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Peronospora belbahrii is one of the most destructive downy mildew diseases that has emerged throughout the past two decades. Due to the lack of quarantine regulations and its possible seed-borne nature, it has spread globally and is now present in most areas in which basil is produced. While most obligate biotrophic, plant parasitic oomycetes are highly host-specific, there are a few that have a wider host range, e.g. Albugo candida, Bremia tulasnei, and Pseudoperonospora cubensis. Recently, it was shown that Peronospora belbahrii is able to infect Rosmarinus, Nepetia, and Micromeria in Israel in cross-infection trials, hinting an extended host range for also this pathogen. In this study, a newly occurring downy mildew pathogen on lavender was investigated with respect to its morphology and phylogeny, and it is shown that it belongs to Peronospora belbahrii as well. Thus, it seems that Peronospora belbahrii is currently extending its host range to additional members of the tribe Mentheae and Ocimeae. Therefore, it seems advisable to scrutinise all commonly used members of these tribes in order to avoid further spread of virulent genotypes.
In Zeiten der globalen Klimaerwärmung und des Klimawandels werden Strategien zur Vermeidung, Reduzierung oder Wiederverwertung von CO2-Emissionen sowie die Abkehr von fossilen Energieträgern immer wichtiger. Aus diesem Grund finden Technologien zur Bindung, Speicherung und Wiederverwertung von CO2 immer größere Aufmerksamkeit und diverse chemische als auch biologische Ansätze werden verfolgt. Eine dieser Möglichkeiten umfasst die Reduktion von CO2 mit Hilfe von molekularem Wasserstoff. Im Prozess der direkten Hydrogenierung von CO2 zu Ameisensäure bzw. Formiat wird nicht nur CO2 gebunden, sondern ebenfalls H2 in flüssiger Form gespeichert. Die Ameisensäure weist gegenüber dem hochflüchtigen Wasserstoffgas verschiedene Vorteile auf und zählt zu der Gruppe der flüssigen, organischen Wasserstoffspeicherverbindungen. Daneben ist das Einsatzgebiet von Ameisensäure als Ausgangstoff für Chemikalien oder als mikrobielle Kohlenstoffquelle sehr vielseitig und die Verbindung erfreut sich zunehmenden Interesses.
Die Natur hält biologische Katalysatoren (Enzyme) für die Reduktion von CO2 bereit. Die Gruppe der obligat anaeroben, acetogenen Bakterien verwendet so genannte Formiatdehydrogenasen als CO2-Reduktasen, um CO2 im Wood-Ljungdahl-Weg (WLP) der Bakterien fixieren zu können. Diese Enzyme katalysieren die reversible 2-Elektronen Reduktion von CO2 zu Ameisensäure. Kürzlich konnte aus den beiden Vertretern A. woodii (mesophil) und T. kivui (thermophil) ein neuartiger, cytoplasmatischer Enzymkomplex isoliert werden. Dieser Enzymkomplex koppelt die Reduktion von CO2 direkt an die Oxidation von H2 und wird deshalb als Wasserstoff-abhängige CO2-Reduktase bezeichnet (engl. hydrogen-dependent CO2 reductase, HDCR). Die HDCR katalysiert dabei die reversible Hydrogenierung von CO2 zu Formiat mit annähernd gleicher Kinetik und gleichen Umsatzraten. Die bei der CO2 Reduktion erreichten Umsatzraten übertrafen dabei bisherige chemische als auch biologische Katalysatoren um mehre Größenordnungen.
Im Hinblick auf die besonderen katalytischen Eigenschaften der HDCRs wurde in dieser Arbeit die biotechnologische Anwendbarkeit der Enzyme als Biokatalysatoren zur Speicherung und Sequestrierung von H2 und CO2 in Form von Ameisensäure untersucht. Im Speziellen wurde ein HDCR-basiertes Ganz-Zell-System für das thermophile Bakterium T. kivui entwickelt. Um eine Ganz-Zell basierte Umwandlung von H2 und CO2 zu Formiat zu gewährleisten, wurde zuvor die Weiterverwertung des Formiats zu Acetat im WLP gestoppt. Durch eine Reduktion des zellulären ATP-Gehalts konnte eine weitere Prozessierung des aus der HDCR-Reaktion gebildeten Formiats im Zellstoffwechsel des Bakteriums unterbunden werden. Die Formiatbildung aus H2 und CO2 wurde in Zellsuspensionen von T. kivui untersucht und charakterisiert. Hier zeigten T. kivui Zellen die höchste spezifische Formiatbildungsrate, die bis dato in der Literatur genannt wurde. Ebenfalls wurde in dieser Arbeit die Umwandlung von Synthesegas (H2 + CO2 und CO) und CO zu Formiat geprüft. Bioenergetisch entkoppelte und auf CO-adaptierte T. kivui Zellen konnten in der Tat Synthesegas exklusiv zu Formiat umsetzen. Um die CO-Verwertung zu Acetat und Formiat im Stoffwechsel der Rnf- (A. woodii) und Ech-Acetogenen (T. kivui) verstehen zu können, wurden Mutanten von Δhdcr, ΔcooS, ΔhydBA, Δrnf and Δech2 von A. woodii und T. kivui zur Hilfe genommen. In beiden Organismen war die CO-basierte Formiatbildung vom Vorhandensein eines funktionalen HDCR-Enzymkomplexes abhängig.
Für eine mögliche biotechnologische Anwendung wurde die Maßstabsvergrößerung des Ganz-Zell-Systems angestrebt und hin zum Bioreaktormaßstab mit kontrollierten Prozessbedingungen skaliert. Diese Arbeit demonstriert die effiziente Umwandlung von H2 und CO2 zu Formiat und vice versa unter Verwendung eines Rührkesselreaktors. Der Prozess zeigte eine Effizienz von 100% für die Umwandlung von CO2 zu Formiat und spezifische Raten von 48.3 mmol g-1 h-1 wurden von A. woodii Zellen erreicht. Die spezifische H2-Produktionsrate (qH2) aus der Ameisensäureoxidation betrug 27.6 mmol g-1 h-1 und mehr als 2.12 M Ameisensäure konnte über einen Zeitraum von 195 h oxidiert werden. Wichtige Parameter der Enzymkatalyse wie Wechselzahl (engl. turnover frequency, TOF) und katalytische Produktivität (engl. turnover number, TON) wurden ebenfalls im Versuch bestimmt. Basierend auf dem generierten Prozessverständnis und der effizienten Reversibilität der katalysierten Reaktionen wurde abschließend ein Ganz-Zell-basierter Bioreaktoraufbau gewählt, der die vielfache Speicherung und Freisetzung von H2 in einem einzigen Rührkesselreaktor und unter Verwendung des gleichen Katalysators ermöglicht. Über eine Prozesszeit von 2 Wochen und 15 CO2 Reduktions-/Formiat Oxidations-Zyklen konnte so im Mittel 330 mM Formiat produziert und oxidiert werden.
Zusammenfassend thematisiert diese Arbeit die biotechnologische Anwendbarkeit eines Ganz-Zell-Systems zur Speicherung und Sequestrierung von H2 und CO2 in Form von Formiat und vice versa. Die katalytische Aktivität der betrachteten Organismen fußt dabei auf der Aktivität eines neuartigen Enzymkomplexes, der erstmals in der Gruppe der acetogenen Bakterien entdeckt wurde. Der als Wasserstoff-abhängige CO2-Reduktase bezeichnete Enzymkomplex könnte die zukünftige Konzipierung Enzym-inspirierter und effizienter chemischer Katalysatoren vorantreiben. Auch der Einsatz des Enzyms/der Zellen in so genannten Hydrogelen oder die Etablierung elektrochemischer Prozesse sind vorstellbar. Diese Arbeit stellt somit eine Basis für mögliche zukünftige Anwendungen des etablierten Ganz-Zell-Systems von A. woodii und T. kivui im Bereich der Wasserstoffökonomie dar.
The increasing demand of the high value ω-3 fatty acids due to its beneficial role for human health, explains the huge need for alternative production ways of ω-3 fatty acids. The oleaginous alga Phaeodactylum tricornutum is a prominent candidate and has been investigated as biofactory for ω-3 fatty acids, e.g. the synthesis of eicosapentaenoic acid (EPA). In general, the growth and the lipid content of diatoms can be enhanced by genetic engineering or are influenced by environmental factors, e.g. nutrients, light or temperature.
In this study, the potential of P. tricornutum as biofactory was improved by heterologously expressing the hexose uptake protein 1 (HUP1) from the Chlorophyte Chlorella kessleri.
An in situ localization study revealed that only the full length HUP1 protein fused to eGFP was correctly targeted to the plasma membrane, whereas the N-terminal sequence of the protein is only sufficient to enter the ER. Protein and gene expression data displayed that the gene-promoter combination was relevant for the expression level of HUP1, while only cells expressing the protein under the light-inducible fcpA promoter showed a significant expression. In these mutants an efficient glucose uptake was detectable under mixotrophic growth condition, low light intensities and low glucose concentrations leading to an increased cell dry weight.
In a second approach, the growth and lipid content of wildtype cells were analyzed in a small 1l photobioreactor. Here, a commercial F/2 medium and a common culture medium, ASP and modified versions were compared. There was neither a significant impact on the growth and lipid content in P. tricornutum cells due to the supplemention of trace elements nor due to elevated salt concentrations in the media. In a modified version of ASP medium, with adapted nitrate and phosphate concentration a constantly high biomass productivity was achieved, yielding the highest value of 82 mg l-1 d-1 during the first three days. This was achieved even though light intensity was reduced by 40%. The differences in biomass productivity as well as the lipid content and the lipid composition underlined the importance of the choice of culture medium and the harvest time for enhanced growth and EPA yields in P. tricornutum.
Non-technical summary: There has been a long history of conflicts, studies, and debate over how to both protect rivers and develop them sustainably. With a pause in new developments caused by the global pandemic, anticipated further implementation of the Paris Agreement and high-level global climate and biodiversity meetings in 2021, now is an opportune moment to consider the current trajectory of development and policy options for reconciling dams with freshwater system health. Technical summary: We calculate potential loss of free-flowing rivers (FFRs) if proposed hydropower projects are built globally. Over 260,000 km of rivers, including Amazon, Congo, Irrawaddy, and Salween mainstem rivers, would lose free-flowing status if all dams were built. We propose a set of tested and proven solutions to navigate trade-offs associated with river conservation and dam development. These solution pathways are framed within the mitigation hierarchy and include (1) avoidance through either formal river protection or through exploration of alternative development options; (2) minimization of impacts through strategic or system-scale planning or re-regulation of downstream flows; (3) restoration of rivers through dam removal; and (4) mitigation of dam impacts through biodiversity offsets that include restoration and protection of FFRs. A series of examples illustrate how avoiding or reducing impacts on rivers is possible – particularly when implemented at a system scale – and can be achieved while maintaining or expanding benefits for climate resilience, water, food, and energy security. Social media summary: Policy solutions and development pathways exist to navigate trade-offs to meet climate resilience, water, food, and energy security goals while safeguarding FFRs.
The ORCID iDs are missing for the second, fifth, and sixth authors. Please see the authors’ respective ORCID iDs here:
Author Christine Hertler’s ORCID iD is: 0000-0002-8252-9674 (https://orcid.org/0000-0002-8252-9674).
Author Jan Ole Berndt’s ORCID iD is: 0000-0001-7241-3291 (https://orcid.org/0000-0001-7241-3291).
Author Ingo J. Timm’s ORCID iD is: 0000-0002-3369-813X (https://orcid.org/0000-0002-3369-813X).
Neuro-vascular communication is essential to synchronize central nervous system development. Here, we identify angiopoietin/Tie2 as a neuro-vascular signaling axis involved in regulating dendritic morphogenesis of Purkinje cells (PCs). We show that in the developing cerebellum Tie2 expression is not restricted to blood vessels, but it is also present in PCs. Its ligands angiopoietin-1 (Ang1) and angiopoietin-2 (Ang2) are expressed in neural cells and endothelial cells (ECs), respectively. PC-specific deletion of Tie2 results in reduced dendritic arborization, which is recapitulated in neural-specific Ang1-knockout and Ang2 full-knockout mice. Mechanistically, RNA sequencing reveals that Tie2-deficient PCs present alterations in gene expression of multiple genes involved in cytoskeleton organization, dendritic formation, growth, and branching. Functionally, mice with deletion of Tie2 in PCs present alterations in PC network functionality. Altogether, our data propose Ang/Tie2 signaling as a mediator of intercellular communication between neural cells, ECs, and PCs, required for proper PC dendritic morphogenesis and function.
Aim: Knowledge concerning species distribution is important for biodiversity conservation and environmental management. Fungi form a large and diverse group of species and play a key role in nutrient cycling and carbon storage. However, our understanding of fungal diversity and distribution remains limited, particularly at large spatial scales. Here, we predicted the diversity and distribution of ectomycorrhizal and saprotrophic macrofungi at relatively fine spatial resolution at a continental scale and examined the importance of variables that affect the distribution of these two functional groups. Location: Europe. Time period: 1990–2018. Major taxa studied: Macrofungi. Methods: From observations of 1,845 macrofungal species, we predicted the diversity and distribution of two functional groups of macrofungi at a resolution of 5 km across eight European countries based on 25 environmental variables using the MAXENT model. We determined the importance of variables that affect the distribution of these two functional groups of macrofungi using the built-in jackknife test in the model. Results: Analysis of the modelling results showed that eastern Denmark and southern Sweden are biodiversity hotspots for both functional groups of macrofungal species. Tree species and human disturbance (i.e., the human footprint index) were found to be the two most important predictor variables explaining the distribution of ectomycorrhizal and saprotrophic macrofungi. Main conclusions: Overall, our study demonstrates that tree species and human disturbance have played a more important role than climatic factors in determining the diversity and distribution of macrofungi at the continental scale. Our study suggests that fungal diversity and distribution might change considerably if the strongest predictors (i.e., tree species) were to be affected by climate change and/or human activity. Changes in fungal diversity might, in turn, influence other processes, because fungi are important in driving ecosystem processes, such as nutrient and carbon cycling.
An ever-increasing demand for novel antimicrobials to treat life-threatening infections caused by the global spread of multidrug-resistant bacterial pathogens stands in stark contrast to the current level of investment in their development, particularly in the fields of natural-product-derived and synthetic small molecules. New agents displaying innovative chemistry and modes of action are desperately needed worldwide to tackle the public health menace posed by antimicrobial resistance. Here, our consortium presents a strategic blueprint to substantially improve our ability to discover and develop new antibiotics. We propose both short-term and long-term solutions to overcome the most urgent limitations in the various sectors of research and funding, aiming to bridge the gap between academic, industrial and political stakeholders, and to unite interdisciplinary expertise in order to efficiently fuel the translational pipeline for the benefit of future generations.
With 5-10 newly diagnosed patients per 100,000 people every year, glioblastoma is the most common malignant primary brain tumor. Despite extensive research activity in the last decades, clinical effectiveness of the currently available therapy standard of surgery, radiochemotherapy and tumor-treating fields is still limited and mean survival rates in unselected collectives are only about one year. Accordingly, there is an urgent need to explore new therapeutic options. The current standard of care includes surgery followed by radiation therapy in combination with the alkylating chemotherapeutic agent Temozolomide. Even with successful initial therapy, tumor recurrence is still inevitable. Currently, there are no defined recommendations for clinical management of the disease in the event of tumor recurrence. Only 20-30% of patients qualify for a second surgical resection, while other options include retreatment with Temozolomide, CCNU (Lomustine) or Regorafenib and enrollment in a clinical trial.
The development of immunotherapies for glioblastoma, in particular, has been the focus of intense preclinical and clinical efforts. However, low numbers of mutations and a highly immunosuppressive tumor microenvironment result in glioblastoma being considered an immunologically “cold” tumor. Strategies successfully established in mutagen-induced tumors with antibodies directed against the PD-1, PD-L1 or CTLA-A4 immune checkpoints have therefore failed in glioblastoma.
Cellular immunotherapies based on chimeric antigen receptor (CAR)-technology have emerged as an alternative powerful option to tackle immunologically “cold” tumors. Several CAR-T cell products targeting glioma antigens have been developed and some evidence of clinical activity has been demonstrated. Natural killer (NK) cells as carriers of CAR constructs have several advantages over T cells, including a much lower risk of neurotoxicity and better interaction with immune cells in the microenvironment. Based on the human NK cell line NK-92, a clinical-grade product, suitable as an off-the-shelf therapeutic, has been developed. The NK-92/5.28.z clone (CAR-NK) expresses a CAR based on the HER2-specific antibody FRP5 in addition to signal-enhancing CD28 and CD3ζ domains. Similar to several other tumor entities, overexpression of the growth factor receptor HER2 is often found in glioblastoma patients. Because of its substantial role in the regulation of cell proliferation, survival, differentiation, angiogenesis and invasion, this receptor is classified as an oncogene. HER2 overexpression plays a major role in the malignant transformation of cells and its oncogenic potential has been studied in detail in breast cancer. However, HER2 expression was also found in up to 80% of glioblastomas, which correlates with an impaired probability of survival. Under physiological conditions, HER2 is not expressed in the adult central nervous system, making it a promising target antigen for glioblastoma immunotherapy.
In previous projects, it has already been shown that these CAR-NK cells exhibit a high and specific lytic activity towards HER2+ glioblastoma cells. While repetitive intratumoral injections of CAR-NK cells already significantly extended symptom-free survival in murine orthotopic xenograft models, CAR-NK cell therapy in immunocompetent mice promotes an endogenous anti-tumor immune response which improves tumor control and provides persisting anti-tumor immunity after therapy of early-stage tumors. However, in more advanced tumor models, efficacy is limited and induction of the checkpoint-molecule PD-L1 in response to CAR-NK-cell therapy was identified as a key mechanism of therapy resistance.
Immunotherapy employing the intravenous administration of checkpoint inhibitors has already revolutionized the treatment of various malignant diseases such as melanoma or lung cancer. In particular, the approach of cancer immunotherapy has focused on the systemic administration of antibodies directed against immune checkpoints such as PD-1, PD-L1 and CTLA-4. In glioblastoma, both tumor cells and microglia, the brain-resident macrophages, express PD-L1, which hinders the activation of CD8+ and CD4+ T cells. Therefore, immunotherapy directed against the PD-1/PD-L1 axis represents a promising approach for the treatment of glioblastoma. One problem, however, is the severe toxicity caused by the systemic effects of checkpoint inhibitors, since the immune response is stimulated not only in tumor tissue but also in healthy organs. Serious side effects such as colitis, hepatitis, pancreatitis or hypophysitis, including numerous deaths, have been reported.
This study aimed to improve the efficacy of CAR-NK cell therapy by combining it with adeno-associated virus (AAV)-mediated transfer of anti-PD-1 antibodies as a strategy to enable local combination therapy to control intracranial tumors.
AAVs carrying a payload coding for an anti-PD-1 immunoadhesin (aPD-1) retargeted to HER2-expressing cells by fusion of so-called Designed Ankyrin Repeat Proteins (DARPins) with a viral capsid protein were employed for this to focus checkpoint inhibitor therapy to the tumor area, resulting in high intratumoral and low systemic drug concentrations. ...