaperone discovered to be involved in all three of these processes. The filamentous fungus Sordaria macrospora is one of only two multicellular organisms where asf1 deletions are viable, which makes it useful for in vivo analysis of this central regulator of eukaryotic chromatin structure. Deletion of asf1 in S. macrospora leads to sterility, a reduction of DNA methylation, and upregulation of genes that are usually weakly expressed in the wild type. Here, we focused on the functions of the highly conserved core and the divergent C-terminal tail of ASF1, studied the effects of ASF1 on histone modifications, and tested its relevance for genomic stability. By co-immunoprecipitation and complementation analysis, we showed that substitutions of amino acid V94 or truncations of the C-terminal tail abolish histone binding and do not complement the sterile mutant phenotype. ∆asf1 is sensitive to the DNA-damaging agent methyl methanesulfonate, while complementation strains, even those with non-histone-binding variants, regain wild type-like resistance. The histone marks H3K27me3 and H3K56ac were shown to be influenced by the histone-binding capability of ASF1. To aid in subsequent analyses, we generated a chromosome-resolved genome assembly of S. macrospora. By using Hi-C, we detected a tandem duplication of around 600 kb on chromosome 2 in the mutant. Crossing experiments indicated linkage between the viability of Δasf1 strains and the presence of the duplication.IMPORTANCEHistone chaperones are proteins that are involved in nucleosome assembly and disassembly and can therefore influence all DNA-dependent processes including transcription, DNA replication, and repair. ASF1 is a histone chaperone that is conserved throughout eukaryotes. In contrast to most other multicellular organisms, a deletion mutant of asf1 in the fungus Sordaria macrospora is viable; however, the mutant is sterile. In this study, we could show that the histone-binding ability of ASF1 is required for fertility in S. macrospora, whereas the function of ASF1 in maintenance of genome stability does not require histone binding. We also showed that the histone modifications H3K27me3 and H3K56ac are misregulated in the Δasf1 mutant. Furthermore, we identified a large duplication on chromosome 2 of the mutant strain that is genetically linked to the Δasf1 allele present on chromosome 6, suggesting that viability of the mutant might depend on the presence of the duplicated region.

Published

2024

24. Exploring engineered vesiculation by Pseudomonas putida KT2440 for natural product biosynthesis

Author

Nora Lisa Bitzenhofer, Carolin Höfel, Stephan Thies, Andrea Jeanette Weiler, Christian Eberlein, Hermann J. Heipieper, Renu Batra‐Safferling, Pia Sundermeyer, Thomas Heidler, Carsten Sachse, Tobias Busche, Jörn Kalinowski, Thomke Belthle, Thomas Drepper, Karl‐Erich Jaeger, and Anita Loeschcke

Subjects

Biotechnology, TP248.13-248.65

Abstract

Abstract Pseudomonas species have become promising cell factories for the production of natural products due to their inherent robustness. Although these bacteria have naturally evolved strategies to cope with different kinds of stress, many biotechnological applications benefit from engineering of optimised chassis strains with specially adapted tolerance traits. Here, we explored the formation of outer membrane vesicles (OMV) of Pseudomonas putida KT2440. We found OMV production to correlate with the recombinant production of a natural compound with versatile beneficial properties, the tripyrrole prodigiosin. Further, several P. putida genes were identified, whose up‐ or down‐regulated expression allowed controlling OMV formation. Finally, genetically triggering vesiculation in production strains of the different alkaloids prodigiosin, violacein, and phenazine‐1‐carboxylic acid, as well as the carotenoid zeaxanthin, resulted in up to three‐fold increased product yields. Consequently, our findings suggest that the construction of robust strains by genetic manipulation of OMV formation might be developed into a useful tool which may contribute to improving limited biotechnological applications.

Published

2024

25. The neutrophil oxidant hypothiocyanous acid causes a thiol-specific stress response and an oxidative shift of the bacillithiol redox potential in Staphylococcus aureus

Author

Vu Van Loi, Tobias Busche, Franziska Schnaufer, Jörn Kalinowski, and Haike Antelmann

Subjects

Staphylococcus aureus, HOSCN, transcriptome, MerA, bacillithiol, Microbiology, QR1-502

Abstract

ABSTRACT During infections, Staphylococcus aureus is exposed to hypochlorous acid (HOCl) and hypothiocyanous acid (HOSCN), which are produced by the neutrophil myeloperoxidase as potent antimicrobial killing agents. In this work, we applied RNAseq transcriptomics, Brx-roGFP2 biosensor measurements, and phenotype analyses to investigate the stress responses and defense mechanisms of S. aureus COL toward HOSCN stress. Based on the RNAseq transcriptome profile, HOSCN exerts strong thiol-specific oxidative, electrophile, and metal stress responses as well as protein damage in S. aureus, which is indicated by the strong induction of the HypR, TetR1, PerR, QsrR, MhqR, CstR, CsoR, CzrA, AgrA, HrcA, and CtsR regulons. Phenotype analyses of various mutants in HOSCN-responsive genes revealed that the HOSCN reductase MerA conferred the highest resistance toward HOSCN stress in S. aureus COL, whereas the QsrR and MhqR electrophile stress regulons do not contribute to protection. Brx-roGFP2 biosensor measurements and bacillithiol (BSH)-specific Western blot analyses revealed a strong oxidative shift of the bacillithiol redox potential (E BSH) and increased S-bacillithiolations in S. aureus, indicating that BSH is oxidized to bacillithiol disulfide (BSSB) under HOSCN stress. While the ΔmerA mutant was delayed in recovery of the reduced E BSH, overproduction of MerA in the ΔhypR mutant enabled faster recovery of E BSH due to efficient HOSCN detoxification. Moreover, both MerA and BSH were shown to contribute to HOSCN resistance in growth assays. In summary, HOSCN provokes a thiol-specific oxidative, electrophile, and metal stress response, an oxidative shift in E BSH and increased S-bacillithiolation in S. aureus. IMPORTANCE Staphylococcus aureus colonizes the skin and the airways but can also lead to life-threatening systemic and chronic infections. During colonization and phagocytosis by immune cells, S. aureus encounters the thiol-reactive oxidant HOSCN. The understanding of the adaptation mechanisms of S. aureus toward HOSCN stress is important to identify novel drug targets to combat multi-resistant S. aureus isolates. As a defense mechanism, S. aureus uses the flavin disulfide reductase MerA, which functions as HOSCN reductase and protects against HOSCN stress. Moreover, MerA homologs have conserved functions in HOSCN detoxification in other bacteria, including intestinal and respiratory pathogens. In this work, we studied the comprehensive thiol-reactive mode of action of HOSCN and its effect on the reversible shift of the E BSH to discover new defense mechanisms against the neutrophil oxidant. These findings provide new leads for future drug design to fight the pathogen at the sites of colonization and infections.

Published

2023

26. Auditory Environment Across the Life Span of Cochlear Implant Users: Insights From Data Logging

Author

Astrid Van Wieringen, Tobias Busch, and Filiep Vanpoucke

Subjects

Auditory perception, Adult, Linguistics and Language, medicine.medical_specialty, Internationality, Adolescent, medicine.medical_treatment, Predictor variables, Audiology, Deafness, Environment, Language and Linguistics, Pattern Recognition, Automated, 03 medical and health sciences, Speech and Hearing, Young Adult, 0302 clinical medicine, Data logger, Cochlear implant, Assistive technology, medicine, Humans, Statistical analysis, Life cycle costing, 030223 otorhinolaryngology, Child, Aged, Retrospective Studies, Aged, 80 and over, Life span, Infant, Newborn, Infant, Middle Aged, Cochlear Implants, Cross-Sectional Studies, Child, Preschool, Auditory Perception, Supervised Machine Learning, Psychology, 030217 neurology & neurosurgery

Abstract

PurposeWe describe the natural auditory environment of people with cochlear implants (CIs), how it changes across the life span, and how it varies between individuals.MethodWe performed a retrospective cross-sectional analysis of Cochlear Nucleus 6 CI sound-processor data logs. The logs were obtained from 1,501 people with CIs (ages 0–96 years). They covered over 2.4 million hr of implant use and indicated how much time the CI users had spent in various acoustical environments. We investigated exposure to spoken language, noise, music, and quiet, and analyzed variation between age groups, users, and countries.ResultsCI users spent a substantial part of their daily life in noisy environments. As a consequence, most speech was presented in background noise. We found significant differences between age groups for all auditory scenes. Yet even within the same age group and country, variability between individuals was substantial.ConclusionsRegardless of their age, people with CIs face challenging acoustical environments in their daily life. Our results underline the importance of supporting them with assistive listening technology. Moreover, we found large differences between individuals' auditory diets that might contribute to differences in rehabilitation outcomes. Their causes and effects should be investigated further.

Published

2016

27. Effects of keratin phosphorylation on the mechanical properties of keratin filaments in living cells

Author

Thomas Seufferlein, Michael Weimer, Erika T. Felder, Edward Felder, Giorgio Fois, Tobias Busch, Franz Oswald, Goetz von Wichert, and Paul Dietl

Subjects

Cell Survival, Cell, Intermediate Filaments, macromolecular substances, Biochemistry, Immunolabeling, Keratin, Serine, Genetics, medicine, Humans, Phosphorylation, Intermediate filament, Cytoskeleton, Molecular Biology, Cells, Cultured, Actin, chemistry.chemical_classification, integumentary system, Chemistry, Epithelial Cells, Keratin 6A, Actins, medicine.anatomical_structure, Biophysics, Keratins, Biotechnology

Abstract

Keratin filaments impart resilience against mechanical extension of the cell. Despite the pathophysiological relevance of this function, very little is known about the mechanical properties of intermediate filaments in living cells and how these properties are modulated. We used keratin mutants that mimic or abrogate phosphorylation of keratin 8-serine(431) and keratin 18-serine(52) and investigated their effect on keratin tortuousness after cell stretch release in squamous cell carcinoma cells. Cells transfected with the wild-type keratins were used as controls. We can show that keratin dephosphorylation alters the stretch response of keratin in living cells since keratin tortuousness was abolished when phosphorylation of keratin18-serine(52) was abrogated. Additional experiments demonstrate that keratin tortuousness is not simply caused by a plastic overextension of keratin filaments because tortuousness is reversible and requires an intact actin-myosin system. The role of actin in this process remains unclear, but we suggest anchorage of keratin filaments to actin during stretch that leads to buckling on stretch release. Dephosphorylated keratin18-serine(52) might strengthen the recoil force of keratin filaments and hence explain the abolished buckling. The almost exclusive immunolabeling for phosphorylated keratin18-serine (52) in the cell periphery points at a particular role of the peripheral keratin network in this regard.

Published

2012

28. Timing matters: age-dependent impacts of the social environment and host selection on the avian gut microbiota

Author

Öncü Maraci, Anna Antonatou-Papaioannou, Sebastian Jünemann, Kathrin Engel, Omar Castillo-Gutiérrez, Tobias Busche, Jörn Kalinowski, and Barbara A. Caspers

Subjects

Avian gut microbiome, Establishment of the gut microbiota, Social transmission, Host selection, Early development, Bengalese finch, Microbial ecology, QR100-130

Abstract

Abstract Background The establishment of the gut microbiota in early life is a critical process that influences the development and fitness of vertebrates. However, the relative influence of transmission from the early social environment and host selection throughout host ontogeny remains understudied, particularly in avian species. We conducted conspecific and heterospecific cross-fostering experiments in zebra finches (Taeniopygia guttata) and Bengalese finches (Lonchura striata domestica) under controlled conditions and repeatedly sampled the faecal microbiota of these birds over the first 3 months of life. We thus documented the development of the gut microbiota and characterised the relative impacts of the early social environment and host selection due to species-specific characteristics and individual genetic backgrounds across ontogeny by using 16S ribosomal RNA gene sequencing. Results The taxonomic composition and community structure of the gut microbiota changed across ontogenetic stages; juvenile zebra finches exhibited higher alpha diversity than adults at the post-breeding stage. Furthermore, in early development, the microbial communities of juveniles raised by conspecific and heterospecific foster parents resembled those of their foster family, emphasising the importance of the social environment. In later stages, the social environment continued to influence the gut microbiota, but host selection increased in importance. Conclusions We provided a baseline description of the developmental succession of gut microbiota in zebra finches and Bengalese finches, which is a necessary first step for understanding the impact of the early gut microbiota on host fitness. Furthermore, for the first time in avian species, we showed that the relative strengths of the two forces that shape the establishment and maintenance of the gut microbiota (i.e. host selection and dispersal from the social environment) change during development, with host selection increasing in importance. This finding should be considered when experimentally manipulating the early-life gut microbiota. Our findings also provide new insights into the mechanisms of host selection. Video Abstract

Published

2022

29. The transcriptomic landscape of Magnetospirillum gryphiswaldense during magnetosome biomineralization

Author

Cornelius N. Riese, Manuel Wittchen, Valérie Jérôme, Ruth Freitag, Tobias Busche, Jörn Kalinowski, and Dirk Schüler

Subjects

Magnetospirillum, Magnetosomes, Operons, Promoters, Transcription, Transcriptome, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background One of the most complex prokaryotic organelles are magnetosomes, which are formed by magnetotactic bacteria as sensors for navigation in the Earth’s magnetic field. In the alphaproteobacterium Magnetospirillum gryphiswaldense magnetosomes consist of chains of magnetite crystals (Fe3O4) that under microoxic to anoxic conditions are biomineralized within membrane vesicles. To form such an intricate structure, the transcription of > 30 specific structural genes clustered within the genomic magnetosome island (MAI) has to be coordinated with the expression of an as-yet unknown number of auxiliary genes encoding several generic metabolic functions. However, their global regulation and transcriptional organization in response to anoxic conditions most favorable for magnetite biomineralization are still unclear. Results Here, we compared transcriptional profiles of anaerobically grown magnetosome forming cells with those in which magnetosome biosynthesis has been suppressed by aerobic condition. Using whole transcriptome shotgun sequencing, we found that transcription of about 300 of the > 4300 genes was significantly enhanced during magnetosome formation. About 40 of the top upregulated genes are directly or indirectly linked to aerobic and anaerobic respiration (denitrification) or unknown functions. The mam and mms gene clusters, specifically controlling magnetosome biosynthesis, were highly transcribed, but constitutively expressed irrespective of the growth condition. By Cappable-sequencing, we show that the transcriptional complexity of both the MAI and the entire genome decreased under anaerobic conditions optimal for magnetosome formation. In addition, predominant promoter structures were highly similar to sigma factor σ70 dependent promoters in other Alphaproteobacteria. Conclusions Our transcriptome-wide analysis revealed that magnetite biomineralization relies on a complex interplay between generic metabolic processes such as aerobic and anaerobic respiration, cellular redox control, and the biosynthesis of specific magnetosome structures. In addition, we provide insights into global regulatory features that have remained uncharacterized in the widely studied model organism M. gryphiswaldense, including a comprehensive dataset of newly annotated transcription start sites and genome-wide operon detection as a community resource (GEO Series accession number GSE197098).

Published

2022

30. Under the hood of statistical learning

Author

Martin Rohrmeier, Tobias Busch, Sebastian Jentschke, and Stefan Koelsch

Subjects

Auditory perception, Adult, Male, Computer science, Speech recognition, Magnitude (mathematics), Mismatch negativity, Electroencephalography, 050105 experimental psychology, Article, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Learning, 0501 psychology and cognitive sciences, Multidisciplinary, medicine.diagnostic_test, Statistical learning, Sensory memory, 05 social sciences, Negativity effect, Neurophysiology, Auditory Perception, Evoked Potentials, Auditory, Probability distribution, Female, 030217 neurology & neurosurgery

Abstract

Within the framework of statistical learning, many behavioural studies investigated the processing of unpredicted events. However, surprisingly few neurophysiological studies are available on this topic and no statistical learning experiment has investigated electroencephalographic (EEG) correlates of processing events with different transition probabilities. We carried out an EEG study with a novel variant of the established statistical learning paradigm. Timbres were presented in isochronous sequences of triplets. The first two sounds of all triplets were equiprobable, while the third sound occurred with either low (10%), intermediate (30%), or high (60%) probability. Thus, the occurrence probability of the third item of each triplet (given the first two items) was varied. Compared to high-probability triplet endings, endings with low and intermediate probability elicited an early anterior negativity that had an onset around 100 ms and was maximal at around 180 ms. This effect was larger for events with low than for events with intermediate probability. Our results reveal that, when predictions are based on statistical learning, events that do not match a prediction evoke an early anterior negativity, with the amplitude of this mismatch response being inversely related to the probability of such events. Thus, we report a statistical mismatch negativity (sMMN) that reflects statistical learning of transitional probability distributions that go beyond auditory sensory memory capabilities.

Published

2016

31. Thirty-eight-negative kinase 1 (TNK1) facilitates TNFα-induced apoptosis by blocking NF-κB activation

Author

N Azoitei, Andreas Brey, Gail K. Adler, Simone Fulda, Tobias Busch, and Thomas Seufferlein

Subjects

Fetal Proteins, Transcriptional Activation, Cancer Research, Programmed cell death, Apoptosis, Biology, Transfection, Transactivation, Tumor Cells, Cultured, Genetics, Humans, ASK1, Molecular Biology, MAP kinase kinase kinase, Tumor Necrosis Factor-alpha, Kinase, NF-kappa B, Transcription Factor RelA, Protein-Tyrosine Kinases, Caspases, Cancer research, Cyclin-dependent kinase 9, Signal transduction, Tyrosine kinase, HeLa Cells, Signal Transduction

Abstract

Thirty-eight-negative kinase 1 (TNK1) is a member of the ACK-family of nonreceptor tyrosine kinases and was originally cloned from CD34+/Lin-/CD38-hematopoietic stem/progenitor cells. The signaling pathways induced by TNK1 are largely unknown. Here, we report that expression and consequent activation of TNK1 enables tumor necrosis factor alpha (TNFalpha)-induced apoptosis by selectively inhibiting TNFalpha-induced activation of nuclear factor-kappaB (NF-kappaB). TNK1 has no effect on NF-kappaB DNA binding or the composition of the NF-kappaB complex; however, the kinase markedly prevents TNFalpha-induced NF-kappaB transactivation. TNK1 therefore acts as a novel molecular switch that can determine the properties of TNFalpha signaling and therefore cell death.

Published

2007

32. Microbial Diversity and Community Structure of Wastewater-Driven Microalgal Biofilms

Author

Olga Blifernez-Klassen, Julia Hassa, Diana L. Reinecke, Tobias Busche, Viktor Klassen, and Olaf Kruse

Subjects

environmental microbiome structure, wastewater, taxonomic profiling, biofilm, microbial biodiversity, microalga–bacteria consortia, Biology (General), QH301-705.5

Abstract

Dwindling water sources increase the need for efficient wastewater treatment. Solar-driven algal turf scrubber (ATS) system may remediate wastewater by supporting the development and growth of periphytic microbiomes that function and interact in a highly dynamic manner through symbiotic interactions. Using ITS and 16S rRNA gene amplicon sequencing, we profiled the microbial communities of four microbial biofilms from ATS systems operated with municipal wastewater (mWW), diluted cattle and pig manure (CattleM and PigM), and biogas plant effluent supernatant (BGE) in comparison to the initial inocula and the respective wastewater substrates. The wastewater-driven biofilms differed significantly in their biodiversity and structure, exhibiting an inocula-independent but substrate-dependent establishment of the microbial communities. The prokaryotic communities were comparable among themselves and with other microbiomes of aquatic environments and were dominated by metabolically flexible prokaryotes such as nitrifiers, polyphosphate-accumulating and algicide-producing microorganisms, and anoxygenic photoautotrophs. Striking differences occurred in eukaryotic communities: While the mWW biofilm was characterized by high biodiversity and many filamentous (benthic) microalgae, the agricultural wastewater-fed biofilms consisted of less diverse communities with few benthic taxa mainly inhabited by unicellular chlorophytes and saprophytes/parasites. This study advances our understanding of the microbiome structure and function within the ATS-based wastewater treatment process.

Published

2023

33. Overlapping SigH and SigE sigma factor regulons in Corynebacterium glutamicum

Author

Tobias Busche, Hana Dostálová, Lenka Rucká, Jiří Holátko, Ivan Barvík, Václav Štěpánek, Miroslav Pátek, and Jörn Kalinowski

Subjects

Corynebacterium, sigma factor, regulon, promoter, stress, consensus sequence, Microbiology, QR1-502

Abstract

The sigma H (σΗ) and sigma E (σE) subunits of Corynebacterium glutamicum RNA polymerase belong to Group 4 of sigma factors, also called extracytoplasmic function (ECF) sigma factors. Genes of the C. glutamicum σΗ regulon that are involved in heat and oxidative stress response have already been defined, whereas the genes of the σE regulon, which is involved in cell surface stress response, have not been explored until now. Using the C. glutamicum RES167 strain and its derivative C. glutamicum ΔcseE with a deletion in the anti-σΕ gene, differential gene expression was analyzed by RNA sequencing. We found 296 upregulated and 398 downregulated genes in C. glutamicum ΔcseE compared to C. glutamicum RES167. To confirm the functional link between σΕ and the corresponding promoters, we tested selected promoters using the in vivo two-plasmid system with gfpuv as a reporter gene and by in vitro transcription. Analyses with RNAP+σΗ and RNAP+σΕ, which were previously shown to recognize similar promoters, proved that the σΗ and σE regulons significantly overlap. The σE-controlled genes were found to be involved for example in protein quality control (dnaK, dnaJ2, clpB, and clpC), the regulation of Clp proteases (clgR), and membrane integrity maintenance. The single-promoter analyses with σΗ and σΕ revealed that there are two groups of promoters: those which are exclusively σΗ-specific, and the other group of promoters, which are σΗ/σE-dependent. No exclusively σE-dependent promoter was detected. We defined the consensus sequences of exclusively σΗ-regulated promotors to be −35 GGAAt and − 10 GTT and σΗ/σE-regulated promoters to be −35 GGAAC and − 10 cGTT. Fifteen genes were found to belong to the σΗ/σΕ regulon. Homology modeling showed that there is a specific interaction between Met170 in σΗ and the nucleotides −31 and − 30 within the non-coding strand (AT or CT) of the σΗ-dependent promoters. In σE, Arg185 was found to interact with the nucleotides GA at the same positions in the σE-dependent promoters.

Published

2023

34. Economic considerations related to choice of intraocular lens (IOL) and posterior capsule opacification frequency - a comparison of three different IOLs

Author

Mats Lundström, Felix Cullin, and Tobias Busch

Subjects

Male, medicine.medical_specialty, genetic structures, medicine.medical_treatment, Vision Disorders, Intraocular lens, Lasers, Solid-State, Prosthesis Design, Lens Implantation, Intraocular, medicine, Economic analysis, Humans, Posterior capsule opacification, Aged, Retrospective Studies, Lenses, Intraocular, Phacoemulsification, business.industry, Posterior Capsulotomy, General Medicine, Cataract surgery, Capsule Opacification, Middle Aged, equipment and supplies, eye diseases, Surgery, Economics, Medical, Ophthalmology, Increased risk, Intraocular lenses, Capsulotomy, Female, sense organs, business, Follow-Up Studies

Abstract

Purpose: To evaluate the posterior capsule opacification (PCO) rates in three different modern standard intraocular lenses (IOL) and analyse the related cost. Methods: Retrospective study of medical records from 1527 patients who underwent uneventful cataract surgery by phacoemulsification with posterior chamber implantation of either AcrySof SN60 (n = 375), Akreos Adapt (n = 350) or Tecnis Acryl IOL (n = 801). All surgeries were performed by the same surgeon using the same surgical technique and equipment. Primary end-point was neodymium:yttrium-aluminium-garnet (Nd:YAG) capsulotomy for visual impairment secondary to PCO. Cost of IOL material and Nd:YAG capsulotomy for PCO was then evaluated and compared between the IOLs. Results: Mean follow-up was 41.5 months, and the only statistically significant variable of developing PCO was IOL type and individual follow-up time. Nd:YAG capsulotomy was performed in 7.47% in the AcrySof group, 17.71% in the Akreos group and 3.75% in the Tecnis group. Average cost for Nd:YAG capsulotomy per surgery was €18.75 in the AcrySof SN60 group, €44.25 in the Akreos Adapt group and €9.25 in the Tecnis Acryl group. The combined cost of cataract surgery and PCO treatment was €9.81 higher in for the Akreos Adapt group than the other two combined. Conclusions: This retrospective study shows that the risk of PCO and Nd:YAG capsulotomy is significantly higher in hydrophilic Akreos IOL compared with both AcrySof and Tecnis hydrophobic IOLs. The increased risk of PCO in the hydrophilic IOL is related to higher total average costs for cataract surgery. (Less)

Published

2013

35. Keratin 8 phosphorylation regulates keratin reorganization and migration of epithelial tumor cells

Author

Joachim P. Spatz, Götz von Wichert, Claudia Temme, Golsa Joodi, Thomas Seufferlein, Tim Eiseler, M. Bishr Omary, Milena Armacki, Tobias Busch, and Julia Jansen

Subjects

Phosphorylcholine, Intermediate Filaments, macromolecular substances, Biology, Cell Movement, Sphingosine, Stomach Neoplasms, Cell Line, Tumor, Keratin, Serine, Humans, Phosphorylation, Intermediate filament, Cytoskeleton, Extracellular Signal-Regulated MAP Kinases, Protein Kinase Inhibitors, Actin, Research Articles, chemistry.chemical_classification, integumentary system, Keratin-8, Cell migration, Epithelial Cells, Cell Biology, MAP Kinase Kinase Kinases, Cell biology, Keratin 5, Pancreatic Neoplasms, chemistry, Keratin 8, Signal Transduction

Abstract

Cell migration and invasion are largely dependent on the complex organization of the various cytoskeletal components. Whereas the role of actin filaments and microtubules in cell motility is well established, the role of intermediate filaments in this process is incompletely understood. Organization and structure of the keratin cytoskeleton, which consists of heteropolymers of at least one type 1 and one type 2 intermediate filament, are in part regulated by post-translational modifications. In particular, phosphorylation events influence the properties of the keratin network. Sphingosylphosphorylcholine (SPC) is a bioactive lipid with the exceptional ability to change the organization of the keratin cytoskeleton, leading to reorganization of keratin filaments, increased elasticity, and subsequently increased migration of epithelial tumor cells. Here we investigate the signaling pathways that mediate SPC-induced keratin reorganization and the role of keratin phosphorylation in this process. We establish that the MEK–ERK signaling cascade regulates both SPC-induced keratin phosphorylation and reorganization in human pancreatic and gastric cancer cells and identify Ser431 in keratin 8 as the crucial residue whose phosphorylation is required and sufficient to induce keratin reorganization and consequently enhanced migration of human epithelial tumor cells.

Published

2012

36. Elastic moduli of living epithelial pancreatic cancer cells and their skeletonized keratin intermediate filament network

Author

Joachim P. Spatz, Nadine Walter, Tobias Busch, and Thomas Seufferlein

Subjects

Cell, Intermediate Filaments, General Physics and Astronomy, macromolecular substances, 02 engineering and technology, Microfilament, Microscopy, Atomic Force, General Biochemistry, Genetics and Molecular Biology, Biomaterials, 03 medical and health sciences, Microtubule, Cell Line, Tumor, Elastic Modulus, Keratin, medicine, Humans, General Materials Science, Intermediate filament, Elastic modulus, Cell Shape, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, integumentary system, Epithelial Cells, General Chemistry, Anatomy, 021001 nanoscience & nanotechnology, Membrane, medicine.anatomical_structure, chemistry, Cytoplasm, Biophysics, Keratins, 0210 nano-technology

Abstract

In simple epithelia, such as living epithelial pancreatic cancer cells (Panc-1), unusual amounts of keratin filaments can be found, which makes these cells an ideal model system to study the role of keratin for cell mechanical properties. In this work, the elastic moduli of Panc-1 cells and their extracted in-situ subcellular keratin intermediate filament network are determined and compared with each other. For this, the living adherent cells and their extracted keratin network were probed with local quasistatic indentation testing during large deformations using the Atomic Force Microscope (AFM). We determined the elastic modulus of the skeletonized but structurally intact keratin network to be in the order of 10 Pa, while the living cell elastic modulus ranged from 100 to 500 Pa. By removing microfilaments, microtubules, membranes and soluble cytoplasmic components during keratin network extraction, we excluded effects caused by crosslinking with other filamentous fibers and from the viscosity of the cytoplasm. Thus, the determined elastic modulus equals the actual elastic modulus inherent to such a keratin filamentous network. In our assessment of the effective mechanical contribution of the architecturally intact, skeletonized keratin network to living cell mechanics, we come to the conclusion that it plays only a very limited role. Evidently, the quantitative dominance of keratin in these cells does not reflect a strong influence on determining the cell's elastic modulus. Instead, keratin like other filamentous structures in the cell's scaffolding, e.g., F-actin and microtubuli, is one part of a greater whole.

Published

2011

37. Enhancing stability of recombinant CHO cells by CRISPR/Cas9-mediated site-specific integration into regions with distinct histone modifications

Author

Oliver Hertel, Anne Neuss, Tobias Busche, David Brandt, Jörn Kalinowski, Janina Bahnemann, and Thomas Noll

Subjects

CRISPR/Cas9, CHO, cell line development, ChIP-seq, epigenetics, safe harbor, Biotechnology, TP248.13-248.65

Abstract

Chinese hamster ovary (CHO) cells are the most important platform for producing biotherapeutics. Random integration of a transgene into epigenetically instable regions of the genome results in silencing of the gene of interest and loss of productivity during upstream processing. Therefore, cost- and time-intensive long-term stability studies must be performed. Site-specific integration into safe harbors is a strategy to overcome these limitations of conventional cell line design. Recent publications predict safe harbors in CHO cells based on omics data sets or by learning from random integrations, but those predictions remain theory. In this study, we established a CRISPR/Cas9-mediated site-specific integration strategy based on ChIP-seq data to improve stability of recombinant CHO cells. Therefore, a ChIP experiment from the exponential and stationary growth phase of a fed-batch cultivation of CHO-K1 cells yielded 709 potentially stable integration sites. The reporter gene eGFP was integrated into three regions harboring specific modifications by CRISPR/Cas9. Targeted Cas9 nanopore sequencing showed site-specific integration in all 3 cell pools with a specificity between 23 and 73%. Subsequently, the cells with the three different integration sites were compared with the randomly integrated donor vector in terms of transcript level, productivity, gene copy numbers and stability. All site-specific integrations showed an increase in productivity and transcript levels of up to 7.4-fold. In a long-term cultivation over 70 generations, two of the site-specific integrations showed a stable productivity (>70%) independent of selection pressure.

Published

2022

38. A novel plant-fungal association reveals fundamental sRNA and gene expression reprogramming at the onset of symbiosis

Author

Ena Šečić, Silvia Zanini, Daniel Wibberg, Lukas Jelonek, Tobias Busche, Jörn Kalinowski, Sabrine Nasfi, Jennifer Thielmann, Jafargholi Imani, Jens Steinbrenner, and Karl-Heinz Kogel

Subjects

Brachypodium distachyon, Genome sequencing, Sebacinalean symbiosis, Serendipita indica, Small RNAs, Biology (General), QH301-705.5

Abstract

Abstract Background Beneficial associations between plants and microbes are widespread in nature and have been studied extensively in the microbial-dominant environment of the rhizosphere. Such associations are highly advantageous for the organisms involved, benefiting soil microbes by providing them access to plant metabolites, while plant growth and development are enhanced through the promotion of nutrient uptake and/or protection against (a)biotic stresses. While the establishment and maintenance of mutualistic associations have been shown to require genetic and epigenetic reprogramming, as well as an exchange of effector molecules between microbes and plants, whether short RNAs are able to effect such changes is currently unknown. Here, we established an interaction between the model grass species Brachypodium distachyon (Bd, Pooideae) and the beneficial fungal root endophyte Serendipita indica (Si, syn. Piriformospora indica, Sebacinales) to elucidate RNA interference-based regulatory changes in gene expression and small (s)RNA profiles that occurred during establishment of a Sebacinalean symbiosis. Results Colonization of Bd roots with Si resulted in higher grain yield, confirming the mutualistic character of this interaction. Resequencing of the Si genome using the Oxford Nanopore technique, followed by de novo assembly yielded in 57 contigs and 9441 predicted genes, including putative members of several families involved in sRNA production. Transcriptome analysis at an early stage of the mutualistic interaction identified 2963 differentially expressed genes (DEG) in Si and 317 in Bd line 21-3. The fungal DEGs were largely associated with carbohydrate metabolism, cell wall degradation, and nutrient uptake, while plant DEGs indicated modulation of (a)biotic stress responses and defense pathways. Additionally, 10% of the upregulated fungal DEGs encode candidate protein effectors, including six DELD proteins typical for Sebacinales. Analysis of the global changes in the sRNA profiles of both associated organisms revealed several putative endogenous plant sRNAs expressed during colonization belonging to known micro (mi)RNA families involved in growth and developmental regulation. Among Bd- and Si-generated sRNAs with putative functions in the interacting organism, we identified transcripts for proteins involved in circadian clock and flowering regulation as well as immunity as potential targets of fungal sRNAs, reflecting the beneficial activity of Si. Conclusions We detected beneficial effects of Si colonization on Bd growth and development, and established a novel plant-mutualist interaction model between these organisms. Together, the changes in gene expression and identification of interaction-induced sRNAs in both organisms support sRNA-based regulation of defense responses and plant development in Bd, as well as nutrient acquisition and cell growth in Si. Our data suggests that a Sebacinalean symbiosis involves reciprocal sRNA targeting of genes during the interaction.

Published

2021

39. Serinphosphorylierung von Cytokeratin 8 reguliert Keratinorganisation, Migration und Elastizität von Pankreaskarzinomzellen

Author

Gail K. Adler, N. Walter, Marc Porzner, Tobias Busch, and Thomas Seufferlein

Subjects

Gastroenterology

Published

2008

40. Mechanical strain of alveolar type II cells in culture: changes in the transcellular cytokeratin network and adaptations

Author

Tobias Busch, Paul Walther, Edward Felder, Pika Miklavc, Paul Dietl, Giorgio Fois, and Marcus Siebenbrunner

Subjects

Pulmonary and Respiratory Medicine, Male, Programmed cell death, Pathology, medicine.medical_specialty, Time Factors, Physiology, Biology, Rats, Sprague-Dawley, Cytokeratin, Physiology (medical), Keratin, Extracellular, medicine, Animals, Dimethylpolysiloxanes, Transcellular, Phosphorylation, Cytoskeleton, Cell damage, Cells, Cultured, chemistry.chemical_classification, Membranes, Artificial, Cell Biology, Desmosomes, Articles, medicine.disease, Adaptation, Physiological, Cell biology, Rats, Pulmonary Alveoli, chemistry, Keratins, Stress, Mechanical

Abstract

Mechanical forces exert multiple effects in cells, ranging from altered protein expression patterns to cell damage and death. Despite undisputable biological importance, little is known about structural changes in cells subjected to strain ex vivo. Here, we undertake the first transmission electron microscopy investigation combined with fluorescence imaging on pulmonary alveolar type II cells that are subjected to equibiaxial strain. When cells are investigated immediately after stretch, we demonstrate that curved cytokeratin (CK) fibers are straightened out at 10% increase in cell surface area (CSA) and that this is accompanied by a widened extracellular gap of desmosomes–the insertion points of CK fibers. Surprisingly, a CSA increase by 20% led to higher fiber curvatures of CK fibers and a concurrent return of the desmosomal gap to normal values. Since 20% CSA increase also induced a significant phosphorylation of CK8-ser431, we suggest CK phosphorylation might lower the tensile force of the transcellular CK network, which could explain the morphological observations. Stretch durations of 5 min caused membrane injury in up to 24% of the cells stretched by 30%, but the CK network remained surprisingly intact even in dead cells. We conclude that CK and desmosomes constitute a strong transcellular scaffold that survives cell death and hypothesize that phosphorylation of CK fibers is a mechano-induced adaptive mechanism to maintain epithelial overall integrity.

Published

2008

41. Characterization of the Antibacterial Activity of Quinone-Based Compounds Originating from the Alnumycin Biosynthetic Gene Cluster of a Streptomyces Isolate

Author

Leonie Sagurna, Sascha Heinrich, Lara-Sophie Kaufmann, Christian Rückert-Reed, Tobias Busche, Alexander Wolf, Jan Eickhoff, Bert Klebl, Jörn Kalinowski, and Julia E. Bandow

Subjects

secondary metabolites, alnumycin, biosynthetic gene clusters, anthraquinones, Streptomyces, Therapeutics. Pharmacology, RM1-950

Abstract

Bacteria of the genus Streptomyces produce various specialized metabolites. Single biosynthetic gene clusters (BGCs) can give rise to different products that can vary in terms of their biological activities. For example, for alnumycin and the shunt product K115, antimicrobial activity was described, while no antimicrobial activity was detected for the shunt product 1,6-dihydro 8-propylanthraquinone. To investigate the antibacterial activity of 1,6-dihydro 8-propylanthraquinone, we produced alnumycin and 1,6-dihydro 8-propylanthraquinone from a Streptomyces isolate containing the alnumycin BGC. The strain was cultivated in liquid glycerol–nitrate–casein medium (GN), and both compounds were isolated using an activity and mass spectrometry-guided purification. The structures were validated via nuclear magnetic resonance (NMR) spectroscopy. A minimal inhibitory concentration (MIC) test revealed that 1,6-dihydro 8-propylanthraquinone exhibits antimicrobial activity against E. coli ΔtolC, B. subtilis, an S. aureus type strain, and a vancomycin intermediate-resistance S. aureus strain (VISA). Activity of 1,6-dihydro 8-propylanthraquinone against E. coli ΔtolC was approximately 10-fold higher than that of alnumycin. We were unable to confirm gyrase inhibition for either compound and believe that the modes of action of both compounds are worth reinvestigating.

Published

2023

42. Adaptive laboratory evolution accelerated glutarate production by Corynebacterium glutamicum

Author

Carina Prell, Tobias Busche, Christian Rückert, Lea Nolte, Christoph Brandenbusch, and Volker F. Wendisch

Subjects

Corynebacterium glutamicum, Glutarate, Adaptive laboratory evolution, Metabolic engineering, Reverse genetics, Volumetric productivity, Microbiology, QR1-502

Abstract

Abstract Background The demand for biobased polymers is increasing steadily worldwide. Microbial hosts for production of their monomeric precursors such as glutarate are developed. To meet the market demand, production hosts have to be improved constantly with respect to product titers and yields, but also shortening bioprocess duration is important. Results In this study, adaptive laboratory evolution was used to improve a C. glutamicum strain engineered for production of the C5-dicarboxylic acid glutarate by flux enforcement. Deletion of the l-glutamic acid dehydrogenase gene gdh coupled growth to glutarate production since two transaminases in the glutarate pathway are crucial for nitrogen assimilation. The hypothesis that strains selected for faster glutarate-coupled growth by adaptive laboratory evolution show improved glutarate production was tested. A serial dilution growth experiment allowed isolating faster growing mutants with growth rates increasing from 0.10 h−1 by the parental strain to 0.17 h−1 by the fastest mutant. Indeed, the fastest growing mutant produced glutarate with a twofold higher volumetric productivity of 0.18 g L−1 h−1 than the parental strain. Genome sequencing of the evolved strain revealed candidate mutations for improved production. Reverse genetic engineering revealed that an amino acid exchange in the large subunit of l-glutamic acid-2-oxoglutarate aminotransferase was causal for accelerated glutarate production and its beneficial effect was dependent on flux enforcement due to deletion of gdh. Performance of the evolved mutant was stable at the 2 L bioreactor-scale operated in batch and fed-batch mode in a mineral salts medium and reached a titer of 22.7 g L−1, a yield of 0.23 g g−1 and a volumetric productivity of 0.35 g L−1 h−1. Reactive extraction of glutarate directly from the fermentation broth was optimized leading to yields of 58% and 99% in the reactive extraction and reactive re-extraction step, respectively. The fermentation medium was adapted according to the downstream processing results. Conclusion Flux enforcement to couple growth to operation of a product biosynthesis pathway provides a basis to select strains growing and producing faster by adaptive laboratory evolution. After identifying candidate mutations by genome sequencing causal mutations can be identified by reverse genetics. As exemplified here for glutarate production by C. glutamicum, this approach allowed deducing rational metabolic engineering strategies.

Published

2021

43. Serinphosphorylierung von Keratin 8/18 induziert eine Reorganisation des Keratin- Zytoskeletts in humanen Pankreaskarzinomzellen

Author

Gail K. Adler, Tobias Busch, and Thomas Seufferlein

Subjects

Gastroenterology

Published

2006

44. Differenzierung muriner embryonaler Stammzellen und Transdifferenzierung promyelozytärer Leukämiezellen durch Sphingosylphosphorylcholin

Author

Gail K. Adler, K. Prelle, Tobias Busch, Alexander Kleger, Martin Bommer, A. Wobus, Stefan Liebau, and Thomas Seufferlein

Subjects

Gastroenterology

Published

2006

45. The bioactive lipid sphingosylphosphorylcholine induces differentiation of mouse embryonic stem cells and human promyelocytic leukaemia cells

Author

Stephan Paschke, Stefan Liebau, Thomas Seufferlein, Eckhard Wolf, Tobias Busch, Anna M. Wobus, Guido Adler, Alexander Kleger, Michael Beil, Katja Prelle, and Alexandra Rolletschek

Subjects

animal structures, Angiogenesis, Cellular differentiation, Phosphorylcholine, Biology, Receptors, G-Protein-Coupled, Mice, Leukemia, Promyelocytic, Acute, Sphingosine, Cell Line, Tumor, Gene expression, Animals, Humans, Cell Lineage, Receptor, Extracellular Signal-Regulated MAP Kinases, Embryonic Stem Cells, G protein-coupled receptor, Focal Adhesions, fungi, Cell Differentiation, Cell Biology, Embryonic stem cell, Actins, Cell biology, Stem cell, Wound healing

Abstract

Sphingosylphosphorylcholine (SPC) is the major component of high-density lipoproteins (HDL) in blood plasma. The bioactive lipid acts mainly via G protein coupled receptors (GPCRs). Similar to ligands of other GPCRs, SPC has multiple biological roles including the regulation of proliferation, migration, angiogenesis, wound healing and heart rate. Lysophospholipids and their receptors have also been implicated in cell differentiation. A potential role of SPC in stem cell or tumour cell differentiation has been elusive so far. Here we examined the effect of SPC on the differentiation of mouse embryonic stem (ES) cells and of human NB4 promyelocytic leukemia cells, a well established tumour differentiation model. Our data show that mouse embryonic stem cells and NB4 cells express the relevant GPCRs for SPC. We demonstrate both at the level of morphology and of gene expression that SPC induces neuronal and cardiac differentiation of mouse ES cells. Furthermore, SPC induces differentiation of NB4 cells by a mechanism which is critically dependent on the activity of the MEK-ERK cascade. Thus, the bioactive lipid SPC is a novel differentiation inducing agent both for mouse ES cells, but also of certain human tumour cells.

Published

2006

46. Eliciting the silent lucensomycin biosynthetic pathway in Streptomyces cyanogenus S136 via manipulation of the global regulatory gene adpA

Author

Oleksandr Yushchuk, Iryna Ostash, Eva Mösker, Iryna Vlasiuk, Maksym Deneka, Christian Rückert, Tobias Busche, Victor Fedorenko, Jörn Kalinowski, Roderich D. Süssmuth, and Bohdan Ostash

Subjects

Medicine, Science

Abstract

Abstract Actinobacteria are among the most prolific sources of medically and agriculturally important compounds, derived from their biosynthetic gene clusters (BGCs) for specialized (secondary) pathways of metabolism. Genomics witnesses that the majority of actinobacterial BGCs are silent, most likely due to their low or zero transcription. Much effort is put into the search for approaches towards activation of silent BGCs, as this is believed to revitalize the discovery of novel natural products. We hypothesized that the global transcriptional factor AdpA, due to its highly degenerate operator sequence, could be used to upregulate the expression of silent BGCs. Using Streptomyces cyanogenus S136 as a test case, we showed that plasmids expressing either full-length adpA or its DNA-binding domain led to significant changes in the metabolome. These were evident as changes in the accumulation of colored compounds, bioactivity, as well as the emergence of a new pattern of secondary metabolites as revealed by HPLC-ESI-mass spectrometry. We further focused on the most abundant secondary metabolite and identified it as the polyene antibiotic lucensomycin. Finally, we uncovered the entire gene cluster for lucensomycin biosynthesis (lcm), that remained elusive for five decades until now, and outlined an evidence-based scenario for its adpA-mediated activation.

Published

2021

47. Identification and elimination of genomic regions irrelevant for magnetosome biosynthesis by large-scale deletion in Magnetospirillum gryphiswaldense

Author

Theresa Zwiener, Frank Mickoleit, Marina Dziuba, Christian Rückert, Tobias Busche, Jörn Kalinowski, Damien Faivre, René Uebe, and Dirk Schüler

Subjects

Magnetospirillum gryphiswaldense, Magnetosomes, Genome reduction, Microbiology, QR1-502

Abstract

Abstract Background Magnetosome formation in the alphaproteobacterium Magnetospirillum gryphiswaldense is controlled by more than 30 known mam and mms genes clustered within a large genomic region, the ‘magnetosome island’ (MAI), which also harbors numerous mobile genetic elements, repeats, and genetic junk. Because of the inherent genetic instability of the MAI caused by neighboring gene content, the elimination of these regions and their substitution by a compact, minimal magnetosome expression cassette would be important for future analysis and engineering. In addition, the role of the MAI boundaries and adjacent regions are still unclear, and recent studies indicated that further auxiliary determinants for magnetosome biosynthesis are encoded outside the MAI. However, techniques for large-scale genome editing of magnetic bacteria are still limited, and the full complement of genes controlling magnetosome formation has remained uncertain. Results Here we demonstrate that an allelic replacement method based on homologous recombination can be applied for large-scale genome editing in M. gryphiswaldense. By analysis of 24 deletion mutants covering about 167 kb of non-redundant genome content, we identified genes and regions inside and outside the MAI irrelevant for magnetosome biosynthesis. A contiguous stretch of ~ 100 kb, including the scattered mam and mms6 operons, could be functionally substituted by a compact and contiguous ~ 38 kb cassette comprising all essential biosynthetic gene clusters, but devoid of interspersing irrelevant or problematic gene content. Conclusions Our results further delineate the genetic complement for magnetosome biosynthesis and will be useful for future large-scale genome editing and genetic engineering of magnetosome biosynthesis.

Published

2021

48. Towards a 'chassis' for bacterial magnetosome biosynthesis: genome streamlining of Magnetospirillum gryphiswaldense by multiple deletions

Author

Theresa Zwiener, Marina Dziuba, Frank Mickoleit, Christian Rückert, Tobias Busche, Jörn Kalinowski, René Uebe, and Dirk Schüler

Subjects

Magnetospirillum gryphiswaldense, Magnetotactic bacteria, Magnetosomes, Genome reduction, Chassis, IS elements, Microbiology, QR1-502

Abstract

Abstract Background Because of its tractability and straightforward cultivation, the magnetic bacterium Magnetospirillum gryphiswaldense has emerged as a model for the analysis of magnetosome biosynthesis and bioproduction. However, its future use as platform for synthetic biology and biotechnology will require methods for large-scale genome editing and streamlining. Results We established an approach for combinatory genome reduction and generated a library of strains in which up to 16 regions including large gene clusters, mobile genetic elements and phage-related genes were sequentially removed, equivalent to ~ 227.6 kb and nearly 5.5% of the genome. Finally, the fragmented genomic magnetosome island was replaced by a compact cassette comprising all key magnetosome biosynthetic gene clusters. The prospective 'chassis' revealed wild type-like cell growth and magnetosome biosynthesis under optimal conditions, as well as slightly improved resilience and increased genetic stability. Conclusion We provide first proof-of-principle for the feasibility of multiple genome reduction and large-scale engineering of magnetotactic bacteria. The library of deletions will be valuable for turning M. gryphiswaldense into a microbial cell factory for synthetic biology and production of magnetic nanoparticles.

Published

2021

49. Characterization of Bacterial Transcriptional Regulatory Networks in Escherichia coli through Genome-Wide In Vitro Run-Off Transcription/RNA-seq (ROSE)

Author

Pascal Schmidt, David Brandt, Tobias Busche, and Jörn Kalinowski

Subjects

RNA-seq, run-off in vitro transcription, RNA polymerase, sigma factor, TSS, promoter, Biology (General), QH301-705.5

Abstract

The global characterization of transcriptional regulatory networks almost exclusively uses in vivo conditions, thereby providing a snapshot on multiple regulatory interactions at the same time. To complement these approaches, we developed and applied a method for characterizing bacterial promoters genome-wide by in vitro transcription coupled to transcriptome sequencing specific for native 5′-ends of transcripts. This method, called ROSE (run-off transcription/RNA-sequencing), only requires chromosomal DNA, ribonucleotides, RNA polymerase (RNAP) core enzyme, and a specific sigma factor, recognizing the corresponding promoters, which have to be analyzed. ROSE was performed on E. coli K-12 MG1655 genomic DNA using Escherichia coli RNAP holoenzyme (including σ70) and yielded 3226 transcription start sites, 2167 of which were also identified in in vivo studies, and 598 were new. Many new promoters not yet identified by in vivo experiments might be repressed under the tested conditions. Complementary in vivo experiments with E. coli K-12 strain BW25113 and isogenic transcription factor gene knockout mutants of fis, fur, and hns were used to test this hypothesis. Comparative transcriptome analysis demonstrated that ROSE could identify bona fide promoters that were apparently repressed in vivo. In this sense, ROSE is well-suited as a bottom-up approach for characterizing transcriptional networks in bacteria and ideally complementary to top-down in vivo transcriptome studies.

Published

2023

50. Activity-Based Protein Profiling for the Identification of Novel Carbohydrate-Active Enzymes Involved in Xylan Degradation in the Hyperthermophilic Euryarchaeon Thermococcus sp. Strain 2319x1E

Author

Thomas Klaus, Sabrina Ninck, Andreas Albersmeier, Tobias Busche, Daniel Wibberg, Jianbing Jiang, Alexander G. Elcheninov, Kseniya S. Zayulina, Farnusch Kaschani, Christopher Bräsen, Herman S. Overkleeft, Jörn Kalinowski, Ilya V. Kublanov, Markus Kaiser, and Bettina Siebers

Subjects

activity-based protein profiling, archaea, Thermococcus, xylan, hemicellulose degradation, glycoside hydrolases, Microbiology, QR1-502

Abstract

Activity-based protein profiling (ABPP) has so far scarcely been applied in Archaea in general and, especially, in extremophilic organisms. We herein isolated a novel Thermococcus strain designated sp. strain 2319x1E derived from the same enrichment culture as the recently reported Thermococcus sp. strain 2319x1. Both strains are able to grow with xylan as the sole carbon and energy source, and for Thermococcus sp. strain 2319x1E (optimal growth at 85°C, pH 6–7), the induction of xylanolytic activity in the presence of xylan was demonstrated. Since the solely sequence-based identification of xylanolytic enzymes is hardly possible, we established a complementary approach by conducting comparative full proteome analysis in combination with ABPP using α- or β-glycosidase selective probes and subsequent mass spectrometry (MS)-based analysis. This complementary proteomics approach in combination with recombinant protein expression and classical enzyme characterization enabled the identification of a novel bifunctional maltose-forming α-amylase and deacetylase (EGDIFPOO_00674) belonging to the GH57 family and a promiscuous β-glycosidase (EGIDFPOO_00532) with β-xylosidase activity. We thereby further substantiated the general applicability of ABPP in archaea and expanded the ABPP repertoire for the identification of glycoside hydrolases in hyperthermophiles.

Published

2022