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5. Fungi from metal-polluted streams may have high ability to cope with the oxidative stress induced by copper oxide nanoparticles

Author

Pradhan, A., Seena, S., Schlosser, Dietmar, Gerth, K., Helm, S., Dobritzsch, M., Krauss, G.-J., Dobritzsch, D., Pascoal, C., Cássio, F., Pradhan, A., Seena, S., Schlosser, Dietmar, Gerth, K., Helm, S., Dobritzsch, M., Krauss, G.-J., Dobritzsch, D., Pascoal, C., and Cássio, F.

Abstract

Increased commercialization of products based on metal oxide nanoparticles increases the likelihood that these nanoparticles will be released into aquatic environments, thus making relevant the assessment of their potential impacts on aquatic biota. Aquatic fungi are distributed worldwide and play a key role in organic matter turnover in freshwater ecosystems. The present study investigated the impacts of copper oxide spherical nanoparticles (CuO-NPs; <50 nm powder, 5 levels ≤200 mg/L) on cellular targets and antioxidant defenses in 5 fungal isolates collected from metal-polluted or nonpolluted streams. The CuO-NPs induced oxidative stress in aquatic fungi, as evidenced by intracellular accumulation of reactive oxygen species, and led to plasma membrane damage and DNA strand breaks in a concentration-dependent manner. Effects were more pronounced with a longer exposure time (3 d vs 10 d). Under CuO-NP exposure, mycelia of fungi collected from metal-polluted streams showed less oxidative stress and higher activities of superoxide dismutase and glutathione reductase compared with fungi from nonpolluted streams. The latter fungi responded to CuO-NPs with a stronger stimulation of glutathione peroxidase activity. These findings may indicate that fungi isolated from metal-polluted streams had a greater ability to maintain the pool of reduced glutathione than those from nonpolluted streams. Overall, results suggest that populations adapted to metals may develop mechanisms to cope with the oxidative stress induced by metal nanoparticles

Published
2015

6. Physiological responses to nanoCuO in fungi from non-polluted and metal-polluted streams

Author

Pradhan, A., Seena, S., Dobritzsch, D., Helm, S., Gerth, K., Dobritzsch, M., Krauss, G.-J., Schlosser, Dietmar, Pascoal, C., Cássio, F., Pradhan, A., Seena, S., Dobritzsch, D., Helm, S., Gerth, K., Dobritzsch, M., Krauss, G.-J., Schlosser, Dietmar, Pascoal, C., and Cássio, F.

Abstract

Nanocopper oxide (nanoCuO) is among the most widely used metal oxide nanoparticles which increases their chance of being released into freshwaters. Fungi are the major microbial decomposers of plant litter in streams. Fungal laccases are multicopper oxidase enzymes that are involved in the degradation of lignin and various xenobiotic compounds. We investigated the effects of nanoCuO (5 levels, ≤ 200 mg L− 1) on four fungal isolates collected from metal-polluted and non-polluted streams by analyzing biomass production, changes in mycelial morphology, laccase activity, and quantifying copper adsorbed to mycelia, and ionic and nanoparticulate copper in the growth media. The exposure to nanoCuO decreased the biomass produced by all fungi in a concentration- and time-dependent manner. Inhibition of biomass production was stronger in fungi from non-polluted (EC50(10 days) ≤ 31 mg L− 1) than from metal-polluted streams (EC50(10 days) ≥ 65.2 mg L− 1). NanoCuO exposure led to cell shrinkage and mycelial degeneration, particularly in fungi collected from non-polluted streams. Adsorption of nanoCuO to fungal mycelia increased with the concentration of nanoCuO in the medium and was higher in fungi from non-polluted streams. Extracellular laccase activity was induced by nanoCuO in two fungal isolates in a concentration-dependent manner, and was highly correlated with adsorbed Cu and/or ionic Cu released by dissolution from nanoCuO. Putative laccase gene fragments were also detected in these fungi. Lack of substantial laccase activity in the other fungal isolates was corroborated by the absence of laccase-like gene fragments.

Published
2013

7. Complete genome sequence of the myxobacterium Sorangium cellulosum

Author

Schneiker, S, Perlova, O, Kaiser, O, Gerth, K, Alici, A, Altmeyer, MO, Bartels, D, Bekel, T, Beyer, S, Bode, E HB, Bolten, CJ, Choudhuri, JV, Doss, S, Elnakady, YA, Frank, B, Gaigalat, L, Goesmann, A, Groeger, C, Gross, F, Jelsbak, Lars, Kalinowski, J, Kegler, C, Knauber, T, Konietzny, S, Kopp, M, Krause, L, Krug, D, Linke, B, Mahmud, T, Martinez-Arias, R, McHardy, AC, Merai, M, Meyer, F, Mormann, S, Muñoz-Dorado, J, Perez, J, Pradella, S, Rachid, S, Raddatz, G, Rosenau, F, Rückert, C, Sasse, F, Scharfe, M, Schuster, SC, Suen, G, Treuner-Lange, A, Velicer, GJ, Vorhölter, FJ, Weissman, KJ, Welch, RD, Wenzel, SC, Whitworth, DE, Wilhelm, S, Wittmann, C, Blöcker, H, Pühler, A, Müller, R, Schneiker, S, Perlova, O, Kaiser, O, Gerth, K, Alici, A, Altmeyer, MO, Bartels, D, Bekel, T, Beyer, S, Bode, E HB, Bolten, CJ, Choudhuri, JV, Doss, S, Elnakady, YA, Frank, B, Gaigalat, L, Goesmann, A, Groeger, C, Gross, F, Jelsbak, Lars, Kalinowski, J, Kegler, C, Knauber, T, Konietzny, S, Kopp, M, Krause, L, Krug, D, Linke, B, Mahmud, T, Martinez-Arias, R, McHardy, AC, Merai, M, Meyer, F, Mormann, S, Muñoz-Dorado, J, Perez, J, Pradella, S, Rachid, S, Raddatz, G, Rosenau, F, Rückert, C, Sasse, F, Scharfe, M, Schuster, SC, Suen, G, Treuner-Lange, A, Velicer, GJ, Vorhölter, FJ, Weissman, KJ, Welch, RD, Wenzel, SC, Whitworth, DE, Wilhelm, S, Wittmann, C, Blöcker, H, Pühler, A, and Müller, R

Published
2007

11. Novel expression hosts for complex secondary metabolite megasynthetases: Production of myxochromide in the thermopilic isolate Corallococcus macrosporus GT-2

Author

Zhang Youming, Kuhlmann Silvia, Gerth Klaus, Perlova Olena, and Müller Rolf

Subjects
Microbiology, QR1-502
Abstract

Abstract Although many secondary metabolites with diverse biological activities have been isolated from myxobacteria, most strains of these biotechnologically important gliding prokaryotes remain difficult to handle genetically. In this study we describe the new fast growing myxobacterial thermophilic isolate GT-2 as a heterologous host for the expression of natural product biosynthetic pathways isolated from other myxobacteria. According to the results of sequence analysis of the 16S rDNA, this moderately thermophilic isolate is closely related to Corallococcus macrosporus and was therefore named C. macrosporus GT-2. Fast growth of moderately thermophilic strains results in shorter fermentation and generation times, aspects which are of significant interest for molecular biological work as well as production of secondary metabolites. Development of a genetic manipulation system allowed the introduction of the complete myxochromide biosynthetic gene cluster, located on a transposable fragment, into the chromosome of GT-2. Genetic engineering of the biosynthetic gene cluster by promoter exchange leads to much higher production of myxochromides in the heterologous host C. macrosporus GT-2 in comparison to the original producer Stigmatella aurantiaca and to the previously described heterologous host Pseudomonas putida (600 mg/L versus 8 mg/L and 40 mg/L, respectively).

Published
2009
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12. Transnational trauma: trauma and psychiatry in the world and Taiwan, 1945-1995

Author

Wu, H, Mahone, S, and Gerth, K

Subjects
International,imperial and global history, History of medicine, History of Asia & Far East
Abstract

This study considers the history of trauma, both as a psychiatric concept and as a diagnosis, and its social and cultural representation from a transnational perspective after WWII. The intellectual evolution of trauma was determined by various medical, social and cultural variables, institutions, and people who wielded influence in the postwar world order as well as diverse local contexts. This thesis focuses on the globalisation and localisation of such concept and diagnosis shaped by international and local mental health experts at the World Health Organization and the National Taiwan University Hospital. Through the efforts of these experts, trauma not only became one of the most globally diffused psychiatric diagnoses, but also a hyperbole appropriated by Taiwanese psychiatrists to account for extreme forms of social suffering.Studies have criticised the universality and the Anglo-American-centred approach to the history of traumatic psychiatry. Scholars have also begun to explore transnational histories of psychiatry by systematically comparing or tracing the diffusion routes of psychiatric topics. Their methods of enquiry and problems solved, however, differ. My research analyses a disparate collection of evidence at the level of international organisations and from local aspects, allowing not only a critical reconsideration of trauma in the trend of global medicine, but also its reception, contestation and appropriation in the non-Western contexts. Guided by the works of medical historians, literary critics and cultural anthropologists, this project combines archival research with oral history interviews to challenge the existing historical accounts of trauma, and provide evidence of the limited capacity of globalised psychiatric norms and their reception and appropriation beyond the imagination of world citizenship. It argues that such scientific artefacts were not only produced through mutual reference between Eastern and Western experiences, but also measures of instrumental rationality employed by postwar internationalists to engineer their modernity in the Global South.

Published
2016

13. Laryngeal Mask Ventilation during Neonatal Resuscitation: A Case Series.

Author

White L, Gerth K, Threadgill V, Bedwell S, Szyld EG, and Shah BA

Abstract

Positive pressure ventilation via a facemask is a critical step in neonatal resuscitation but may be a difficult skill for frontline providers or trainees to master. A laryngeal mask is an alternative to endotracheal intubation for some newborns who require an advanced airway. We present the first case series in the United States in which a laryngeal mask was successfully utilized during resuscitation of newborns greater than or equal to 34 weeks' gestation following an interdisciplinary quality improvement collaborative and focused training program.

Published
2022
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14. Intervention and Improved Well-Being of Basic Science Researchers During the COVID 19 Era: A Case Study.

Author

Kumar S, Kodidela S, Kumar A, Gerth K, and Zhi K

Abstract

The coronavirus disease-19 (COVID-19) pandemic has affected individuals of all categories, irrespective of their geographical locations, professions, gender, or race. As a result of full or partial lock-down and stay-at-home orders, the well-being and productivity of individuals were severely affected. Since basic science research requires laboratory experiments, the work-from-home strategy hurt their productivity. In addition, the combination of decreased productivity and staying at home is likely to compromise their well-being by causing stress and anxiety. In this case study, a strategy was developed to engage researchers through listening and learning, motivation, and empowerment, using regular virtual sessions. Through these virtual sessions, research work was prioritized and coordinated, from idea conception to writing research papers and grant proposals. Perceived stress scores (PSS) and COVID-19-related stress (COVID-SS) scores were measured to evaluate general and COVID-19-induced stress, respectively, every month from March to July 2020 during the COVID-19 era. The result showed a significant improvement in both the PSS and the COVID-SS scores of the intervention group compared to the control group. In addition, while there was no/minimal change in PSS and COVID-SS scores from March to subsequent months until July for the control group, the intervention groups showed significant and consistent improvement in both scores in the intervention group. Overall, the intervention strategy showed improved well-being for basic science researchers, which was also consistent with their improved productivity during the COVID-19 era., (Copyright © 2020 Kumar, Kodidela, Kumar, Gerth and Zhi.)

Published
2020
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15. Circulatory Astrocyte and Neuronal EVs as Potential Biomarkers of Neurological Dysfunction in HIV-Infected Subjects and Alcohol/Tobacco Users.

Author

Kodidela S, Gerth K, Sinha N, Kumar A, Kumar P, and Kumar S

Abstract

The diagnosis of neurocognitive disorders associated with HIV infection, alcohol, and tobacco using CSF or neuroimaging are invasive or expensive methods, respectively. Therefore, extracellular vesicles (EVs) can serve as reliable noninvasive markers due to their bidirectional transport of cargo from the brain to the systemic circulation. Hence, our objective was to investigate the expression of astrocytic (GFAP) and neuronal (L1CAM) specific proteins in EVs circulated in the plasma of HIV subjects, with and without a history of alcohol consumption and tobacco smoking. The protein expression of GFAP ( p < 0.01) was significantly enhanced in plasma EVs obtained from HIV-positive subjects and alcohol users compared to healthy subjects, suggesting enhanced activation of astrocytes in those subjects. The L1CAM expression was found to be significantly elevated in cigarette smokers ( p < 0.05). However, its expression was not found to be significant in HIV subjects and alcohol users. Both GFAP and L1CAM levels were not further elevated in HIV-positive alcohol or tobacco users compared to HIV-positive nonsubstance users. Taken together, our data demonstrate that the astrocytic and neuronal-specific markers (GFAP and L1CAM) can be packaged in EVs and circulate in plasma, which is further elevated in the presence of HIV infection, alcohol, and/or tobacco. Thus, the astroglial marker GFAP and neuronal marker L1CAM may represent potential biomarkers targeting neurological dysfunction upon HIV infection and/or alcohol/tobacco consumption.

Published
2020
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16. Ahr1 and Tup1 Contribute to the Transcriptional Control of Virulence-Associated Genes in Candida albicans.

Author

Ruben S, Garbe E, Mogavero S, Albrecht-Eckardt D, Hellwig D, Häder A, Krüger T, Gerth K, Jacobsen ID, Elshafee O, Brunke S, Hünniger K, Kniemeyer O, Brakhage AA, Morschhäuser J, Hube B, Vylkova S, Kurzai O, and Martin R

Subjects
Candida albicans growth & development, Candida albicans metabolism, Fungal Proteins genetics, Fungal Proteins metabolism, Gene Expression Regulation, Fungal, Genes, Fungal, Hyphae growth & development, Life Cycle Stages genetics, Virulence genetics, Candida albicans genetics, Repressor Proteins genetics
Abstract

The capacity of Candida albicans to reversibly change its morphology between yeast and filamentous stages is crucial for its virulence. Formation of hyphae correlates with the upregulation of genes ALS3 and ECE1 , which are involved in pathogenicity processes such as invasion, iron acquisition, and host cell damage. The global repressor Tup1 and its cofactor Nrg1 are considered to be the main antagonists of hyphal development in C. albicans However, our experiments revealed that Tup1, but not Nrg1, was required for full expression of ALS3 and ECE1 In contrast to NRG1 , overexpression of TUP1 was found to inhibit neither filamentous growth nor transcription of ALS3 and ECE1 In addition, we identified the transcription factor Ahr1 as being required for full expression of both genes. A hyperactive version of Ahr1 bound directly to the promoters of ALS3 and ECE1 and induced their transcription even in the absence of environmental stimuli. This regulation worked even in the absence of the crucial hyphal growth regulators Cph1 and Efg1 but was dependent on the presence of Tup1. Overall, our results show that Ahr1 and Tup1 are key contributors in the complex regulation of virulence-associated genes in the different C. albicans morphologies. IMPORTANCE Candida albicans is a major human fungal pathogen and the leading cause of systemic Candida infections. In recent years, Als3 and Ece1 were identified as important factors for fungal virulence. Transcription of both corresponding genes is closely associated with hyphal growth. Here, we describe how Tup1, normally a global repressor of gene expression as well as of filamentation, and the transcription factor Ahr1 contribute to full expression of ALS3 and ECE1 in C. albicans hyphae. Both regulators are required for high mRNA amounts of the two genes to ensure functional relevant protein synthesis and localization. These observations identified a new aspect of regulation in the complex transcriptional control of virulence-associated genes in C. albicans ., (Copyright © 2020 Ruben et al.)

Published
2020
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17. Repurposing Antiviral Protease Inhibitors Using Extracellular Vesicles for Potential Therapy of COVID-19.

Author

Kumar S, Zhi K, Mukherji A, and Gerth K

Subjects
Betacoronavirus genetics, Betacoronavirus metabolism, COVID-19, Coronavirus Infections epidemiology, Coronavirus Infections virology, Drug Approval, Drug Delivery Systems, Humans, Pandemics, Pneumonia, Viral epidemiology, Pneumonia, Viral virology, SARS-CoV-2, Coronavirus Infections drug therapy, Drug Repositioning, Extracellular Vesicles chemistry, HIV Protease Inhibitors administration & dosage, Pneumonia, Viral drug therapy
Abstract

In January 2020, Chinese health agencies reported an outbreak of a novel coronavirus-2 (CoV-2) which can lead to severe acute respiratory syndrome (SARS). The virus, which belongs to the coronavirus family (SARS-CoV-2), was named coronavirus disease 2019 (COVID-19) and declared a pandemic by the World Health Organization (WHO). Full-length genome sequences of SARS-CoV-2 showed 79.6% sequence identity to SARS-CoV, with 96% identity to a bat coronavirus at the whole-genome level. COVID-19 has caused over 133,000 deaths and there are over 2 million total confirmed cases as of April 15th, 2020. Current treatment plans are still under investigation due to a lack of understanding of COVID-19. One potential mechanism to slow disease progression is the use of antiviral drugs to either block the entry of the virus or interfere with viral replication and maturation. Currently, antiviral drugs, including chloroquine/hydroxychloroquine, remdesivir, and lopinavir/ritonavir, have shown effective inhibition of SARS-CoV-2 in vitro. Due to the high dose needed and narrow therapeutic window, many patients are experiencing severe side effects with the above drugs. Hence, repurposing these drugs with a proper formulation is needed to improve the safety and efficacy for COVID-19 treatment. Extracellular vesicles (EVs) are a family of natural carriers in the human body. They play a critical role in cell-to-cell communications. EVs can be used as unique drug carriers to deliver protease inhibitors to treat COVID-19. EVs may provide targeted delivery of protease inhibitors, with fewer systemic side effects. More importantly, EVs are eligible for major aseptic processing and can be upscaled for mass production. Currently, the FDA is facilitating applications to treat COVID-19, which provides a very good chance to use EVs to contribute in this combat., Competing Interests: The authors declare no conflict of interest.

Published
2020
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18. Extracellular Vesicles in Smoking-Mediated HIV Pathogenesis and their Potential Role in Biomarker Discovery and Therapeutic Interventions.

Author

Haque S, Kodidela S, Gerth K, Hatami E, Verma N, and Kumar S

Subjects
Humans, Oxidative Stress, Biomarkers metabolism, Extracellular Vesicles pathology, HIV Infections physiopathology, Smoking adverse effects
Abstract

In the last two decades, the mortality rate in people living with HIV/AIDS (PLWHA) has decreased significantly, resulting in an almost normal longevity in this population. However, a large portion of this population still endures a poor quality of life, mostly due to an increased inclination for substance abuse, including tobacco smoking. The prevalence of smoking in PLWHA is consistently higher than in HIV negative persons. A predisposition to cigarette smoking in the setting of HIV potentially leads to exacerbated HIV replication and a higher risk for developing neurocognitive and other CNS disorders. Oxidative stress and inflammation have been identified as mechanistic pathways in smoking-mediated HIV pathogenesis and HIV-associated neuropathogenesis. Extracellular vesicles (EVs), packaged with oxidative stress and inflammatory agents, show promise in understanding the underlying mechanisms of smoking-induced HIV pathogenesis via cell-cell interactions. This review focuses on recent advances in the field of EVs with an emphasis on smoking-mediated HIV pathogenesis and HIV-associated neuropathogenesis. This review also provides an overview of the potential applications of EVs in developing novel therapeutic carriers for the treatment of HIV-infected individuals who smoke, and in the discovery of novel biomarkers that are associated with HIV-smoking interactions in the CNS.

Published
2020
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19. Circulating Extracellular Vesicles Containing Xenobiotic Metabolizing CYP Enzymes and Their Potential Roles in Extrahepatic Cells Via Cell-Cell Interactions.

Author

Gerth K, Kodidela S, Mahon M, Haque S, Verma N, and Kumar S

Subjects
Animals, Humans, Inactivation, Metabolic, Cell Communication, Cytochrome P-450 Enzyme System metabolism, Extracellular Vesicles metabolism, Liver enzymology, Xenobiotics metabolism
Abstract

The cytochrome P450 (CYP) family of enzymes is known to metabolize the majority of xenobiotics. Hepatocytes, powerhouses of CYP enzymes, are where most drugs are metabolized into non-toxic metabolites. Additional tissues/cells such as gut, kidneys, lungs, blood, and brain cells express selective CYP enzymes. Extrahepatic CYP enzymes, especially in kidneys, also metabolize drugs into excretable forms. However, extrahepatic cells express a much lower level of CYPs than hepatocytes. It is possible that the liver secretes CYP enzymes, which circulate via plasma and are eventually delivered to extrahepatic cells (e.g., brain cells). CYP circulation likely occurs via extracellular vesicles (EVs), which carry important biomolecules for delivery to distant cells. Recent studies have revealed an abundance of several CYPs in plasma EVs and other cell-derived EVs, and have demonstrated the role of CYP-containing EVs in xenobiotic-induced toxicity via cell-cell interactions. Thus, it is important to study the mechanism for packaging CYP into EVs, their circulation via plasma, and their role in extrahepatic cells. Future studies could help to find novel EV biomarkers and help to utilize EVs in novel interventions via CYP-containing EV drug delivery. This review mainly covers the abundance of CYPs in plasma EVs and EVs derived from CYP-expressing cells, as well as the potential role of EV CYPs in cell-cell communication and their application with respect to novel biomarkers and therapeutic interventions.

Published
2019
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20. Extracellular Vesicles: A Possible Link between HIV and Alzheimer's Disease-Like Pathology in HIV Subjects?

Author

Kodidela S, Gerth K, Haque S, Gong Y, Ismael S, Singh A, Tauheed I, and Kumar S

Subjects
Age Factors, Alzheimer Disease etiology, Amyloid beta-Peptides metabolism, Anti-Retroviral Agents adverse effects, HIV Infections complications, HIV Infections psychology, Humans, Alzheimer Disease metabolism, Anti-Retroviral Agents therapeutic use, Extracellular Vesicles metabolism, HIV Infections drug therapy
Abstract

The longevity of people with HIV/AIDS has been prolonged with the use of antiretroviral therapy (ART). The age-related complications, especially cognitive deficits, rise as HIV patients live longer. Deposition of beta-amyloid (Aβ), a hallmark of Alzheimer's disease (AD), has been observed in subjects with HIV-associated neurocognitive disorders (HAND). Various mechanisms such as neuroinflammation induced by HIV proteins (e.g., Tat, gp120, Nef), excitotoxicity, oxidative stress, and the use of ART contribute to the deposition of Aβ, leading to dementia. However, progressive dementia in older subjects with HIV might be due to HAND, AD, or both. Recently, extracellular vesicles (EVs)/exosomes, have gained recognition for their importance in understanding the pathology of both HAND and AD. EVs can serve as a possible link between HIV and AD, due to their ability to package and transport the toxic proteins implicated in both AD and HIV (Aβ/tau and gp120/tat, respectively). Given that Aß is also elevated in neuron-derived exosomes isolated from the plasma of HIV patients, it is reasonable to suggest that neuron-to-neuron exosomal transport of Aβ and tau also contributes to AD-like pathology in HIV-infected subjects. Therefore, exploring exosomal contents is likely to help distinguish HAND from AD. However, future prospective clinical studies need to be conducted to compare the exosomal contents in the plasma of HIV subjects with and without HAND as well as those with and without AD. This would help to find new markers and develop new treatment strategies to treat AD in HIV-positive subjects. This review presents comprehensive literatures on the mechanisms contributing to Aβ deposition in HIV-infected cells, the role of EVs in the propagation of Aβ in AD, the possible role of EVs in HIV-induced AD-like pathology, and finally, possible therapeutic targets or molecules to treat HIV subjects with AD.

Published
2019
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21. Glucose Metabolism Is Required for Platelet Hyperactivation in a Murine Model of Type 1 Diabetes.

Author

Fidler TP, Marti A, Gerth K, Middleton EA, Campbell RA, Rondina MT, Weyrich AS, and Abel ED

Subjects
Animals, Diabetes Mellitus, Type 1 genetics, Disease Models, Animal, Glucose Transporter Type 1 genetics, Glucose Transporter Type 1 metabolism, Glucose Transporter Type 3 genetics, Glucose Transporter Type 3 metabolism, Male, Mice, Mice, Knockout, Platelet Activation genetics, Platelet Activation physiology, Pulmonary Embolism metabolism, Pulmonary Embolism mortality, Blood Platelets metabolism, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Type 1 metabolism, Glucose metabolism
Abstract

Patients with type 1 diabetes mellitus (T1DM) have increased thrombosis and platelet activation. The mechanisms for platelet hyperactivation in diabetes are incompletely understood. T1DM is accompanied by hyperglycemia, dyslipidemia, and increased inflammation in addition to an altered hormonal milieu. In vitro analysis of platelets revealed that normal glucose reduces platelet activation whereas hyperglycemic conditions increase platelet activation. We therefore hypothesized that hyperglycemia increases platelet glucose utilization, which increases platelet activation to promote thrombosis. Glucose uptake and glycolysis were increased in platelets isolated from mice given streptozotocin (STZ) to induce T1DM in concert with induction of GLUT3. Platelets from STZ-induced diabetic mice exhibited increased activation after administration of protease-activated receptor 4 peptide and convulxin. In contrast, platelets isolated from GLUT1 and GLUT3 double-knockout (DKO) mice, which lack the ability to use glucose, failed to increase activation in hyperglycemic mice. Diabetic mice displayed decreased survival in a collagen/epinephrine-induced pulmonary embolism model of in vivo platelet activation relative to nondiabetic controls. Survival after pulmonary embolism was increased in diabetic DKO mice relative to nondiabetic controls. These data reveal that increased platelet glucose metabolism in vivo contributes to increased platelet activation and thrombosis in a model of T1DM., (© 2019 by the American Diabetes Association.)

Published
2019
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22. Correlating chemical diversity with taxonomic distance for discovery of natural products in myxobacteria.

Author

Hoffmann T, Krug D, Bozkurt N, Duddela S, Jansen R, Garcia R, Gerth K, Steinmetz H, and Müller R

Subjects
Biological Products metabolism, Drug Evaluation, Preclinical, Mass Spectrometry, Myxococcales classification, Myxococcales metabolism, Phylogeny, Biological Products chemistry, Myxococcales chemistry
Abstract

Some bacterial clades are important sources of novel bioactive natural products. Estimating the magnitude of chemical diversity available from such a resource is complicated by issues including cultivability, isolation bias and limited analytical data sets. Here we perform a systematic metabolite survey of ~2300 bacterial strains of the order Myxococcales, a well-established source of natural products, using mass spectrometry. Our analysis encompasses both known and previously unidentified metabolites detected under laboratory cultivation conditions, thereby enabling large-scale comparison of production profiles in relation to myxobacterial taxonomy. We find a correlation between taxonomic distance and the production of distinct secondary metabolite families, further supporting the idea that the chances of discovering novel metabolites are greater by examining strains from new genera rather than additional representatives within the same genus. In addition, we report the discovery and structure elucidation of rowithocin, a myxobacterial secondary metabolite featuring an uncommon phosphorylated polyketide scaffold.

Published
2018
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23. Arabidopsis phosphatidylinositol 4-phosphate 5-kinase 2 contains a functional nuclear localization sequence and interacts with alpha-importins.

Author

Gerth K, Lin F, Daamen F, Menzel W, Heinrich F, and Heilmann M

Subjects
Active Transport, Cell Nucleus, Arabidopsis genetics, Arabidopsis metabolism, Arabidopsis Proteins genetics, Meristem metabolism, Nuclear Localization Signals genetics, Nuclear Localization Signals metabolism, Phosphotransferases (Alcohol Group Acceptor) genetics, Plant Roots metabolism, Arabidopsis enzymology, Arabidopsis Proteins metabolism, Phosphotransferases (Alcohol Group Acceptor) metabolism, alpha Karyopherins metabolism
Abstract

The Arabidopsis phosphoinositide kinase PIP5K2 has been implicated in the control of membrane trafficking and is important for development and growth. In addition to cytosolic functions of phosphoinositides, a nuclear phosphoinositide system has been proposed, but evidence for nuclear phosphoinositides in plants is limited. Fluorescence-tagged variants of PIP5K2 reside in the nucleus of Arabidopsis root meristem cells, in addition to reported plasma membrane localization. Here we report on the interaction of PIP5K2 with alpha-importins and characterize its nuclear localization sequences (NLSs). The PIP5K2 sequence contains four putative NLSs (NLSa-NLSd) and only a PIP5K2 fragment containing NLSs is imported into nuclei of onion epidermis cells upon transient expression. PIP5K2 interacts physically with alpha-importin isoforms in cytosolic split-ubiquitin-based yeast two-hybrid tests, in dot-blot experiments and in immuno-pull-downs. A 27-amino-acid fragment of PIP5K2 containing NLSc is necessary and sufficient to mediate the nuclear import of a large cargo fusion consisting of two mCherry markers fused to RubisCO large subunit. Substitution of basic residues in NLSc results in reduced import of PIP5K2 or other cargoes into plant nuclei. The data suggest that PIP5K2 is subject to active, alpha-importin-mediated nuclear import, consistent with a nuclear role for PIP5K2 in addition to its reported cytosolic functions. The detection of both substrate and product of PIP5K2 in plant nuclei according to reporter fluorescence and immunofluorescence further supports the notion of a nuclear phosphoinositide system in plants. Variants of PIP5K2 with reduced nuclear residence might serve as tools for the future functional study of plant nuclear phosphoinositides., (© 2017 The Authors The Plant Journal © 2017 John Wiley & Sons Ltd.)

Published
2017
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24. Antimalarial activity of the myxobacterial macrolide chlorotonil a.

Author

Held J, Gebru T, Kalesse M, Jansen R, Gerth K, Müller R, and Mordmüller B

Subjects
Animals, Artemisinins pharmacology, Artesunate, Chloroquine pharmacology, Malaria, Falciparum parasitology, Mice, Mice, Inbred BALB C, Myxococcales metabolism, Parasitemia drug therapy, Parasitic Sensitivity Tests, Plasmodium berghei drug effects, Plasmodium falciparum isolation & purification, Antimalarials pharmacology, Hydrocarbons, Chlorinated pharmacology, Macrolides pharmacology, Malaria, Falciparum drug therapy, Plasmodium falciparum drug effects
Abstract

Myxobacteria are Gram-negative soil-dwelling bacteria belonging to the phylum Proteobacteria. They are a rich source of promising compounds for clinical application, such as epothilones for cancer therapy and several new antibiotics. In the course of a bioactivity screening program of secondary metabolites produced by Sorangium cellulosum strains, the macrolide chlorotonil A was found to exhibit promising antimalarial activity. Subsequently, we evaluated chlorotonil A against Plasmodium falciparum laboratory strains and clinical isolates from Gabon. Chlorotonil A was highly active, with a 50% inhibitory concentration between 4 and 32 nM; additionally, no correlations between the activities of chlorotonil A and artesunate (rho, 0.208) or chloroquine (rho, -0.046) were observed. Per os treatment of Plasmodium berghei-infected mice with four doses of as little as 36 mg of chlorotonil A per kg of body weight led to the suppression of parasitemia with no obvious signs of toxicity. Chlorotonil A acts against all stages of intraerythrocytic parasite development, including ring-stage parasites and stage IV to V gametocytes, and it requires only a very short exposure to the parasite to exert its antimalarial action. Conclusively, chlorotonil A has an exceptional and unprecedented profile of action and represents an urgently required novel antimalarial chemical scaffold. Therefore, we propose it as a lead structure for further development as an antimalarial chemotherapeutic., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published
2014
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25. The myxobacterial metabolite ratjadone A inhibits HIV infection by blocking the Rev/CRM1-mediated nuclear export pathway.

Author

Fleta-Soriano E, Martinez JP, Hinkelmann B, Gerth K, Washausen P, Diez J, Frank R, Sasse F, and Meyerhans A

Subjects
Active Transport, Cell Nucleus drug effects, Antiviral Agents pharmacology, Cell Line, HIV Core Protein p24 metabolism, Humans, Karyopherins antagonists & inhibitors, Protein Binding, Pyrones chemistry, Pyrones pharmacology, RNA, Messenger metabolism, Receptors, Cytoplasmic and Nuclear antagonists & inhibitors, rev Gene Products, Human Immunodeficiency Virus antagonists & inhibitors, Exportin 1 Protein, HIV Infections prevention & control, HIV-1 metabolism, Karyopherins metabolism, Myxococcales metabolism, Pyrones metabolism, Receptors, Cytoplasmic and Nuclear metabolism, rev Gene Products, Human Immunodeficiency Virus metabolism
Abstract

Background: The nuclear export of unspliced and partially spliced HIV-1 mRNA is mediated by the recognition of a leucine-rich nuclear export signal (NES) in the HIV Rev protein by the host protein CRM1/Exportin1. This makes the CRM1-Rev complex an attractive target for the development of new antiviral drugs. Here we tested the anti-HIV efficacy of ratjadone A, a CRM1 inhibitor derived from myxobacteria., Results: Ratjadone A inhibits HIV infection in vitro in a dose-dependent manner with EC₅₀ values at the nanomolar range. The inhibitory effect of ratjadone A occurs around 12 hours post-infection and is specific for the Rev/CRM1-mediated nuclear export pathway. By using a drug affinity responsive target stability (DARTS) assay we could demonstrate that ratjadone A interferes with the formation of the CRM1-Rev-NES complex by binding to CRM1 but not to Rev., Conclusion: Ratjadone A exhibits strong anti-HIV activity but low selectivity due to toxic effects. Although this limits its potential use as a therapeutic drug, further studies with derivatives of ratjadones might help to overcome these difficulties in the future.

Published
2014
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26. Myxobacterium-produced antibiotic TA (myxovirescin) inhibits type II signal peptidase.

Author

Xiao Y, Gerth K, Müller R, and Wall D

Subjects
Anti-Bacterial Agents biosynthesis, Aspartic Acid Endopeptidases genetics, Bacterial Proteins genetics, Chromosome Mapping, Chromosomes, Bacterial drug effects, Chromosomes, Bacterial genetics, Dose-Response Relationship, Drug, Drug Resistance, Bacterial genetics, Escherichia coli drug effects, Microbial Sensitivity Tests, Microscopy, Fluorescence, Mutagenesis, Peptides pharmacology, Plasmids genetics, Protein Biosynthesis drug effects, Anti-Bacterial Agents pharmacology, Aspartic Acid Endopeptidases antagonists & inhibitors, Bacterial Proteins antagonists & inhibitors, Macrolides pharmacology, Myxococcus xanthus metabolism, Protease Inhibitors pharmacology
Abstract

Antibiotic TA is a macrocyclic secondary metabolite produced by myxobacteria that has broad-spectrum bactericidal activity. The structure of TA is unique, and its molecular target is unknown. Here, we sought to elucidate TA's mode of action (MOA) through two parallel genetic approaches. First, chromosomal Escherichia coli TA-resistant mutants were isolated. One mutant that showed specific resistance toward TA was mapped and resulted from an IS4 insertion in the lpp gene, which encodes an abundant outer membrane (Braun's) lipoprotein. In a second approach, the comprehensive E. coli ASKA plasmid library was screened for overexpressing clones that conferred TA(r). This effort resulted in the isolation of the lspA gene, which encodes the type II signal peptidase that cleaves signal sequences from prolipoproteins. In whole cells, TA was shown to inhibit Lpp prolipoprotein processing, similar to the known LspA inhibitor globomycin. Based on genetic evidence and prior globomycin studies, a block in Lpp expression or prevention of Lpp covalent cell wall attachment confers TA(r) by alleviating a toxic buildup of mislocalized pro-Lpp. Taken together, these data argue that LspA is the molecular target of TA. Strikingly, the giant ta biosynthetic gene cluster encodes two lspA paralogs that we hypothesize play a role in producer strain resistance.

Published
2012
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27. Unusual outer membrane lipid composition of the gram-negative, lipopolysaccharide-lacking myxobacterium Sorangium cellulosum So ce56.

Author

Keck M, Gisch N, Moll H, Vorhölter FJ, Gerth K, Kahmann U, Lissel M, Lindner B, Niehaus K, and Holst O

Subjects
Cell Membrane genetics, Genome, Bacterial physiology, Lipopolysaccharides, Membrane Lipids genetics, Myxococcales genetics, Cell Membrane metabolism, Membrane Lipids metabolism, Myxococcales metabolism
Abstract

The gram-negative myxobacterium Sorangium cellulosum So ce56 bears the largest bacterial genome published so far, coding for nearly 10,000 genes. Careful analysis of this genome data revealed that part of the genes coding for the very well conserved biosynthesis of lipopolysaccharides (LPS) are missing in this microbe. Biochemical analysis gave no evidence for the presence of LPS in the membranes of So ce56. By analyzing the lipid composition of its outer membrane sphingolipids were identified as the major lipid class, together with ornithine-containing lipids (OL) and ether lipids. A detailed analysis of these lipids resulted in the identification of more than 50 structural variants within these three classes, which possessed several interesting properties regarding to LPS replacement, mediators in myxobacterial differentiation, as well as potential bioactive properties. The sphingolipids with the basic structure C9-methyl-C(20)-sphingosine possessed as an unusual trait C9-methylation, which is common to fungi but highly uncommon to bacteria. Such sphingolipids have not been found in bacteria before, and they may have a function in myxobacterial development. The OL, also identified in myxobacteria for the first time, contained acyloxyacyl groups, which are also characteristic for LPS and might replace those in certain functions. Finally, the ether lipids may serve as biomarkers in myxobacterial development.

Published
2011
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28. Establishment of a high content assay for the identification and characterisation of bioactivities in crude bacterial extracts that interfere with the eukaryotic cell cycle.

Author

Jensen NA, Gerth K, Grotjohann T, Kapp D, Keck M, and Niehaus K

Subjects
Animals, Cell Cycle drug effects, Cell Line, Cell Proliferation drug effects, Colchicine pharmacology, Coloring Agents metabolism, Cytochalasin D pharmacology, Drug Discovery, Fluorescent Dyes metabolism, Macrolides pharmacology, Paclitaxel pharmacology, Ploidies, Pyrrolidinones pharmacology, Complex Mixtures pharmacology, Cytostatic Agents pharmacology, Image Processing, Computer-Assisted methods, Microscopy methods, Myxococcales metabolism
Abstract

High content microscopy as a screening tool to identify bioactive agents has provided researchers with the ability to characterise biological activities at the level of single cells. Here, we describe the development and the application of a high content screening assay for the identification and characterisation of cytostatic bioactivities from Myxobacteria extracts. In an automated microscopy assay Sf9 insect cells were visualised utilising the stains bisbenzimide Hoechst 33342, calcein AM, and propidium iodide. Imaging data were processed by the ScanR Analysis-software to determine the ploidy and vitality of each cell and to quantify cell populations. More than 98% of the Sf9 cells were viable and the culture consisted of diploid ( approximately 30%), tetraploid ( approximately 60%), polyploidic (<10%) and apoptotic (<5%) cells. Treatment with the reference substances blasticidin, colchicine, paclitaxel, and cytochalasin D induced changes in ploidy and vitality, which were characteristic for the respective bioactive substance. Furthermore, crude extracts from the chivosazole producing Myxobacterium Sorangium cellulosum So ce56 induced an increase of polyploid cells and a decrease in total cell count, while a mutant producing nearly no chivosazole triggered none of these effects. Purified chivosazole induced the same effects as the wild type extract. Similar effects have been observed for the reference compound cytochalasin D. On the basis of this assay, crude extracts of ten different Myxobacteria cultures were screened. Three extracts exhibited strong cytotoxic activities, further five extracts induced weak changes in the ploidy distribution, and two extracts showed no detectable effect within the assay. Therefore, this robust assay provides the ability to discover and characterise cytotoxic and cytostatic bioactivities in crude bacterial extracts.

Published
2009
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29. Mutation in the rel gene of Sorangium cellulosum affects morphological and physiological differentiation.

Author

Knauber T, Doss SD, Gerth K, Perlova O, Müller R, and Treuner-Lange A

Subjects
Bacterial Proteins chemistry, Bacterial Proteins genetics, Genetic Complementation Test, Guanosine Pentaphosphate metabolism, Ligases chemistry, Ligases genetics, Macrolides metabolism, Myxococcales cytology, Myxococcales physiology, Protein Structure, Tertiary, Transcription, Genetic, Bacterial Proteins metabolism, Ligases metabolism, Mutation, Myxococcales enzymology, Myxococcales genetics
Abstract

Interruption of the (p)ppGpp synthetase gene (rel) of Sorangium cellulosum So ce56 resulted in loss of ppGpp accumulation after norvaline treatment during exponential growth phase. The rel mutant failed to produce wild-type levels of the polyketides chivosazol and etnangien in production media. In wild-type cells expression of the chivosazol biosynthetic operon can be significantly increased by norvaline or alpha-methylglucoside. This induction does not occur in the rel mutant. The rel mutant also lost the capability to form multicellular fruiting bodies under nutrient starvation.

Published
2008
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30. Complete genome sequence of the myxobacterium Sorangium cellulosum.

Author

Schneiker S, Perlova O, Kaiser O, Gerth K, Alici A, Altmeyer MO, Bartels D, Bekel T, Beyer S, Bode E, Bode HB, Bolten CJ, Choudhuri JV, Doss S, Elnakady YA, Frank B, Gaigalat L, Goesmann A, Groeger C, Gross F, Jelsbak L, Jelsbak L, Kalinowski J, Kegler C, Knauber T, Konietzny S, Kopp M, Krause L, Krug D, Linke B, Mahmud T, Martinez-Arias R, McHardy AC, Merai M, Meyer F, Mormann S, Muñoz-Dorado J, Perez J, Pradella S, Rachid S, Raddatz G, Rosenau F, Rückert C, Sasse F, Scharfe M, Schuster SC, Suen G, Treuner-Lange A, Velicer GJ, Vorhölter FJ, Weissman KJ, Welch RD, Wenzel SC, Whitworth DE, Wilhelm S, Wittmann C, Blöcker H, Pühler A, and Müller R

Subjects
Base Sequence, Biotechnology, Molecular Sequence Data, Myxococcales classification, Phylogeny, Sequence Analysis, DNA, Genome, Bacterial genetics, Myxococcales genetics, Myxococcales metabolism
Abstract

The genus Sorangium synthesizes approximately half of the secondary metabolites isolated from myxobacteria, including the anti-cancer metabolite epothilone. We report the complete genome sequence of the model Sorangium strain S. cellulosum So ce56, which produces several natural products and has morphological and physiological properties typical of the genus. The circular genome, comprising 13,033,779 base pairs, is the largest bacterial genome sequenced to date. No global synteny with the genome of Myxococcus xanthus is apparent, revealing an unanticipated level of divergence between these myxobacteria. A large percentage of the genome is devoted to regulation, particularly post-translational phosphorylation, which probably supports the strain's complex, social lifestyle. This regulatory network includes the highest number of eukaryotic protein kinase-like kinases discovered in any organism. Seventeen secondary metabolite loci are encoded in the genome, as well as many enzymes with potential utility in industry.

Published
2007
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31. Deciphering regulatory mechanisms for secondary metabolite production in the myxobacterium Sorangium cellulosum So ce56.

Author

Rachid S, Gerth K, Kochems I, and Müller R

Subjects
Multigene Family, Myxococcales chemistry, Myxococcales classification, Gene Expression Regulation, Bacterial physiology, Genes, Bacterial genetics, Macrolides metabolism, Myxococcales genetics, Myxococcales metabolism
Abstract

Sorangium cellulosum strains produce approximately 50% of the biologically active secondary metabolites known from myxobacteria. These metabolites include several compounds of biotechnological importance such as the epothilones and chivosazols, which, respectively, stabilize the tubulin and actin skeletons of eukaryotic cells. S. cellulosum is characterized by its slow growth rate, and natural products are typically produced in low yield. In this study, biomagnetic bead separation of promoter-binding proteins and subsequent inactivation experiments were employed to identify the chivosazol regulator, ChiR, as a positive regulator of chivosazol biosynthesis in the genome-sequenced strain So ce56. Overexpression of chiR under the control of T7A1 promoter in a merodiploid mutant resulted in fivefold overproduction of chivosazol in a kinetic shake flask experiment, and 2.5-fold overproduction by fermentation. Using quantitative reverse transcription PCR and gel shift experiments employing heterologously expressed ChiR, we have shown that transcription of the chivosazol biosynthetic genes (chiA-chiF) is directly controlled by this protein. In addition, we have demonstrated that ChiR serves as a pleiotropic regulator in S. cellulosum, because mutant strains lack the ability to develop into regular fruiting bodies.

Published
2007
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32. Metabolic engineering of Pseudomonas putida for methylmalonyl-CoA biosynthesis to enable complex heterologous secondary metabolite formation.

Author

Gross F, Ring MW, Perlova O, Fu J, Schneider S, Gerth K, Kuhlmann S, Stewart AF, Zhang Y, and Müller R

Subjects
Acyl Coenzyme A biosynthesis, Amino Acid Sequence, Gene Expression Regulation, Gene Transfer Techniques, Methacrylates metabolism, Molecular Sequence Data, Myxococcales genetics, Operon genetics, Sequence Alignment, Thiazoles metabolism, Acyl Coenzyme A genetics, Acyl Coenzyme A metabolism, Genetic Engineering methods, Pseudomonas putida genetics, Pseudomonas putida metabolism
Abstract

An operon consisting of three open reading frames, annotated in silico as methylmalonyl-CoA (mm-CoA) epimerase, mm-CoA mutase (MCM), and meaB, was identified in the sequencing project of the myxobacterium Sorangium cellulosum So ce56. This putative MCM pathway operon was subcloned from a bacterial artificial chromosome by Red/ET recombineering onto a minimal replicon derived from p15A. This plasmid was modified for integration and heterologous expression in Pseudomonas putida to enable the production of complex secondary metabolites requiring mm-CoA as precursor. Methylmalonate was identified in the recombinant P. putida strain by an analysis method based on gas chromatography/mass spectrometry. The engineered strain is able to synthesize polyketides requiring mm-CoA as an extender unit, which was demonstrated by the production of myxothiazol after integration of the biosynthetic gene cluster into the chromosome, followed by induction of expression.

Published
2006
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33. Development of simple media which allow investigations into the global regulation of chivosazol biosynthesis with Sorangium cellulosum So ce56.

Author

Müller R and Gerth K

Subjects
Culture Media chemistry, Macrolides metabolism, Myxococcales growth & development
Abstract

Media, completely different with respect to their complexity, were investigated for growth and secondary metabolism with Sorangium cellulosum strain So ce56. While technical substrates are best for metabolite production, these media are not suitable to study gene expressions. Free amino acids as present in soluble media based on peptones were found to inhibit polyketide biosynthesis. Therefore synthetic growth and production media were developed. Different nitrogen- and carbon sources as well as trace elements were studied with respect to growth and regulation of chivosazol biosynthesis. A simple defined medium with asparagine as nitrogen source, glucose as carbon source and zinc ions as essential trace element is proposed for future studies into secondary metabolism using transcriptomics and proteomics.

Published
2006
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34. Identification and analysis of the chivosazol biosynthetic gene cluster from the myxobacterial model strain Sorangium cellulosum So ce56.

Author

Perlova O, Gerth K, Kaiser O, Hans A, and Müller R

Subjects
Myxococcales enzymology, Genes, Bacterial genetics, Ligases genetics, Macrolides metabolism, Multienzyme Complexes genetics, Multigene Family genetics, Myxococcales genetics
Abstract

Myxobacteria belonging to the genus Sorangium are known to produce a variety of biologically active secondary metabolites. Chivosazol is a macrocyclic antibiotic active against yeast, filamentous fungi and especially against mammalian cells. The compound specifically destroys the actin skeleton of eucaryotic cells and does not show activity against bacteria. Chivosazol contains an oxazole ring and a glycosidically bound 6-deoxyglucose (except for chivosazol F). In this paper we describe the biosynthetic gene cluster that directs chivosazol biosynthesis in the model strain Sorangium cellulosum So ce56. This biosynthetic gene cluster spans 92 kbp on the chromosome and contains four polyketide synthase genes and one hybrid polyketide synthase/nonribosomal peptide synthetase gene. An additional gene encoding a protein with similarity to different methyltransferases and presumably involved in post-polyketide modification was identified downstream of the core biosynthetic gene cluster. The chivosazol biosynthetic gene locus belongs to the recently identified and rapidly growing class of trans-acyltransferase polyketide synthases, which do not contain acyltransferase domains integrated into the multimodular megasynthetases.

Published
2006
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35. Establishment of a real-time PCR protocol for expression studies of secondary metabolite biosynthetic gene clusters in the G/C-rich myxobacterium Sorangium cellulosum So ce56.

Author

Kegler C, Gerth K, and Müller R

Subjects
Gene Expression Profiling methods, Ligases genetics, Myxococcales genetics, Gene Expression Regulation, Bacterial physiology, Gene Expression Regulation, Enzymologic physiology, Ligases biosynthesis, Macrolides metabolism, Myxococcales enzymology, Reverse Transcriptase Polymerase Chain Reaction methods
Abstract

In the attempt to establish a reliable real-time PCR protocol for transcriptional analysis of secondary metabolism in Sorangium cellulosum strain So ce56, a RNA extraction method and a reverse transcription protocol was developed. In order to validate chivosazol or etnangien gene cluster transcripts as good candidates to develop the real-time PCR protocol, stability measurements of the transcripts were performed proving both transcripts to be very stable. The chivosazol biosynthetic gene cluster was taken as the test case to evaluate the special problems arising from the large size of the transcripts and the high G/C-content of the encoding DNA. A set of primer pairs targeting the presumed 90 kbp chivosazol transcript at different positions was employed. The production rate of chivosazol was compared to the transcription of the operon in time course experiments revealing that during the logarithmic growth phase transcription is maximally induced and levels out during the stationary phase. Some deviations in transcript numbers could be measured depending on the primer pair used, but cross-evaluation strengthened the notion that the measured numbers reflect the whole transcript quantities and the in vivo level. Finally, a putative promoter located between chiA and chiB was examined by using the developed real-time PCR protocol.

Published
2006
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36. Critical variations of conjugational DNA transfer into secondary metabolite multiproducing Sorangium cellulosum strains So ce12 and So ce56: development of a mariner-based transposon mutagenesis system.

Author

Kopp M, Irschik H, Gross F, Perlova O, Sandmann A, Gerth K, and Müller R

Subjects
DNA Transposable Elements genetics, DNA, Bacterial genetics, DNA-Binding Proteins genetics, Escherichia coli genetics, Escherichia coli metabolism, Gene Expression Regulation, Bacterial genetics, Gene Transfer Techniques, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Transposases, Conjugation, Genetic genetics, DNA-Binding Proteins biosynthesis, Macrolides metabolism, Mutagenesis, Site-Directed genetics, Myxococcales genetics, Myxococcales metabolism, Protein Engineering methods
Abstract

Myxobacteria increasingly gain attention as a source of bioactive natural products. The genus Sorangium produces almost half of the secondary metabolites isolated from these microorganisms. Nevertheless, genetic systems for Sorangium strains are poorly developed, which makes the identification of the genes directing natural product biosynthesis difficult. Using biparental and triparental mating, we have developed methodologies for DNA transfer from Escherichia coli via conjugation for the genome sequencing model strain So ce56 and the secondary metabolite multiproducing strain So ce12. The conjugation protocol developed for strain So ce56 is not applicable to other Sorangium strains. Crucial points for the conjugation are the ratio of E. coli and Sorangium cellulosum cells, the choice of liquid or solid medium, the time used for the conjugation process and antibiotic selection in liquid medium prior to the plating of cells. A mariner-based transposon containing a hygromycin resistance gene was generated and used as the selectable marker for S. cellulosum. The transposon randomly integrates into the chromosome of both strains. As a proof of principle, S. cellulosum So ce12 transposon mutants were screened using an overlay assay to target the chivosazole biosynthetic gene cluster.

Published
2004
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37. Myxobacteria: proficient producers of novel natural products with various biological activities--past and future biotechnological aspects with the focus on the genus Sorangium.

Author

Gerth K, Pradella S, Perlova O, Beyer S, and Müller R

Subjects
Biotechnology methods, Genome, Bacterial, Species Specificity, Epothilones metabolism, Gene Expression Regulation, Bacterial physiology, Genetic Engineering methods, Lactones metabolism, Macrolides metabolism, Myxococcales genetics, Myxococcales metabolism
Abstract

Myxobacteria are gram-negative bacteria which are most noted for their ability to form fruiting bodies upon starvation. Within the last two decades, they increasingly gained attention as producers of natural products with biological activity. Here, recent and future biotechnological research on certain key myxobacteria and on their ability to produce natural products is reviewed with the focus on the production of myxovirescin, soraphen and epothilone. Aspects of product improvement and yield as well as statistics regarding secondary metabolite formation are discussed. Future research will deal with the exploitation of the biosynthetic potential of the myxobacteria, for example via the isolation of new myxobacterial species with different physiological properties. Additionally, the genetic potential of myxobacteria to form natural products can be exploited by the identification and activation of biosynthetic gene clusters. These can be found frequently within their genomes, which is shown by the analysis of the unfinished genomes of Myxococcus xanthus and Sorangium cellulosum. The current status of the S. cellulosum functional genome project with model strain So ce56 is discussed.

Published
2003
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