@misc{JungJungKruegerGengeetal., author = {Jung, Friedrich and Jung, Conrad H. G. and Kr{\"u}ger-Genge, Anne and Waldeck, Peter and K{\"u}pper, Jan-Heiner}, title = {Factors influencing the growth of Spirulina platensis in closed photobioreactors under CO₂ - O₂ conversion}, series = {Journal of Cellular Biotechnology}, volume = {5}, journal = {Journal of Cellular Biotechnology}, number = {2}, issn = {2352-3697}, doi = {10.3233/JCB-199004}, pages = {125 -- 134}, abstract = {Since there is growing interest throughout the world in photosynthetic microbes as a potential source of food or food supplements, an assessment of factors which influence the biomass obtained in bioreactors, protein contents and constituents is important. This work reviews the autotrophic cultivation conditions of Spirulina platensis especially the dependency on the strain, the composition of the nutrient solution, pH, temperature of the medium, light intensity and color as well as exposure rhythm, the flow rate and composition of the aerating gas mixture and the bubble size, the content of oxygen, CO₂ and HCO₃ in the medium and last but not least from the optical density of the spirulina suspension during growth.}, language = {en} } @misc{KruegerGengeSteinbrechtJungetal., author = {Kr{\"u}ger-Genge, Anne and Steinbrecht, Susanne and Jung, Conrad H. G. and Westphal, Sophia and Kl{\"o}pzig, Stefanie and Waldeck, Peter and K{\"u}pper, Jan-Heiner and Storsberg, J. and Jung, Friedrich}, title = {Arthrospira platensis accelerates the formation of an endothelial cell monolayer and protects against endothelial cell detachment after bacterial contamination}, series = {Clinical Hemorheology and Microcirculation}, volume = {78}, journal = {Clinical Hemorheology and Microcirculation}, number = {2}, issn = {1386-0291}, doi = {10.3233/CH-201096}, pages = {151 -- 161}, abstract = {Within the last years a comprehensive number of scientific studies demonstrated beneficial effect of Arthropira platensis (AP) as dietary supplement due to a high content of proteins, minerals and vitamins. Positive effects like promoting the immune system, reducing inflammation and an anti-oxidant capacity are reported. In this study, the effect of an aqueous AP extract on primary human venous endothelial cells (HUVEC) was investigated. In addition, the effect of AP on HUVEC treated with a bacterial toxin (lipopolysaccharide, LPA), inducing an activation of HUVEC and cellular detachment, was analyzed. Depending on the concentration of AP extract a significantly accelerated formation of an endothelial cell monolayer was observed. Furthermore, the detachment of HUVEC after LPA addition was dramatically reduced by AP. In conclusion, the data are promising and indicatory for an application of Arthrospira platensis in the clinical field.}, language = {en} } @misc{JungWaldeckPetricketal., author = {Jung, Conrad H. G. and Waldeck, Peter and Petrick, Ingolf and Braune, Steffen and K{\"u}pper, Jan-Heiner and Jung, Friedrich}, title = {Bioreactor for the cultivation of Arthrospira platensis under controlled conditions}, series = {Journal of Cellular Biotechnology}, volume = {7}, journal = {Journal of Cellular Biotechnology}, number = {1}, doi = {10.3233/JCB-210032}, pages = {35 -- 40}, abstract = {A vertical flat-type bioreactor consisting of transparent polyethylene (food safe) was constructed, which is characterized by a flexible design and allows the adjustment of a light path of 1 cm - 8.5 cm and a working volume of 1.5 l - 4 l. To characterize the performance of the bioreactor, cultivation experiments were performed with the cyanobacterium Arthrospira platensis (AP). The growth was assessed continuously by monitoring optical density and intermittently by measuring the dry weight of the AP biomass. An on-line measurement technique for estimating biomass production rate in a photosynthetic microalgae culture was developed. The oxygen produced by AP in the culture medium was flushed out sparging using a mixture of air and CO2 (1\%). Factors which might influence the AP growth were monitored: pH, temperature, oxygen concentration and the filling level were corrected automatically to compensate evaporation losses. As an example, the huge influence of the light intensity on the AP growth was tested. The increase of the photon flux density of 15 to 1200μmol/(l · d) led to a 22-fold increase of the productivity and a 3.1-fold shorter doubling time. Using an online measurement technique - together with the control of the growth process via a wireless local area network (WLAN) router and virtual private network - allows monitoring the growth of Arthrospira platensis remotely.}, language = {en} } @misc{KruegerGengeJungBrauneetal., author = {Kr{\"u}ger-Genge, Anne and Jung, Conrad H. G. and Braune, Steffen and Harb, K. and Westphal, S. and Kl{\"o}pzig, Stefanie and K{\"u}pper, Jan-Heiner and Jung, Friedrich}, title = {Effect of Arthrospira powders from different producers on the formation of endothelial cell monolayers}, series = {Clinical Hemorheology and Microcirculation}, volume = {79}, journal = {Clinical Hemorheology and Microcirculation}, number = {1}, issn = {1875-8622}, doi = {10.3233/CH-219200}, pages = {193 -- 203}, abstract = {Arthrospira platensis (AP) and some of its derived products have well-established biological activities as antioxidants or as agents to reduce cardiovascular disease risk factors. Furthermore, AP products have gained increasing importance as potential anti-cancer agents. However, the ingredients of the available products vary greatly with the origin, the type of production and processing, which could have significant consequences for their biological effects. Therefore, the composition and biological influence of five distinct AP powders, which were acquired commercially or produced at a public biotechnology institute, were investigated in regard to their endothelialization capacity using a cell impedance- (CI) based measurement method. The study revealed that the AP composition and especially the influence on HUVEC proliferation differed significantly between the five AP powders up to 109\%. Thus, it could be shown that the method used allows the reliable detection of quantitative differences in biological effects of different AP preparations.}, language = {en} } @misc{JungBrauneWaldecketal., author = {Jung, Conrad H. G. and Braune, Steffen and Waldeck, Peter and K{\"u}pper, Jan-Heiner and Petrick, Ingolf and Jung, Friedrich}, title = {Morphology and Growth of Arthrospira platensis during Cultivation in a Flat-Type Bioreactor}, series = {Life}, volume = {11}, journal = {Life}, number = {6}, issn = {2075-1729}, doi = {10.3390/life11060536}, abstract = {Arthrospira platensis (AP) is a cyanobacterium with a high economic value and is nowadays one of the most important industrially cultivated microalgae. Knowledge of its growth is essential for the understanding of its physiology and yield. The growth of AP biomass occurs through two mechanisms: (1) propagation by fragmentation of trichomes, and (2) the trichomes are extended by binary fission until they reach their mature status. These phases are visualized by live cell light and laser scanning microscopy, demonstrating the different phases of AP growth.}, language = {en} } @misc{JungWaldeckSykoraetal., author = {Jung, Conrad H. G. and Waldeck, Peter and Sykora, Shadi and Braune, Steffen and Petrick, Ingolf and K{\"u}pper, Jan-Heiner and Jung, Friedrich}, title = {Influence of Different Light-Emitting Diode Colors on Growth and Phycobiliprotein Generation of Arthrospira platensis}, series = {Life}, volume = {12}, journal = {Life}, number = {6}, issn = {2075-1729}, doi = {10.3390/life12060895}, language = {en} } @misc{JungBrauneJungetal., author = {Jung, Friedrich and Braune, Steffen and Jung, Conrad H. G. and Kr{\"u}ger-Genge, Anne and Waldeck, Peter and Petrick, Ingolf and K{\"u}pper, Jan-Heiner}, title = {Lipophilic and Hydrophilic Compounds from Arthrospira platensis and Its Effects on Tissue and Blood Cells—An Overview}, series = {Life}, volume = {12}, journal = {Life}, number = {10}, issn = {2075-1729}, doi = {10.3390/life12101497}, language = {en} } @misc{JungWaldeckPetricketal., author = {Jung, Conrad H. G. and Waldeck, Peter and Petrick, Ingolf and Akinwunmi, Mosunmol and Braune, Steffen and Jung, Friedrich and K{\"u}pper, Jan-Heiner}, title = {Light-induced changes in the morphology and fluorescence of Arthrospira platensis}, series = {Clinical Hemorheology and Microcirculation}, volume = {9}, journal = {Clinical Hemorheology and Microcirculation}, number = {1}, issn = {1386-0291}, doi = {10.3233/JCB-239001}, pages = {71 -- 77}, abstract = {The cyanobacterium Arthrospira platensis is a well-known source of bioactive substances. Growth and the generation of bioactive ingredients of Arthrospira platensis depend mainly on the quantity of light in a controlled environment. Photoinhibition is a time, nutrient, and light intensity-dependent decrease in photosynthetic efficiency. However, too strong illumination can induce two harmful effects: (1) photoinhibition as a reduction in photosynthetic rate and (2) photooxidation which can have lethal effects on the cells, and which can lead to total loss of the culture. The results of this microscopical study demonstrate, that under the procedures described and very high photon flux den-sities, not only a decrease in the photosynthetic efficiency but beyond, also destruction of Arthrospira platensis can occur.}, language = {en} } @misc{NghinaunyeWaldeckJungetal., author = {Nghinaunye, Theopolina and Waldeck, Peter and Jung, Conrad H. G. and K{\"u}pper, Jan-Heiner and Jung, Friedrich and Braune, Steffen}, title = {Response of Arthrospira platensis to different temperatures regarding growth and biochemical composition}, series = {Clinical Hemorheology and Microcirculation}, journal = {Clinical Hemorheology and Microcirculation}, issn = {1386-0291}, doi = {10.3233/CH-238104}, pages = {1 -- 7}, abstract = {The growth of cyanobacteria can vary considerably depending on the ambient temperature. Since the optimal growth temperature for Arthrospira platensis (strain SAG21.99) is not yet known, this was investigated in the present study. The study revealed that a process temperature of 30°C seems to be optimal for the Arthrospira strain SAG21.99 cultivation in terms of a maximum biomass productivity. This was also true for the phycocyanin content which was at 30°C significantly higher than at 20 or 40°C.}, language = {en} } @misc{JungNghinaunyeWaldecketal., author = {Jung, Conrad H. G. and Nghinaunye, Theopolina and Waldeck, Peter and Braune, Steffen and Petrick, Ingolf and K{\"u}pper, Jan-Heiner and Jung, Friedrich}, title = {Decarbonization of Arthrospira platensis production by using atmospheric CO2 as an exclusive carbon source: proof of principle}, series = {International Journal of Environmental Science and Technology}, journal = {International Journal of Environmental Science and Technology}, issn = {1735-2630}, doi = {10.1007/s13762-023-05215-x}, abstract = {There is an urgent need to develop technologies for removing CO2 from the atmosphere to combat climate change. Microalgae and cyanobacteria, such as Arthrospira platensis (AP), have shown promise due to their high photoautotrophic biomass production. Conventional AP culture media are supplemented with high concentrations of NaHCO3 since AP utilizes as a carbon source. These culture conditions result in significant amounts of CO2 escaping into the atmosphere, instead of being sequestered during cultivation. Here, we investigated whether ambient air (0.042\% CO2) can be used for growing AP in a culture medium lacking a fossil-based carbon source. AP was cultured in 2 L glass bioreactors containing: (1) Zarrouk medium with 16.8 g/L NaHCO3 and aeration with 0.236 vvm air with 2\% CO2 ("NaHCO3/CO2-based") to compensate carbon loss due to CO2 outgassing, and (2) Zarrouk medium without NaHCO3 and a gas flow with ambient air (0.926 vvm) as the only carbon source ("air-based"). The air-based production resulted in the biofixation of 3.78 gCO2/L during the linear growth phase. With NaHCO3/CO2-based production, a comparable amount of 3.42 gCO2/L was obtained while 659.12 g of CO2 was released into the atmosphere. Total protein, phycocyanin, chlorophyll-a, and carotenoids were present in similar or increased amounts in AP produced by the air-based method. We concluded that cultivation of AP with Zarrouk medium lacking NaHCO3 but using ambient air with atmospheric CO2 as the only carbon source is possible without reducing productivity. These results improve our understanding of how atmospheric CO2 can be reduced by culturing AP.}, language = {en} } @misc{KruegerGengeHarbBrauneetal., author = {Kr{\"u}ger-Genge, Anne and Harb, Kudor and Braune, Steffen and Jung, Conrad H. G. and Westphal, Sophia and B{\"a}r, Stefanie and Mauger, Olivia and K{\"u}pper, Jan-Heiner and Jung, Friedrich}, title = {Effects of arthrospira platensis on human Uumbilical vein endothelial cells}, series = {Life}, volume = {14}, journal = {Life}, number = {10}, editor = {Georgianos, Panagiotis}, publisher = {MDPI}, issn = {2075-1729}, doi = {10.3390/life14101253}, pages = {19}, abstract = {Atherosclerosis is initiated by injury or damage to the vascular endothelial cell monolayer. Therefore, the early repair of the damaged vascular endothelium by a proliferation of neighbouring endothelial cells is important to prevent atherosclerosis and thrombotic events. Arthrospira platensis (AP) has been used as a dietary supplement, mainly due to its high content of vitamins, minerals, amino acids, and pigments such as chlorophylls, carotenoids, and phycocyanin, ingredients with antioxidant, anti-inflammatory, and anti-thrombotic properties. Therefore, in this prospective, placebo-controlled, data-driven, sample-size-estimated in vitro study, we tested whether an aqueous extract of AP at different concentrations (50, 100, and 200 µg/mL) had an effect on the different cellular parameters of human umbilical vein endothelial cells. Therefore, cell impedance measurement and cell proliferation were measured to investigate the monolayer formation. In addition, cell viability, integrity, and metabolism were analysed to evaluate singular cellular functions, especially the antithrombotic state. Furthermore, cell-cell and cell-substrate interactions were observed. The highest proliferation was achieved after the addition of 100 µg/mL. This was consistently confirmed by two independent optical experiments in cell cultures 48 h and 85 h after seeding and additionally by an indirect test. At this concentration, the activation or dysfunction of HUVECs was completely prevented, as confirmed by prostacyclin and interleukin-6 levels. In conclusion, in this study, AP induced a significant increase in HUVEC proliferation without inducing an inflammatory response but altered the hemostasiological balance in favour of prostacyclin over thromboxane, thereby creating an antithrombotic state. Thus, APE could be applied in the future as an accelerator of endothelial cell proliferation after, e.g., stent placement or atherosclerosis.}, language = {en} } @misc{BrauneJungKuepperetal., author = {Braune, Steffen and Jung, Conrad G. H. and K{\"u}pper, Jan-Heiner and Jung, Friedrich}, title = {Arthrospira platensis as protein-rich source for human nutrition}, series = {Life}, volume = {15}, journal = {Life}, number = {12}, publisher = {MDPI}, address = {Basel}, issn = {2075-1729}, doi = {10.3390/life15121789}, pages = {1 -- 15}, abstract = {The continuing growth of the world's population, combined with climate change, poses a growing challenge to ensuring food security in the 21st century. Animal protein, e.g., from beef, is a particularly rich source of protein, but there is by no means enough arable land on earth to transfer the animal meat-rich nutritional style of the early industrialized countries to the global South. A hitherto largely neglected option for the production of proteins is the cultivation of microalgae and cyanobacteria, which already have a long history of use as a human or animal food for their nutritional and environmental merits. In particular, Limnospira platensis (Spirulina and formerly Arthrospira platensis)—a filamentous cyanobacterium—is considered the "food of the future" since it is a viable source of vegan protein. In this manuscript, we review the scientific literature as well as national and intergovernmental agency statements regarding the quality and quantity of AP-based proteins. The content of AP protein is d}, language = {en} }