Your search keyword '"Freitag R"' showing total 26 results

1. Performance evaluation of microbial fuel cells for bioelectricity generation: influence of potential scan-rate and real-time external load

Author

Simeon, I. Meshack, Gbabo, A., and Freitag, R.

Published

2024

2. Morphology and Structural Features of the Subduction Zone in the Vicinity of Kuril–Kamchatka–Aleutian Junction

Author

Baranov, B. V., Tsukanov, N. V., Gaedicke, Ch., Freitag, R., and Dozorova, K. A.

Published

2022

3. Supposedly identical microplastic particles substantially differ in their material properties influencing particle-cell interactions and cellular responses

Author

Ramsperger, A.F.R.M., Jasinski, J., Völkl, M., Witzmann, T., Meinhart, M., Jérôme, V., Kretschmer, W.P., Freitag, R., Senker, J., Fery, A., Kress, H., Scheibel, T., and Laforsch, C.

Published

2022

4. Examining the generalizability of research findings from archival data

Author

Delios, A., Clemente, E. G., Wu, T., Tan, H., Wang, Y., Gordon, M., Viganola, D., Chen, Z., Dreber, A., Johannesson, M., Pfeiffer, T., Uhlmann, E. L., Al-Aziz, A. M. A., Abraham, A. T., Trojan, J., Adamkovic, M., Agadullina, E., Ahn, J., Akinci, C., Akkas, H., Albrecht, D., Alzahawi, S., Amaral-Baptista, M., Anand, R., Ang, K. F. U., Anseel, F., Aruta, J. J. B. R., Ashraf, M., Baker, B. J., Bao, X., Baskin, E., Bathula, H., Bauman, C. W., Bavolar, J., Bayraktar, S., Beckman, S. E., Benjamin, A. S., Brown, S. E. V., Buckley, J., Buitrago, R. E., Bution, J. L., Byrd, N., Carrera, C., Caruso, E. M., Chen, M., Chen, L., Cicerali, E. E., Cohen, E. D., Crede, M., Cummins, J., Dahlander, L., Daniels, D. P., Daskalo, L. L., Dawson, I. G. J., Day, M. V., Dietl, E., Domurat, A., Dsilva, J., Du Plessis, C., Dubrov, D. I., Edris, S., Elbaek, C. T., Elsherif, M. M., Evans, T. R., Fellenz, M. R., Fiedler, S., Firat, M., Freitag, R., Furrer, R. A., Gautam, R., Gautam, D. K., Gearin, B., Gerschewski, S., Ghasemi, O., Ghasemi, Z., Ghosh, A., Giani, C., Goldberg, M. H., Goswami, M., Graf-Vlachy, L., Rajeshwari, H., Griffith, J. A., Grigoryev, D., Gu, J., Hadida, A. L., Hafenbrack, A. C., Hafenbradl, S., Hammersley, J. J., Han, H., Harman, J. L., Hartanto, A., Henkel, A. P., Y. -C., Ho, Holding, B. C., Holzmeister, F., Horobet, A., Huang, T. S. -T., Huang, Y., Huntsinger, J. R., Idzikowska, K., Imada, H., Imran, R., Ingels, M. J., Jaeger, B., Janssen, S. M. J., Jia, F., Jimenez, A., Jin, J. L., Johannes, N., Jolles, D., Jozefiakova, B., Kacmar, P., Kalandadze, T., Kalimeri, K., Kang, P., Kantorowicz, J., Karada, D., Karimi-Rouzbahani, H., Kee, D. M. H., Keller, L., Khan, H. A., Knutsson, M., Kombeiz, O., Korniychuk, A., Kowal, M., Leder, J., Liang, L. W., Liew, T., Lin, F., Liu, C., Liu, B., Longo, M. C., Lovakov, A., Low, M. P., Lucas, G. J. M., Lukason, O., A. L., Ly, Ma, Z., Mafael, A., Mahmoudkalayeh, S., Manheim, D., Marcus, A., Marsh, M. S., Martin, J. M., Martinez, L. E., Martinoli, M., Martoncik, M., Masters-Waage, T. C., Mata, R., Mazloomi, H., Mccarthy, R. J., Millroth, P., Mishra, M., Mishra, S., Mohr, A., Moreau, D., Myer, A., Nadler, A., Nair, S., Nilsonne, G., Niszczota, P., O'Mahony, A., Oberhauser, M., Obloj, T., Orhan, M. A., Oswald, F., Otterbring, T., Otto, P. E., Padron-Hernandez, I., Pan, A. J., Paruzel-Czachura, M., Pfuhl, G., Pirrone, A., Porcher, S., Protzko, J., Qi, S., Rahal, R. -M., Rahman, Md. S., Reina, M. L., Rentala, S., Riaz, Z., Ropovik, I., Roseler, L., Ross, R. M., Rotella, A., Roth, L. H. O., Roulet, T. J., Rubin, M. M., Sammartino, A., Sanchez, J., Saville, A. D., Schaerer, M., Schleu, J. E., Schmallenbach, L., Schnabel, L., Spuntrup, F. S., Schumpe, B. M., Senanayake, T., Seri, R., Sheng, F., Snider, R. E., Song, D., Song, V., Starnawska, S. E., Stern, K. A., Stevens, S. M., Stromland, E., Su, W., Sun, H., Sweeney, K. P., Takamatsu, R., Terskova, M., Tey, K. S., Tierney, W., Todorova, M. M., Tolstoy, D., Torkkeli, L., Tybur, J. M., Valderrey, F. J., Vallina-Hernandez, A. M., Vasudevan, R. P., Rao, G. V., Vernet, A., Vissak, T., Voss, H., Wahle, T., Wai, J., Wakabayashi, L. E. T., Wang, J., Wang, P., Warmenhoven, R. W., Wennberg, K., Wernicke, G., Woike, J. K., Wollbrant, C. E., Woodin, G., Wright, J. D., Xia, Q., Xie, Z., Yoon, S., Yuan, W., Yuan, L., Yucel, M., Zheng, Z., Zhou, H., Zogmaister, C., Zultan, R., Research Group: Strategy and Organization, Department of Management, Department of Social Psychology, Organizational Psychology, Social Psychology, IBBA, Delios, A, Giulia Clemente, E, Wu, T, Tan, H, Wang, Y, Gordon, M, Viganola, D, Chen, Z, Dreber, A, Johannesson, M, Pfeiffer, T, Luis Uhlmann, E, Zogmaister, C, University of St Andrews. School of Economics and Finance, University of St Andrews. School of Management, and Lucas, Gerardus J.M.

Subjects

research reliability, Multidisciplinary, ZA4050 Electronic information resources, DAS, VDP::Matematikk og Naturvitenskap: 400, M-PSI/06 - PSICOLOGIA DEL LAVORO E DELLE ORGANIZZAZIONI, archival data, context sensitivity, generalizability, reproducibility, Research reliability, generalizability, archival data, reproducibility, context sensitivity, Ciências Sociais::Economia e Gestão [Domínio/Área Científica], ZA4050, Inequality, cohesion and modernization, M-PSI/03 - PSICOMETRIA, VDP::Medisinske Fag: 700, Ongelijkheid, cohesie en modernisering, Work, Health and Performance

Abstract

This research project benefitted from Ministry of Education (Singapore) Tier 1 Grant R-313-000-131-115 (to A. Delios), National Science Foundation of China Grants 72002158 (to H.T.) and 71810107002 (to H.T.), grants from the Knut and Alice Wallenberg Foundation (to A. Dreber) and the Marianne and Marcus Wallenberg Foundation (through a Wallenberg Scholar grant; to A. Dreber), Austrian Science Fund (FWF) Grant SFB F63 (to A. Dreber), grants from the Jan Wallander and Tom Hedelius Foundation (Svenska Handelsbankens Forskningsstiftelser; to A. Dreber), and an Research & Development (R&D) research grant from Institut Européen d'Administration des Affaires (INSEAD) (to E.L.U.). Dmitrii Dubrov, of the G.T.F.C., was supported by the National Research University Higher School of Economics (HSE University) Basic Research Program. This initiative examined systematically the extent to which a large set of archival research findings generalizes across contexts. We repeated the key analyses for 29 original strategic management effects in the same context (direct reproduction) as well as in 52 novel time periods and geographies; 45% of the reproductions returned results matching the original reports together with 55% of tests in different spans of years and 40% of tests in novel geographies. Some original findings were associated with multiple new tests. Reproducibility was the best predictor of generalizability—for the findings that proved directly reproducible, 84% emerged in other available time periods and 57% emerged in other geographies. Overall, only limited empirical evidence emerged for context sensitivity. In a forecasting survey, independent scientists were able to anticipate which effects would find support in tests in new samples. Publisher PDF

Published

2022

5. A worldwide test of the predictive validity of ideal partner preference matching.

Author

Eastwick PW, Sparks J, Finkel EJ, Meza EM, Adamkovič M, Adu P, Ai T, Akintola AA, Al-Shawaf L, Apriliawati D, Arriaga P, Aubert-Teillaud B, Baník G, Barzykowski K, Batres C, Baucom KJ, Beaulieu EZ, Behnke M, Butcher N, Charles DY, Chen JM, Cheon JE, Chittham P, Chwiłkowska P, Cong CW, Copping LT, Corral-Frias NS, Ćubela Adorić V, Dizon M, Du H, Ehinmowo MI, Escribano DA, Espinosa NM, Expósito F, Feldman G, Freitag R, Frias Armenta M, Gallyamova A, Gillath O, Gjoneska B, Gkinopoulos T, Grafe F, Grigoryev D, Groyecka-Bernard A, Gunaydin G, Ilustrisimo R, Impett E, Kačmár P, Kim YH, Kocur M, Kowal M, Krishna M, Labor PD, Lu JG, Lucas MY, Małecki WP, Malinakova K, Meißner S, Meier Z, Misiak M, Muise A, Novak L, O J, Özdoğru AA, Park HG, Paruzel M, Pavlović Z, Püski M, Ribeiro G, Roberts SC, Röer JP, Ropovik I, Ross RM, Sakman E, Salvador CE, Selcuk E, Skakoon-Sparling S, Sorokowska A, Sorokowski P, Spasovski O, Stanton SCE, Stewart SLK, Swami V, Szaszi B, Takashima K, Tavel P, Tejada J, Tu E, Tuominen J, Vaidis D, Vally Z, Vaughn LA, Villanueva-Moya L, Wisnuwardhani D, Yamada Y, Yonemitsu F, Žídková R, Živná K, and Coles NA

Abstract

Ideal partner preferences (i.e., ratings of the desirability of attributes like attractiveness or intelligence) are the source of numerous foundational findings in the interdisciplinary literature on human mating. Recently, research on the predictive validity of ideal partner preference matching (i.e., Do people positively evaluate partners who match vs. mismatch their ideals?) has become mired in several problems. First, articles exhibit discrepant analytic and reporting practices. Second, different findings emerge across laboratories worldwide, perhaps because they sample different relationship contexts and/or populations. This registered report-partnered with the Psychological Science Accelerator-uses a highly powered design ( N = 10,358) across 43 countries and 22 languages to estimate preference-matching effect sizes. The most rigorous tests revealed significant preference-matching effects in the whole sample and for partnered and single participants separately. The "corrected pattern metric" that collapses across 35 traits revealed a zero-order effect of β = .19 and an effect of β = .11 when included alongside a normative preference-matching metric. Specific traits in the "level metric" (interaction) tests revealed very small (average β = .04) effects. Effect sizes were similar for partnered participants who reported ideals before entering a relationship, and there was no consistent evidence that individual differences moderated any effects. Comparisons between stated and revealed preferences shed light on gender differences and similarities: For attractiveness, men's and (especially) women's stated preferences underestimated revealed preferences (i.e., they thought attractiveness was less important than it actually was). For earning potential, men's stated preferences underestimated-and women's stated preferences overestimated-revealed preferences. Implications for the literature on human mating are discussed. (PsycInfo Database Record (c) 2024 APA, all rights reserved).

Published

2024

6. Where the 'bad' and the 'good' go: A multi-lab direct replication report of Casasanto (2009, Experiment 1).

Author

Yamada Y, Xue J, Li P, Ruiz-Fernández S, Özdoğru AA, Sarı Ş, Torres SC, Hinojosa JA, Montoro PR, AlShebli B, Bolatov AK, McGeechan GJ, Zloteanu M, Razpurker-Apfeld I, Samekin A, Tal-Or N, Tejada J, Freitag R, Khatin-Zadeh O, Banaruee H, Robin N, Briseño-Sanchez G, Barrera-Causil CJ, and Marmolejo-Ramos F

Abstract

Casasanto (Journal of Experimental Psychology: General, 138, 351-367, 2009) conceptualised the body-specificity hypothesis by empirically finding that right-handed people tend to associate a positive valence with the right side and a negative valence with the left side, whilst left-handed people tend to associate a positive valence with the left side and negative valence with the right side. Thus, this was the first paper that showed a body-specific space-valence mapping. These highly influential findings led to a substantial body of research and follow-up studies, which could confirm the original findings on a conceptual level. However, direct replications of the original study are scarce. Against this backdrop and given the replication crisis in psychology, we conducted a direct replication of Casasanto's original study with 2,222 participants from 12 countries to examine the aforementioned effects in general and also in a cross-cultural comparison. Our results support Casasanto's findings that right-handed people associate the right side with positivity and the left side with negativity and vice versa for left-handers., (© 2024. The Author(s).)

Published

2024

7. Zwitterionic Amino-Acid-Derived Polyacrylamides with a Betaine Twist - Synthesis and Characterization.

Author

De Breuck J, Jérôme V, Freitag R, and Leiske MN

Abstract

Amino-acid-derived polyzwitterions and polybetaines (PBs) are two promising alternatives to non-ionic polymers, for example, to increase tumor permeability. In this study, amino-acid-derived polyzwitterions are synthesized and a strategy to quarternize the amine in the side chain functional group is developed to combine the advantages of both types. The functional monomer is polymerized via reversible addition-fragmentation chain-transfer polymerization for which a kinetic study is performed. Further, the impact of the permanent positive charge on amino-acid-derived polyzwitterions is studied based on two zwitterionic polymers obtained via post-polymerization modification (PPM) of Poly(N-acryloxysuccinimide) to allow good comparison between methylated and non-methylated polymers. Circular dichroism shows that the stereocenter remains intact during PPM. pH titration and ζ-potential measurements show that the methylated polymer has a negative ζ-potential over the measured pH range and, therefore, the polymer remains zwitterionic over a broader pH range than its non-methylated equivalent. Both polymers are well tolerated by mammalian cells up to concentrations of 1 mg mL -1 . The study introduces a path to a new polymer class that combines the advantages of both PBs and amino-acid-derived polyzwitterions and highlights the impact a permanent charge has on the physiochemical properties., (© 2024 The Author(s). Macromolecular Rapid Communications published by Wiley‐VCH GmbH.)

Published

2024

8. Size dependent uptake and trophic transfer of polystyrene microplastics in unicellular freshwater eukaryotes.

Author

Mondellini S, Schwarzer M, Völkl M, Jasinski J, Jérôme V, Scheibel T, Laforsch C, and Freitag R

Subjects

Environmental Monitoring, Tetrahymena pyriformis metabolism, Amoeba metabolism, Paramecium caudatum metabolism, Particle Size, Microplastics, Water Pollutants, Chemical metabolism, Food Chain, Polystyrenes, Fresh Water

Abstract

Microplastics (MP) have become a well-known and widely investigated environmental pollutant. Despite the huge amount of new studies investigating the potential threat posed by MP, the possible uptake and trophic transfer in lower trophic levels of freshwater ecosystems remains understudied. This study aims to investigate the internalization and potential trophic transfer of fluorescent polystyrene (PS) beads (0.5 μm, 3.6 × 10 8 particles/mL; 6 μm, 2.1 × 10 5 particles/mL) and fragments (<30 μm, 5 × 10 3 particles/mL) in three unicellular eukaryotes. This study focuses on the size-dependent uptake of MP by two freshwater Ciliophora, Tetrahymena pyriformis, Paramecium caudatum and one Amoebozoa, Amoeba proteus, serving also as predator for experiments on potential trophic transfer. Size-dependent uptake of MP in all three unicellular eukaryotes was shown. P. caudatum is able to take up MP fragments up to 27.7 μm, while T. pyriformis ingests particles up to 10 μm. In A. proteus, small MP (PS 0.5μm and PS 6μm ) were taken up via pinocytosis and were detected in the cytoplasm for up to 14 days after exposure. Large PS-MP (PS <30μm ) were detected in A. proteus only after predation on MP-fed Ciliophora. These results indicate that A. proteus ingests larger MP via predation on Ciliophora (PS <30μm ), which would not be taken up otherwise. This study shows trophic transfer of MP at the base of the aquatic food web and serves as basis to study the impact of MP in freshwater ecosystems., Competing Interests: Declaration of competing interest The authors declare no competing interest., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

9. Influence of the polymer type of a microplastic challenge on the reaction of murine cells.

Author

Jasinski J, Völkl M, Wilde MV, Jérôme V, Fröhlich T, Freitag R, and Scheibel T

Subjects

Animals, Mice, Microplastics, Plastics, Polystyrenes, Polyethylene analysis, Environmental Monitoring, Polymers, Water Pollutants, Chemical analysis

Abstract

Due to global pollution derived from plastic waste, the research on microplastics is of increasing public interest. Until now, most studies addressing the effect of microplastic particles on vertebrate cells have primarily utilized polystyrene particles (PS). Other studies on polymer microparticles made, e.g., of polyethylene (PE), polyvinyl chloride (PVC), polypropylene (PP), or poly (ethylene terephthalate) (PET), cannot easily be directly compared to these PS studies, since the used microparticles differ widely in size and surface features. Here, effects caused by pristine microparticles of a narrow size range between 1 - 4 µm from selected conventional polymers including PS, PE, and PVC, were compared to those of particles made of polymers derived from biological sources like polylactic acid (PLA), and cellulose acetate (CA). The microparticles were used to investigate cellular uptake and assess cytotoxic effects on murine macrophages and epithelial cells. Despite differences in the particles' properties (e.g. ζ-potential and surface morphology), macrophages were able to ingest all tested particles, whereas epithelial cells ingested only the PS-based particles, which had a strong negative ζ-potential. Most importantly, none of the used model polymer particles exhibited significant short-time cytotoxicity, although the general effect of environmentally relevant microplastic particles on organisms requires further investigation., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

10. Detection and specific chemical identification of submillimeter plastic fragments in complex matrices such as compost.

Author

Steiner T, Leitner LC, Zhang Y, Möller JN, Löder MGJ, Greiner A, Laforsch C, and Freitag R

Subjects

Microplastics, Polymers, Polypropylenes, Plastics analysis, Composting

Abstract

Research on the plastic contamination of organic fertilizer (compost) has largely concentrated on particles and fragments > 1 mm. Small, submillimeter microplastic particles may be more hazardous to the environment. However, research on their presence in composts has been impeded by the difficulty to univocally identify small plastic particles in such complex matrices. Here a method is proposed for the analysis of particles between 0.01 and 1.0 mm according to number, size, and polymer type in compost. As a first demonstration of its potential, the method is used to determine large and small microplastic in composts from eight municipal compost producing plants: three simple biowaste composters, four plants processing greenery and cuttings and one two-stage biowaste digester-composter. While polyethylene, PE, tends to dominate among fragments > 1 mm, the microplastic fraction contained more polypropylene, PP. Whereas the contamination with PE/PP microplastic was similar over the investigated composts, only composts prepared from biowaste contained microplastic with a signature of biodegradable plastic, namely poly(butylene adipate co-terephthalate), PBAT. Moreover, in these composts PBAT microplastic tended to form the largest fraction. When the bulk of residual PBAT in the composts was analyzed by chloroform extraction, an inverse correlation between the number of particles > 0.01 mm and the total extracted amount was seen, arguing for breakdown into smaller particles, but not necessarily a mass reduction. PBAT oligomers and monomers as possible substrates for subsequent biodegradation were not found. Remaining microplastic will enter the environment with the composts, where its subsequent degradability depends on the local conditions and is to date largely uninvestigated., (© 2024. The Author(s).)

Published

2024

11. High-Dose Ionizing Radiation Impairs Healthy Dendrite Growth in C. elegans .

Author

Freitag R, Stern J, Masters J, Kowalski G, Miller DM 3rd, and Eley JG

Abstract

Purpose: The nervous system is vulnerable to radiation damage, and further optimization is required to increase the efficacy of radiation therapy while reducing harm to neurons. Given recent developments in heavy ion therapy, experimental models would be valuable to improve these therapies. We used the nematode Caenorhabditis elegans ( C. elegans ) to evaluate the effects of high-dose radiation on neuron development., Methods and Materials: In this study, we used confocal microscopy to assess dendritic growth of the PVD nociceptor after high-dose gamma-irradiation from a Cs-137 source., Results: Irradiation during an early larval stage (L2) delayed overall development but also independently impaired dendrite outgrowth in the PVD nociceptive neuron. Irradiation at L4 larval stage did not result in significant alterations in dendrite morphology., Conclusions: The nematode C. elegans can serve as a high-throughput model to study the effects of high-dose radiation on dendrite growth. We propose that C. elegans can be useful for studies of experimental radiation therapy modalities and dose rates for translational research., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Author(s).)

Published

2023

12. Thoroughly Hydrophilized Electrospun Poly(L-Lactide)/ Poly(ε-Caprolactone) Sponges for Tissue Engineering Application.

Author

Xu C, Cheong JY, Mo X, Jérôme V, Freitag R, Agarwal S, Gharibi R, and Greiner A

Subjects

Humans, Surface-Active Agents, Tissue Scaffolds chemistry, Tissue Engineering, Polyesters pharmacology, Polyesters chemistry

Abstract

Biodegradable electrospun sponges are of interest for various applications including tissue engineering, drug release, dental therapy, plant protection, and plant fertilization. Biodegradable electrospun poly(l-lactide)/poly(ε-caprolactone) (PLLA/PCL) blend fiber-based sponge with hierarchical pore structure is inherently hydrophobic, which is disadvantageous for application in tissue engineering, fertilization, and drug delivery. Contact angles and model studies for staining with a hydrophilic dye for untreated, plasma-treated, and surfactant-treated PLLA/PCL sponges are reported. Thorough hydrophilization of PLLA/PCL sponges is found only with surfactant-treated sponges. The MTT assay on the leachates from the sponges does not indicate any cell incompatibility. Furthermore, the cell proliferation and penetration of the hydrophilized sponges are verified by in vitro cell culture studies using MG63 and human fibroblast cells., (© 2023 The Authors. Macromolecular Bioscience published by Wiley-VCH GmbH.)

Published

2023

13. Polystyrene microparticle distribution after ingestion by murine macrophages.

Author

Jasinski J, Völkl M, Hahn J, Jérôme V, Freitag R, and Scheibel T

Subjects

Animals, Mice, Plastics metabolism, Macrophages metabolism, Eating, Polystyrenes toxicity, Polystyrenes metabolism, Microplastics toxicity, Microplastics metabolism

Abstract

The impact of microplastic particles on organisms is currently intensely researched. Although it is well established that macrophages ingest polystyrene (PS) microparticles, little is known about the subsequent fate of the particles, such as entrapment in organelles, distribution during cell division, as well as possible mechanisms of excretion. Here, submicrometer (0.2 and 0.5 µm) and micron-sized (3 µm) particles were used to analyze particle fate upon ingestion of murine macrophages (J774A.1 and ImKC). Distribution and excretion of PS particles was investigated over cycles of cellular division. The distribution during cell division seems cell-specific upon comparing two different macrophage cell lines, and no apparent active excretion of microplastic particles could be observed. Using polarized cells, M1 polarized macrophages show higher phagocytic activity and particle uptake than M2 polarized ones or M0 cells. While particles with all tested diameters were found in the cytoplasm, submicron particles were additionally co-localized with the endoplasmic reticulum. Further, 0.5 µm particles were occasionally found in endosomes. Our results indicate that a possible reason for the previously described low cytotoxicity upon uptake of pristine PS microparticles by macrophages may be due to the preferential localization in the cytoplasm., Competing Interests: Declaration of Competing Interest The authors declare no competing interest., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

14. Role of Residual Monomers in the Manifestation of (Cyto)toxicity by Polystyrene Microplastic Model Particles.

Author

Zhang Y, Paul T, Brehm J, Völkl M, Jérôme V, Freitag R, Laforsch C, and Greiner A

Subjects

Animals, Plastics, Polymers, Solvents, Mammals, Polystyrenes toxicity, Microplastics toxicity

Abstract

Polystyrene (PS) is an important model polymer for the investigation of effects of microplastic (MP) and nanoplastic (NP) particles on living systems. Aqueous dispersions of PS MP or NP contain residual monomers of styrene. In consequence, it is not clear if the effects observed in standard (cyto)toxicity studies are evoked by the polymer (MP/NP) particle or by residual monomers. We addressed that question by comparing standard PS model particle dispersions with in-house synthesized PS particle dispersions. We proposed a rapid purification method of PS particle dispersions by dialysis against mixed solvents and developed a simple method of UV-vis spectrometry to detect residual styrene in the dispersions. We found that standard PS model particle dispersions, which contain residual monomers, exerted a low but significant cytotoxicity on mammalian cells, while the in-house synthesized PS, after rigorous purification to reduce the styrene content, did not. However, the PS particles per se but not the residual styrene in both PS particle dispersions resulted in immobilization of Daphnia. Only by using freshly monomer-depleted particles, will it be possible in the future to assess the (cyto)toxicities of PS particles, avoiding an otherwise not controllable bias effect of the monomer.

Published

2023

15. Emerging indoor photovoltaics for self-powered and self-aware IoT towards sustainable energy management.

Author

Michaels H, Rinderle M, Benesperi I, Freitag R, Gagliardi A, and Freitag M

Abstract

As the number of Internet of Things devices is rapidly increasing, there is an urgent need for sustainable and efficient energy sources and management practices in ambient environments. In response, we developed a high-efficiency ambient photovoltaic based on sustainable non-toxic materials and present a full implementation of a long short-term memory (LSTM) based energy management using on-device prediction on IoT sensors solely powered by ambient light harvesters. The power is supplied by dye-sensitised photovoltaic cells based on a copper(ii/i) electrolyte with an unprecedented power conversion efficiency at 38% and 1.0 V open-circuit voltage at 1000 lux (fluorescent lamp). The on-device LSTM predicts changing deployment environments and adapts the devices' computational load accordingly to perpetually operate the energy-harvesting circuit and avoid power losses or brownouts. Merging ambient light harvesting with artificial intelligence presents the possibility of developing fully autonomous, self-powered sensor devices that can be utilized across industries, health care, home environments, and smart cities., Competing Interests: There are no competing interests to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

16. Cultivation of Encapsulated Primary Human B Lymphocytes: A First Step toward a Bioartificial Germinal Center.

Author

Helm M, Huang SB, Gollner K, Gollner U, Jérôme V, and Freitag R

Subjects

Humans, Capsules, Organoids, T-Lymphocytes, Cell Differentiation, B-Lymphocytes, Germinal Center

Abstract

Polyelectrolyte microcapsules based on sodium cellulose sulfate (SCS) and poly-diallyl-dimethyl-ammonium chloride (PDADMAC) have previously been proposed as a suitable ex vivo microenvironment for the cultivation and differentiation of primary human T lymphocytes. Here, the same system is investigated for the cultivation of human primary B cells derived from adult tonsillar tissue. Proliferation and differentiation into subtypes are followed and compared to suspension cultures of B cells from the same pool performed in parallel. Total cell expansion is somewhat lower in the capsules than in the suspension cultures. More importantly, however, the differentiation of the initially mainly memory B cells into various subtypes, in particular into plasma cell (PC), shows significant differences. Clearly, the microenvironment provided by the microcapsules is beneficial for an accelerated induction of a germinal center-like B cell phenotype and afterward supports the long-term survival of the PC cells. Then, varying the encapsulation conditions (i.e., presence of human serum and dedicated cytokines in the capsule core) provides a tool for finetuning the B cell response. Hence, this methodology is suggested to pave the way toward ex vivo development of human immune organoids., (© 2022 The Authors. Macromolecular Bioscience published by Wiley-VCH GmbH.)

Published

2023

17. High Strength and High Toughness Electrospun Multifibrillar Yarns with Highly Aligned Hierarchy Intended as Anisotropic Extracellular Matrix.

Author

Liao X, Jérôme V, Agarwal S, Freitag R, and Greiner A

Subjects

Extracellular Matrix, Tendons, Anisotropy, Tissue Scaffolds chemistry, Tissue Engineering, Nanofibers chemistry

Abstract

Electrospun nanofibers can be effectively used as a surrogate for extracellular matrices (ECMs). However, in the context of cellular mechanobiology, their mechanical performances can be enhanced by using nanofibrous materials with a high level of structural organization. Herein, this work develops multifibrillar yarns with superior mechanical performance based on biocompatible polyacrylonitrile (PAN) as surrogate ECM. Nearly perfect aligned nanofibers along with the axis of the multifibrillar yarn are prepared. These highly aligned yarns exhibit high strength, high toughness, good stress relaxation behavior, and are robust enough for technical or medical applications. Further, this work analyzes the influence of the highly aligned-hierarchical topological structure of the material on cell proliferation and cell orientation using cells derived from epithelial and connective tissues. Compared to nonoriented electrospun multifibrillar yarns and flat films, the well-ordered topology in the electrospun PAN multifibrillar yarns triggers an improved proliferation of fibroblasts and epithelial cells. Fibroblasts acquire an elongated morphology analogous to their behavior in the natural ECM. Hence, this heterogeneous multifibrillar material can be used to restore or reproduce the ECM for tissue engineering applications, notably in the skeletal muscle and tendon., (© 2022 The Authors. Macromolecular Bioscience published by Wiley-VCH GmbH.)

Published

2022

18. Optimization of soil microbial fuel cell for sustainable bio-electricity production: combined effects of electrode material, electrode spacing, and substrate feeding frequency on power generation and microbial community diversity.

Author

Simeon IM, Weig A, and Freitag R

Abstract

Background: Microbial fuel cells (MFCs) are among the leading research topics in the field of alternative energy sources due to their multifunctional potential. However, their low bio-energy production rate and unstable performance limit their application in the real world. Therefore, optimization is needed to deploy MFCs beyond laboratory-scale experiments. In this study, we investigated the combined influence of electrode material (EM), electrode spacing (ES), and substrate feeding interval (SFI) on microbial community diversity and the electrochemical behavior of a soil MFC (S-MFC) for sustainable bio-electricity generation., Results: Two EMs (carbon felt (CF) and stainless steel/epoxy/carbon black composite (SEC)) were tested in an S-MFC under three levels of ES (2, 4, and 8 cm) and SFI (4, 6, and 8 days). After 30 days of operation, all MFCs achieved open-circuit voltage in the range of 782 + 12.2 mV regardless of the treatment. However, the maximum power of the SEC-MFC was 3.6 times higher than that of the CF-MFC under the same experimental conditions. The best solution, based on the interactive influence of the two discrete variables, was obtained with SEC at an ES of 4.31 cm and an SFI of 7.4 days during an operating period of 66 days. Analysis of the experimental treatment effects of the variables revealed the order SFI < ES < EM, indicating that EM is the most influential factor affecting the performance of S-MFC. The performance of S-MFC at a given ES value was found to be dependent on the levels of SFI with the SEC electrode, but this interactive influence was found to be insignificant with the CF electrode. The microbial bioinformatic analysis of the samples from the S-MFCs revealed that both electrodes (SEC and CF) supported the robust metabolism of electroactive microbes with similar morphological and compositional characteristics, independent of ES and SFI. The complex microbial community showed significant compositional changes at the anode and cathode over time., Conclusion: This study has demonstrated that the performance of S-MFC depends mainly on the electrode materials and not on the diversity of the constituent microbial communities. The performance of S-MFCs can be improved using electrode materials with pseudocapacitive properties and a larger surface area, instead of using unmodified CF electrodes commonly used in S-MFC systems., (© 2022. The Author(s).)

Published

2022

19. Tailor-Made Protein Corona Formation on Polystyrene Microparticles and its Effect on Epithelial Cell Uptake.

Author

Jasinski J, Wilde MV, Voelkl M, Jérôme V, Fröhlich T, Freitag R, and Scheibel T

Subjects

Humans, Mice, Animals, Polystyrenes chemistry, Serum Albumin, Bovine chemistry, Muramidase, Microplastics, Particle Size, Plastics, Myoglobin, Fibrinogen, Epithelial Cells, Lactoglobulins, Protein Corona chemistry, Percutaneous Coronary Intervention, Environmental Pollutants, Nanoparticles chemistry

Abstract

Microplastic particles are pollutants in the environment with a potential impact on ecology and human health. As soon as microplastic particles get in contact with complex (biological) environments, they will be covered by an eco- and/or protein corona. In this contribution, protein corona formation was conducted under defined laboratory conditions on polystyrene (PS) microparticles to investigate the influence on surface properties, protein corona evolution, particle-cell interactions, and uptake in two murine epithelial cells. To direct protein corona formation, PS particles were preincubated with five model proteins, namely, bovine serum albumin (BSA), myoglobin, β-lactoglobulin, lysozyme, and fibrinogen. Subsequently, the single-protein-coated particles were incubated in a cell culture medium containing a cocktail of serum proteins to analyze changes in the protein corona profile as well as in the binding kinetics of the model proteins. Therein, we could show that the precoating step has a critical impact on the final composition of the protein corona. Yet, since proteins building the primary corona were still detectable after additional incubations in a protein-containing medium, backtracking of the particle's history is possible. Interestingly, whereas the precoating history significantly disturbs particle-cell interactions (PCIs), the cellular response (i.e., metabolic activity, MTT assay) stays unaffected. Of note, lysozyme precoating revealed one of the highest rates in PCI for both epithelial cell lines. Taken together, we could show that particle history has a significant impact on protein corona formation and subsequently on the interaction of particles with murine intestinal epithelial-like cells. However, as this study was limited to one cell type, further work is needed to assess if these observations can be generalized to other cell types.

Published

2022

20. The transcriptomic landscape of Magnetospirillum gryphiswaldense during magnetosome biomineralization.

Author

Riese CN, Wittchen M, Jérôme V, Freitag R, Busche T, Kalinowski J, and Schüler D

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Biomineralization genetics, Ferrosoferric Oxide analysis, Ferrosoferric Oxide metabolism, Magnetospirillum, Sigma Factor genetics, Transcriptome, Magnetosomes genetics, Magnetosomes metabolism

Abstract

Background: One of the most complex prokaryotic organelles are magnetosomes, which are formed by magnetotactic bacteria as sensors for navigation in the Earth's magnetic field. In the alphaproteobacterium Magnetospirillum gryphiswaldense magnetosomes consist of chains of magnetite crystals (Fe 3 O 4 ) that under microoxic to anoxic conditions are biomineralized within membrane vesicles. To form such an intricate structure, the transcription of > 30 specific structural genes clustered within the genomic magnetosome island (MAI) has to be coordinated with the expression of an as-yet unknown number of auxiliary genes encoding several generic metabolic functions. However, their global regulation and transcriptional organization in response to anoxic conditions most favorable for magnetite biomineralization are still unclear., Results: Here, we compared transcriptional profiles of anaerobically grown magnetosome forming cells with those in which magnetosome biosynthesis has been suppressed by aerobic condition. Using whole transcriptome shotgun sequencing, we found that transcription of about 300 of the > 4300 genes was significantly enhanced during magnetosome formation. About 40 of the top upregulated genes are directly or indirectly linked to aerobic and anaerobic respiration (denitrification) or unknown functions. The mam and mms gene clusters, specifically controlling magnetosome biosynthesis, were highly transcribed, but constitutively expressed irrespective of the growth condition. By Cappable-sequencing, we show that the transcriptional complexity of both the MAI and the entire genome decreased under anaerobic conditions optimal for magnetosome formation. In addition, predominant promoter structures were highly similar to sigma factor σ 70 dependent promoters in other Alphaproteobacteria., Conclusions: Our transcriptome-wide analysis revealed that magnetite biomineralization relies on a complex interplay between generic metabolic processes such as aerobic and anaerobic respiration, cellular redox control, and the biosynthesis of specific magnetosome structures. In addition, we provide insights into global regulatory features that have remained uncharacterized in the widely studied model organism M. gryphiswaldense, including a comprehensive dataset of newly annotated transcription start sites and genome-wide operon detection as a community resource (GEO Series accession number GSE197098)., (© 2022. The Author(s).)

Published

2022

21. Influence of NH 3 and NH 4 + on anaerobic digestion and microbial population structure at increasing total ammonia nitrogen concentrations.

Author

Mlinar S, Weig AR, and Freitag R

Subjects

Anaerobiosis, Bacteria, Bioreactors microbiology, Nitrogen, Ammonia pharmacology, Biofuels

Abstract

Despite the extensive research dedicated to ammonia inhibition, the effect of NH 3 and NH 4 + on each anaerobic digestion stage and the associated microorganisms is still not completely understood. In the past, the focus was mainly on methanogenesis and either on NH 3 or total ammonia nitrogen (TAN). Here, anaerobic digestion of two defined substrates, namely starch/NH 4 Cl and casein, was investigated particularly regarding the effects of different NH 3 /NH 4 + ratios on the involved microorganisms. TAN affected bacteria, primarily gram-positive ones, whereas archaea responded largely to the NH 3 concentration. These sensitivity differences are attributed to differences in the corresponding cell-membrane structures. A TAN decrease via stripping performed in two full-scale agricultural biogas plants resulted in increased bacterial diversity, with a pronounced increase in the propionate acetogens' abundance. Based on these data, it is suggested that inhibition can be avoided and processes stabilized in biogas plants by adjusting the NH 3 /NH 4 + ratio, when feeding nitrogen-rich substrates., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

22. Disentangling biological effects of primary nanoplastics from dispersion paints' additional compounds.

Author

Müller AK, Brehm J, Völkl M, Jérôme V, Laforsch C, Freitag R, and Greiner A

Subjects

Animals, Daphnia, Humans, Mice, Paint toxicity, Plastics toxicity, Polymers, Microplastics, Water Pollutants, Chemical analysis

Abstract

Microplastic particles (MP) and nanoplastic particles (NP) as persistent anthropogenic pollutants may impact environmental and human health. A relevant potential source of primary MP and NP is water-based dispersion paint which are commonly used in any household. Given the worldwide high application volume of dispersion paint and their diverse material composition MP and NP may enter the environment with unforeseeable consequences. In order to understand the relevance of these MP and NP from paint dispersion we investigated the components of two representative wall paints and analyzed their composition in detail. The different paint components were then investigated for their impact on the model organism Daphnia magna and on a murine cell line. Plastic NP, dissolved polymers, titanium dioxide NPs, and calcium carbonate MPs demonstrated adverse effects in both biological test systems, indicating detrimental consequences of several typical components of wall paints upon release into the environment. The outcome of this study may form the basis for the evaluation of impact on other organisms, environmental transport and impact, other related technical materials and for the development of strategies for the prevention of potential detrimental effects on organisms., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

23. Pristine and artificially-aged polystyrene microplastic particles differ in regard to cellular response.

Author

Völkl M, Jérôme V, Weig A, Jasinski J, Meides N, Strohriegl P, Scheibel T, and Freitag R

Subjects

Animals, Mammals, Mice, Plastics toxicity, Polystyrenes analysis, Polystyrenes toxicity, Weather, Microplastics toxicity, Water Pollutants, Chemical analysis

Abstract

Microplastic particles (MP), arising from the gradual decomposition of plastics in the environment, have been identified as a global problem. Most investigations of MP cytotoxicity use pristine spherical particles available from commercial sources when evaluating their impact on mammalian cells, while only limited data is available for the more relevant "weathered microplastic". In this study, we exposed murine macrophages to polystyrene MP either after up to 130 days of accelerated ageing or in pristine condition. Weathered and pristine MP were physicochemically characterized, and their cytotoxicity was investigated using biological assays, transcriptome analysis, and metabolic pathways prediction. Whereas the response to pristine MP is mainly dominated by a TNF-α release, sharp-edged weathered MP induce broader adverse cellular reactions. This study stresses the importance of including more realistic test particles (e.g., weathered particles) in combination with a broad range of biological assays when evaluating the potential risk of microplastic exposure., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

24. Municipal biowaste treatment plants contribute to the contamination of the environment with residues of biodegradable plastics with putative higher persistence potential.

Author

Steiner T, Zhang Y, Möller JN, Agarwal S, Löder MGJ, Greiner A, Laforsch C, and Freitag R

Subjects

Agriculture, Biodegradation, Environmental, Fertilizers, Biodegradable Plastics, Composting

Abstract

Biodegradable plastics (BDP) are expected to mineralize easily, in particular under conditions of technical composting. However, the complexity of the sample matrix has largely prevented degradation studies under realistic conditions. Here composts and fertilizers from state-of-the-art municipal combined anaerobic/aerobic biowaste treatment plants were investigated for residues of BDP. We found BDP fragments > 1 mm in significant numbers in the final composts intended as fertilizer for agriculture and gardening. Compared to pristine compostable bags, the recovered BDP fragments showed differences in their material properties, which potentially renders them less prone to further biodegradation. BDP fragments < 1 mm were extracted in bulk and came up to 0.43 wt% of compost dry weight. Finally, the liquid fertilizer produced during the anaerobic treatment contained several thousand BDP fragments < 500 µm per liter. Hence, our study questions, if currently available BDP are compatible with applications in areas of environmental relevance, such as fertilizer production., (© 2022. The Author(s).)

Published

2022

25. In vitro cultivation of primary intestinal cells from Eisenia fetida as basis for ecotoxicological studies.

Author

Riedl SAB, Völkl M, Holzinger A, Jasinski J, Jérôme V, Scheibel T, Feldhaar H, and Freitag R

Subjects

Animals, Intestines chemistry, Plastics metabolism, Plastics pharmacology, Silver metabolism, Soil, Metal Nanoparticles toxicity, Oligochaeta, Soil Pollutants analysis

Abstract

The earthworm Eisenia fetida is a commonly used model organism for unspecific soil feeders in ecotoxicological studies. Its intestinal cells are the first to encounter possible pollutants co-ingested by the earthworm, which makes them prime candidates for studies of toxic effects of environmental pollutants on the cellular as compared to the organismic level. In this context, the aim of this study was to demonstrate the suitability of preparations of primary intestinal E. fetida cells for in vitro ecotoxicological studies. For this purpose, a suitable isolation and cultivation protocol was established. Cells were isolated directly from the intestine, maintaining >85% viability during subsequent cultivations (up to 144 h). Exposure to established pollutants and soil elutriates comprising silver nanoparticles and metal ions (Cu 2+ , Cd 2+ ) induced a significant decrease in the metabolic activity of the cells. In case of microplastic particles (MP particles), namely 0.2, 0.5, 2.0, and 3.0 µm diameter polystyrene (PS) beads as well as 0.5 and 2.0 µm diameter polylactic acid (PLA) beads, no active uptake was observed. Slight positive as well as negative dose and size dependent effects on the metabolism were seen, which to some extent might correlate with effects on the organismic level., (© 2021. The Author(s).)

Published

2022

26. Can the essential oil of rosemary (Rosmarinus officinalis Linn.) protect rats infected with itraconazole-resistant Sporothrix brasiliensis from fungal spread?

Author

Waller SB, Cleff MB, Dalla Lana DF, de Mattos CB, Guterres KA, Freitag RA, Sallis ESV, Fuentefria AM, de Mello JRB, de Faria RO, and Meireles MCA

Subjects

Animals, Rats, Antifungal Agents pharmacology, Antifungal Agents therapeutic use, Itraconazole pharmacology, Rats, Wistar, Sporothrix, Oils, Volatile pharmacology, Rosmarinus

Abstract

Introduction: Itraconazole is the first-choice option to treat human and animal sporotrichosis. However, the emergence of itraconazole-resistant strains has encouraged research on new active antifungals. Among them, the essential oil of rosemary (Rosmarinus officinalis Linn., Lamiaceae) has shown antifungal activity in vitro., Objective: Assessing, for the first time, the effectiveness of rosemary essential oil in vivo in experimental cutaneous sporotrichosis, as well as its chemical composition and action mode., Methods: Itraconazole-resistant Sporothrix brasiliensis was inoculated in the left foot pad of 30 Wistar rats, which were randomized (n=10) for treatment with saline solution (control, CONT), itraconazole (ITRA, 10 mg/kg) and rosemary oil (ROSM, 250 mg/kg) for 30 days at an oral dose of 1 mL, daily. Clinical evolution, histopathology and fungal burden were investigated. GC-MS was used for chemical analysis; sorbitol protection and ergosterol effect were used to evaluate the action mechanism of rosemary oil., Results: ROSM was the only group evolving to skin lesion remission, lack of edema and exudate, and mild-to-absent yeast cells. Rosemary oil delayed fungal spreading and protected systemic organs, mainly liver and spleen. The ROSM group presented lower fungal load than that observed for the CONT and ITRA groups (p<0.05). Antifungal action took place at complexation level after ergosterol application. Most compounds were 1,8-cineole/eucalyptol (47.91%), camphor (17.92%), and α-pinene (11.52%)., Conclusions: These findings have evidenced that rosemary oil is a promising antifungal to treat sporotrichosis, since it protects systemic organs from fungal spread., Competing Interests: Declaration of Conflict of Interest The authors declare no conflict of interest., (Copyright © 2021 SFMM. Published by Elsevier Masson SAS. All rights reserved.)

Published

2021