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4. Computer Visionvs.spectrofluorometer-Assisted Detection of Common Nitro-Explosive Components Withbola-Type PAH-Based Chemosensors

Author

Kovalev, I. S., Sadieva, L. K., Taniya, O. S., Yurk, V. M., Minin, A. S., Santra, S., Zyryanov, G. V., Charushin, V. N., Chupakhin, O. N., and Tsurkan, M. V.

Subjects
HYDROCARBON REFINING, FLUORESCENCE DETECTION, MEDICAL IMAGING, EXPLOSIVE COMPONENTS, EXPLOSIVES DETECTION, COMPUTER VISION, ELECTRONICS APPLICATIONS, NANOMOLAR CONCENTRATION, EXPLOSIVES, 2 ,4 ,6-TRINITROTOLUENE, SPECTROFLUOROMETERS, POLYCYCLIC AROMATIC HYDROCARBONS, FLUORESCENT CHEMOSENSORS, POLYAROMATIC HYDROCARBONS, FLUORESCENCE
Abstract

Computer vision (CV) algorithms are widely utilized in imaging processing for medical and personal electronics applications. In sensorics CV can provide a great potential to quantitate chemosensors' signals. Here we wish to describe a method for the CV-assisted spectrofluorometer-free detection of common nitro-explosive components,e.g.2,4-dinitrotoluene (DNT) and 2,4,6-trinitrotoluene (TNT), by using polyaromatic hydrocarbon (PAH, PAH = 1-pyrenyl or 9-anthracenyl) - basedbola-type chemosensors. The PAH components of these chemicalbolasare able to form stable, bright emissive in a visual wavelength region excimers, which allows their use as extended matrices of the RGB colors after imaging and digital processing. In non-polar solvents, the excimers have poor chemosensing properties, while in aqueous solutions, due to the possible micellar formation, these excimers provide “turn-off” fluorescence detection of DNT and TNT in the sub-nanomolar concentrations. A combination of these PAH-based fluorescent chemosensors with the proposed CV-assisted algorithm offers a fast and convenient approach for on-site, real-time, multi-thread analyte detection without the use of fluorometers. Although we focus on the analysis of nitro-explosives, the presented method is a conceptual work describing a general use of CV for quantitative fluorescence detection of various analytes as a simpler alternative to spectrofluorometer-assisted methods. © The Royal Society of Chemistry 2021. This work was supported by RFBR, project number 19-33-90155.

Published
2021

12. Influence of the participatory budgeting on the infrastructural development of the territories in the Russian federation

Author

Tsurkan, M. V., Svetlana Sotskova, Aksinina, O. S., Lyubarskaya, M. A., Tkacheva, O. N., Sukhanova, E. I., Shirnaeva, S. Y., and Mokronosov, A. G.

Subjects
AUTHORITIES, LOCAL COMMUNITY, TERRITORY, PARTICIPATORY BUDGETING, PROJECT, INFRASTRUCTURAL DEVELOPMENT
Abstract

The relevance of the investigated problem is caused by the need for the advancing of participatory budgeting practice in the Russian Federation. Due to insufficient development of theoretical, scientific, and methodological aspects of the participatory budgeting, very few territories in the Russian Federation use this tool effectively. The most important issue to be addressed is increasing the effectiveness of involving of local communities in the process of the rational allocation of budgetary funds. The objective of this paper is to study how participatory budgeting influences the potential of infrastructural development of territories in the Russian Federation. The leading methods of investigation of the problem include analyzing the common practices in certain regions and specifying the different categories of participatory budgeting. Using these methods, the authors consider the participatory budgeting as a process of allocating the budget funds to address the primary local problems, which leads to improving territorial infrastructure development. The results of the given research include updated conceptual basis of participatory budgeting; indicators reflecting the influence of the participatory budgeting on infrastructural development and criteria for its implementation in the municipalities; organizational chart clarifying the methodological aspects of different types of the participatory budgeting; and classification of territorial development mechanisms based on the participatory budgeting models of financing municipal projects. The practical significance of the given research is focused on the development of the practice of the relevant projects financing through the participatory budgeting in the Russian regions by systematizing their conceptual frameworks. Results of the study can be used by regional and municipal authorities to improve the relevant legislation, and by representatives of local communities to increase their participation in the budgeting process. © 2016 Tsurkan et al.

Published
2016

14. Discovery of 505-million-year old chitin in the basal demosponge Vauxia gracilenta.

Author

Ehrlich, H., Rigby, J. Keith, Botting, J. P., Tsurkan, M. V., Werner, C., Schwille, P., Petrá!ek, Z., Pisera, A., Simon, P., Sivkov, V. N., Vyalikh, D. V., Molodtsov, S. L., Kurek, D., Kammer, M., Hunoldt, S., Born, R., Stawski, D., Steinhof, A., Bazhenov, V. V., and Geisler, T.

Subjects
CHITIN, SPONGES (Invertebrates), FOSSIL fungi, GLUCOSAMINE, CHITINASE
Abstract

Sponges are probably the earliest branching animals, and their fossil record dates back to the Precambrian. Identifying their skeletal structure and composition is thus a crucial step in improving our understanding of the early evolution of metazoans. Here, we present the discovery of 505-million-year-old chitin, found in exceptionally well preserved Vauxia gracilenta sponges from the Middle Cambrian Burgess Shale. Our new findings indicate that, given the right fossilization conditions, chitin is stable for much longer than previously suspected. The preservation of chitin in these fossils opens new avenues for research into other ancient fossil groups. [ABSTRACT FROM AUTHOR]

Published
2013
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15. Impact of terahertz radiation on cells.

Author

Tsurkan, M. V. and Smolyanskaya, O. A.

Abstract

Knowledge of the biological effects induced by THz radiation can have a crucial impact in future developments in fields of medicine, biology or chemistry. The lack of THz radiation sources with sufficient power as well as the missing knowledge of the specifics of their use led to the fact that the impact of microwave radiation on different organisms, including microorganisms has not yet been investigated. The aim of our study was to assess the impact of broadband pulsed THz radiation in the frequency range of 0.05 to 1.2 THz on cell systems. Studies conducted in vitro. [ABSTRACT FROM PUBLISHER]

Published
2013
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16. In Silico Evaluation of Antifungal Compounds from Marine Sponges against COVID-19-Associated Mucormycosis.

Author

Pokharkar O, Lakshmanan H, Zyryanov G, and Tsurkan M

Subjects
Animals, COVID-19 complications, Coinfection, Fungal Proteins chemistry, Molecular Docking Simulation, Molecular Dynamics Simulation, Mucormycosis etiology, Toxicity Tests, Acute, Antifungal Agents chemistry, Antifungal Agents isolation & purification, Antifungal Agents pharmacokinetics, Antifungal Agents toxicity, Biological Products chemistry, Biological Products isolation & purification, Biological Products pharmacokinetics, Biological Products toxicity, Mucormycosis drug therapy, Porifera chemistry, SARS-CoV-2, COVID-19 Drug Treatment
Abstract

The world is already facing the devastating effects of the SARS-CoV-2 pandemic. A disseminated mucormycosis epidemic emerged to worsen this situation, causing havoc, especially in India. This research aimed to perform a multitargeted docking study of marine-sponge-origin bioactive compounds against mucormycosis. Information on proven drug targets and marine sponge compounds was obtained via a literature search. A total of seven different targets were selected. Thirty-five compounds were chosen using the PASS online program. For homology modeling and molecular docking, FASTA sequences and 3D structures for protein targets were retrieved from NCBI and PDB databases. Autodock Vina in PyRx 0.8 was used for docking studies. Further, molecular dynamics simulations were performed using the IMODS server for top-ranked docked complexes. Moreover, the drug-like properties and toxicity analyses were performed using Lipinski parameters in Swiss-ADME, OSIRIS, ProTox-II, pkCSM, and StopTox servers. The results indicated that naamine D, latrunculin A and S, (+)-curcudiol, (+)-curcuphenol, aurantoside I, and hyrtimomine A had the highest binding affinity values of -8.8, -8.6, -9.8, -11.4, -8.0, -11.4, and -9.0 kcal/mol, respectively. In sum, all MNPs included in this study are good candidates against mucormycosis. (+)-curcudiol and (+)-curcuphenol are promising compounds due to their broad-spectrum target inhibition potential.

Published
2022
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17. Techniques for RNA extraction from cells cultured in starPEG-heparin hydrogels.

Author

Jaeschke A, Harvey NR, Tsurkan M, Werner C, Griffiths LR, Haupt LM, and Bray LJ

Subjects
Cell Culture Techniques, Three Dimensional, Human Umbilical Vein Endothelial Cells, Humans, Cell Culture Techniques methods, Heparin chemistry, Hydrogels chemistry, Polyethylene Glycols, RNA isolation & purification
Abstract

Three-dimensional (3D) cell culture models that provide a biologically relevant microenvironment are imperative to investigate cell-cell and cell-matrix interactions in vitro . Semi-synthetic star-shaped poly(ethylene glycol) (starPEG)-heparin hydrogels are widely used for 3D cell culture due to their highly tuneable biochemical and biomechanical properties. Changes in gene expression levels are commonly used as a measure of cellular responses. However, the isolation of high-quality RNA presents a challenge as contamination of the RNA with hydrogel residue, such as polymer or glycosaminoglycan fragments, can impact template quality and quantity, limiting effective gene expression analyses. Here, we compare two protocols for the extraction of high-quality RNA from starPEG-heparin hydrogels and assess three subsequent purification techniques. Removal of hydrogel residue by centrifugation was found to be essential for obtaining high-quality RNA in both isolation methods. However, purification of the RNA did not result in further improvements in RNA quality. Furthermore, we show the suitability of the extracted RNA for cDNA synthesis of three endogenous control genes confirmed via quantitative polymerase chain reaction (qPCR). The methods and techniques shown can be tailored for other hydrogel models based on natural or semi-synthetic materials to provide robust templates for all gene expression analyses.

Published
2021
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18. Stromal fibroblasts regulate microvascular-like network architecture in a bioengineered breast tumour angiogenesis model.

Author

Koch MK, Jaeschke A, Murekatete B, Ravichandran A, Tsurkan M, Werner C, Soon P, Hutmacher DW, Haupt LM, and Bray LJ

Subjects
Fibroblasts, Humans, Neovascularization, Pathologic, Stromal Cells, Tumor Microenvironment, Breast, Breast Neoplasms
Abstract

The plasticity of the tumour microenvironment is a key contributor to cancer development and progression. Here, we present a bioengineered breast tumour angiogenesis model comprised of mammary derived epithelial, endothelial and fibroblast cells, to dissect the mechanisms of cancer-associated fibroblasts (CAFs) on microvascular-like network formation and epithelial spheroid morphology. Primary patient-derived mammary endothelial cells, normal breast fibroblasts (NBF, patient matched) and CAFs were cultured within three-dimensional (3D) semi-synthetic hydrogels where CAFs promoted an increase in the density and morphology of the microvascular-like network. The mammary microenvironment also increased the number of MCF-10a epithelial spheroids when compared with a non-mammary microenvironment, and a malignant mammary microenvironment resulted in further morphological differences in the epithelial spheroids. The morphological changes observed following interactions between breast CAFs and endothelial cells, highlight the plasticity of the malignant stroma in tumour vascularisation. Our in vitro bioengineered breast cancer microenvironment provides a robust model to study cell-cell and cell-matrix interactions. Statement of Significance In recent years there has been an increase in the sophistication of 3D culture models, however less attention has been paid to the cell source utilised. In this study, we describe the influence of a normal and malignant stromal microenvironment on vessel-like behaviour in a 3D model. Using a semi-synthetic hydrogel, we studied the effects of mammary-derived cancer-associated fibroblasts and normal fibroblasts on human umbilical vein endothelial cells or human mammary microvascular endothelial cells. An increase in vessel-like network and epithelial cell density was seen in a mammary versus non-mammary microenvironment. This study highlights the importance of using tissue-specific endothelial cells in cancer research and demonstrates the microenvironmental impact of fibroblasts on endothelial and epithelial growth and morphology., Competing Interests: Declaration of Competing Interest Authors declare no competing interests., (Copyright © 2020. Published by Elsevier Ltd.)

Published
2020
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19. Electrochemical Approach for Isolation of Chitin from the Skeleton of the Black Coral Cirrhipathes sp. (Antipatharia).

Author

Nowacki K, Stępniak I, Langer E, Tsurkan M, Wysokowski M, Petrenko I, Khrunyk Y, Fursov A, Bo M, Bavestrello G, Joseph Y, and Ehrlich H

Subjects
Animals, Chitin chemistry, Electrochemistry, Anthozoa anatomy & histology, Anthozoa chemistry, Chitin isolation & purification
Abstract

The development of novel and effective methods for the isolation of chitin, which remains one of the fundamental aminopolysaccharides within skeletal structures of diverse marine invertebrates, is still relevant. In contrast to numerous studies on chitin extraction from crustaceans, mollusks and sponges, there are only a few reports concerning its isolation from corals, and especially black corals (Antipatharia). In this work, we report the stepwise isolation and identification of chitin from Cirrhipathes sp. (Antipatharia, Antipathidae) for the first time. The proposed method, aiming at the extraction of the chitinous scaffold from the skeleton of black coral species, combined a well-known chemical treatment with in situ electrolysis, using a concentrated Na 2 SO 4 aqueous solution as the electrolyte. This novel method allows the isolation of α-chitin in the form of a microporous membrane-like material. Moreover, the extracted chitinous scaffold, with a well-preserved, unique pore distribution, has been extracted in an astoundingly short time (12 h) compared to the earlier reported attempts at chitin isolation from Antipatharia corals., Competing Interests: We declare no conflicts of interest.

Published
2020
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21. Marine biomaterials: Biomimetic and pharmacological potential of cultivated Aplysina aerophoba marine demosponge.

Author

Binnewerg B, Schubert M, Voronkina A, Muzychka L, Wysokowski M, Petrenko I, Djurović M, Kovalchuk V, Tsurkan M, Martinovic R, Bechmann N, Fursov A, Ivanenko VN, Tabachnick KR, Smolii OB, Joseph Y, Giovine M, Bornstein SR, Stelling AL, Tunger A, Schmitz M, Taniya OS, Kovalev IS, Zyryanov GV, Guan K, and Ehrlich H

Subjects
Animals, Cell Line, Tumor, Delayed-Action Preparations chemistry, Delayed-Action Preparations pharmacokinetics, Humans, Induced Pluripotent Stem Cells cytology, MCF-7 Cells, Myocytes, Cardiac cytology, Acetonitriles chemistry, Acetonitriles pharmacokinetics, Acetonitriles pharmacology, Alkaloids chemistry, Alkaloids pharmacokinetics, Alkaloids pharmacology, Aquatic Organisms chemistry, Biomimetic Materials chemistry, Biomimetic Materials pharmacokinetics, Biomimetic Materials pharmacology, Cyclohexenes chemistry, Cyclohexenes pharmacokinetics, Cyclohexenes pharmacology, Induced Pluripotent Stem Cells metabolism, Myocytes, Cardiac metabolism, Porifera chemistry
Abstract

Marine demosponges of the Verongiida order are considered a gold-mine for bioinspired materials science and marine pharmacology. The aim of this work was to simultaneously isolate selected bromotyrosines and unique chitinous structures from A. aerophoba and to propose these molecules and biomaterials for possible application as antibacterial and antitumor compounds and as ready-to-use scaffolds for cultivation of cardiomyocytes, respectively. Among the extracted bromotyrosines, the attention has been focused on aeroplysinin-1 that showed interesting unexpected growth inhibition properties for some Gram-negative clinical multi-resistant bacterial strains, such as A. baumannii and K. pneumoniae, and on aeroplysinin-1 and on isofistularin-3 for their anti-tumorigenic activity. For both compounds, the effects are cell line dependent, with significant growth inhibition activity on the neuroblastoma cell line SH-SY5Y by aeroplysinin-1 and on breast cancer cell line MCF-7 by isofistularin-3. In this study, we also compared the cultivation of human induced pluripotent stem cell-derived cardiomyocytes (iPSC-CMs) on the A. aerophoba chitinous scaffolds, in comparison to chitin structures that were pre-coated with Geltrex™, an extracellular matrix mimetic which is used to enhance iPSC-CM adhesion. The iPSC-CMs on uncoated and pure chitin structures started contracting 24 h after seeding, with comparable behaviour observed on Geltrex-coated cell culture plates, confirming the biocompatibility of the sponge biomaterial with this cell type. The advantage of A. aerophoba is that this source organism does not need to be collected in large quantities to supply the necessary amount for further pre-clinical studies before chemical synthesis of the active compounds will be available. A preliminary analysis of marine sponge bioeconomy as a perspective direction for application of biomaterials and secondary bioactive metabolites has been finally performed for the first time., 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 © 2019 Elsevier B.V. All rights reserved.)

Published
2020
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22. Spider Chitin. The biomimetic potential and applications of Caribena versicolor tubular chitin.

Author

Machałowski T, Wysokowski M, Żółtowska-Aksamitowska S, Bechmann N, Binnewerg B, Schubert M, Guan K, Bornstein SR, Czaczyk K, Pokrovsky O, Kraft M, Bertau M, Schimpf C, Rafaja D, Tsurkan M, Galli R, Meissner H, Petrenko I, Fursov A, Voronkina A, Figlerowicz M, Joseph Y, Jesionowski T, and Ehrlich H

Subjects
Animals, Cells, Cultured, Humans, Arachnida metabolism, Biomimetic Materials chemistry, Chitin chemistry, Tissue Engineering, Tissue Scaffolds chemistry
Abstract

Diverse fields of modern technology and biomedicine can benefit from the application of ready-to-use chitin-based scaffolds. In this work we show for the first time the applicability of tubular and porous chitin from Caribena versicolor spiders as a scaffold for the development of an effective CuO/Cu(OH) 2 catalyst for the reduction of 4-nitrophenol (4-NP) to 4-aminophenol (4-AM), and as a scaffold for the tissue engineering of selected cells. The formation of CuO/Cu(OH) 2 phases on and within the chitinous tubes leads to a hybrid material with excellent catalytic performance with respect to the reduction of p-nitrophenol. On the other hand, experimental results provide for the first time strong evidence for the biocompatibility of spider chitin with different cell types, a human progenitor cell line (hPheo1), as well as cardiomyocytes differentiated from induced pluripotent stem cells (iPSC-CMs) that were cultured on a tube-like scaffold., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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23. Naturally Prefabricated Marine Biomaterials: Isolation and Applications of Flat Chitinous 3D Scaffolds from Ianthella labyrinthus (Demospongiae: Verongiida).

Author

Schubert M, Binnewerg B, Voronkina A, Muzychka L, Wysokowski M, Petrenko I, Kovalchuk V, Tsurkan M, Martinovic R, Bechmann N, Ivanenko VN, Fursov A, Smolii OB, Fromont J, Joseph Y, Bornstein SR, Giovine M, Erpenbeck D, Guan K, and Ehrlich H

Subjects
Animals, Biological Dressings, Chitin chemistry, Humans, Printing, Three-Dimensional, Tissue Engineering, Tissue Scaffolds chemistry, Aquatic Organisms chemistry, Biocompatible Materials chemistry, Biological Products chemistry, Porifera chemistry
Abstract

Marine sponges remain representative of a unique source of renewable biological materials. The demosponges of the family Ianthellidae possess chitin-based skeletons with high biomimetic potential. These three-dimensional (3D) constructs can potentially be used in tissue engineering and regenerative medicine. In this study, we focus our attention, for the first time, on the marine sponge Ianthella labyrinthus Bergquist & Kelly-Borges, 1995 (Demospongiae: Verongida: Ianthellidae) as a novel potential source of naturally prestructured bandage-like 3D scaffolds which can be isolated simultaneously with biologically active bromotyrosines. Specifically, translucent and elastic flat chitinous scaffolds have been obtained after bromotyrosine extraction and chemical treatments of the sponge skeleton with alternate alkaline and acidic solutions. For the first time, cardiomyocytes differentiated from human induced pluripotent stem cells (iPSC-CMs) have been used to test the suitability of I. labyrinthus chitinous skeleton as ready-to-use scaffold for their cell culture. Results reveal a comparable attachment and growth on isolated chitin-skeleton, compared to scaffolds coated with extracellular matrix mimetic Geltrex ® . Thus, the natural, unmodified I. labyrinthus cleaned sponge skeleton can be used to culture iPSC-CMs and 3D tissue engineering. In addition, I. labyrinthus chitin-based scaffolds demonstrate strong and efficient capability to absorb blood deep into the microtubes due to their excellent capillary effect. These findings are suggestive of the future development of new sponge chitin-based absorbable hemostats as alternatives to already well recognized cellulose-based fabrics.

Published
2019
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24. New Source of 3D Chitin Scaffolds: The Red Sea Demosponge Pseudoceratina arabica (Pseudoceratinidae, Verongiida).

Author

Shaala LA, Asfour HZ, Youssef DTA, Żółtowska-Aksamitowska S, Wysokowski M, Tsurkan M, Galli R, Meissner H, Petrenko I, Tabachnick K, Ivanenko VN, Bechmann N, Muzychka LV, Smolii OB, Martinović R, Joseph Y, Jesionowski T, and Ehrlich H

Subjects
Animals, Chitin isolation & purification, Chitin ultrastructure, Indian Ocean, Microscopy, Electron, Scanning methods, Porifera ultrastructure, Spectrometry, Mass, Electrospray Ionization, Spectroscopy, Fourier Transform Infrared, Chitin chemistry, Porifera chemistry
Abstract

The bioactive bromotyrosine-derived alkaloids and unique morphologically-defined fibrous skeleton of chitin origin have been found recently in marine demosponges of the order Verongiida. The sophisticated three-dimensional (3D) structure of skeletal chitinous scaffolds supported their use in biomedicine, tissue engineering as well as in diverse modern technologies. The goal of this study was the screening of new species of the order Verongiida to find another renewable source of naturally prefabricated 3D chitinous scaffolds. Special attention was paid to demosponge species, which could be farmed on large scale using marine aquaculture methods. In this study, the demosponge Pseudoceratina arabica collected in the coastal waters of the Egyptian Red Sea was examined as a potential source of chitin for the first time. Various bioanalytical tools including scanning electron microscopy (SEM), fluorescence microscopy, FTIR analysis, Calcofluor white staining, electrospray ionization mass spectrometry (ESI-MS), as well as a chitinase digestion assay were successfully used to confirm the discovery of α-chitin within the skeleton of P. arabica . The current finding should make an important contribution to the field of application of this verongiid sponge as a novel renewable source of biologically-active metabolites and chitin, which are important for development of the blue biotechnology especially in marine oriented biomedicine.

Published
2019
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25. In situ-forming, cell-instructive hydrogels based on glycosaminoglycans with varied sulfation patterns.

Author

Atallah P, Schirmer L, Tsurkan M, Putra Limasale YD, Zimmermann R, Werner C, and Freudenberg U

Subjects
Adult, Cells, Cultured, Humans, Male, Proto-Oncogene Proteins c-sis chemistry, Young Adult, Glycosaminoglycans chemistry, Heparin chemistry, Hydrogels chemistry, Mesenchymal Stem Cells cytology
Abstract

Glycosaminoglycan (GAG)-based hydrogels were proven highly effective to direct cell fate decisions by modulating the administration of cytokines. The sulfation pattern of the GAG component critically controls its affinity to proteins and thus governs the release of cytokines from GAG-containing gel systems. To apply this principle in the design of in situ assembling materials suitable for cell embedding and injection into tissues, we developed a platform of bio-orthogonally crosslinked star-shaped poly(ethylene glycol) (starPEG)-GAG hydrogels that display variable GAG sulfation patterns. Combining rational design for tuning the hydrogel network properties and a reaction-diffusion model for predicting transport processes within the matrices, we exemplarily applied the resulting materials for tailoring morphogenic and chemotactic gradients of platelet-derived growth factor-BB (PDGF-BB) in 3D. Conditions identified with this approach were demonstrated to effectively control the fate and morphogenesis of embedded mesenchymal stem cells (MSCs). Adjusting the sulfation patterns of glycosamnioglycans used in the preparation of in situ forming hydrogels is thus concluded to create new powerful options for modulating biomolecular signals in cell fate control, paving the way for advanced 3D cultures and precision tissue engineering., (Copyright © 2018. Published by Elsevier Ltd.)

Published
2018
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26. Defined Geldrop Cultures Maintain Neural Precursor Cells.

Author

Vogler S, Prokoph S, Freudenberg U, Binner M, Tsurkan M, Werner C, and Kempermann G

Subjects
Animals, Cell Adhesion drug effects, Cell Differentiation drug effects, Cell Self Renewal drug effects, Glycosaminoglycans chemistry, Hydrogels chemistry, Mice, Neural Stem Cells metabolism, Polyethylene Glycols chemistry, rho-Associated Kinases metabolism, Cell Culture Techniques methods, Hydrogels pharmacology, Neural Stem Cells cytology, Neural Stem Cells drug effects
Abstract

Distinct micro-environmental properties have been reported to be essential for maintenance of neural precursor cells (NPCs) within the adult brain. Due to high complexity and technical limitations, the natural niche can barely be studied systematically in vivo. By reconstituting selected environmental properties (adhesiveness, proteolytic degradability, and elasticity) in geldrop cultures, we show that NPCs can be maintained stably at high density over an extended period of time (up to 8 days). In both conventional systems, neurospheres and monolayer cultures, they would expand and (in the case of neurospheres) differentiate rapidly. Further, we report a critical dualism between matrix adhesiveness and degradability. Only if both features are functional NPCs stay proliferative. Lastly, Rho-associated protein kinase was identified as part of a pivotal intracellular signaling cascade controlling cell morphology in response to environmental cues inside geldrop cultures. Our findings demonstrate that simple manipulations of the microenvironment in vitro result in an important preservation of stemness features in the cultured precursor cells.

Published
2018
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27. Discovery of chitin in skeletons of non-verongiid Red Sea demosponges.

Author

Ehrlich H, Shaala LA, Youssef DTA, Żółtowska-Aksamitowska S, Tsurkan M, Galli R, Meissner H, Wysokowski M, Petrenko I, Tabachnick KR, Ivanenko VN, Bechmann N, Joseph Y, and Jesionowski T

Subjects
Animals, Chitin metabolism, Chitinases metabolism, Porifera anatomy & histology, Skeleton anatomy & histology, Chitin analysis, Chitin isolation & purification, Porifera metabolism, Skeleton metabolism
Abstract

Marine demosponges (Porifera: Demospongiae) are recognized as first metazoans which have developed over millions of years of evolution effective survival strategies based on unique metabolic pathways to produce both biologically active secondary metabolites and biopolymer-based stiff skeletons with 3D architecture. Up to date, among marine demosponges, only representatives of the Verongiida order have been known to synthetize biologically active substances as well as skeletons made of structural polysaccharide chitin. This work, to our knowledge, demonstrates for the first time that chitin is an important structural component within skeletons of non-verongiid demosponges Acarnus wolffgangi and Echinoclathria gibbosa collected in the Red Sea. Calcofluor white staining, FTIR and Raman analysis, ESI-MS, SEM, and fluorescence microscopy as well as a chitinase digestion assay were applied in order to confirm, with strong evidence, the finding of α-chitin in the skeleton of both species. We suggest that, the finding of chitin within these representatives of Poecilosclerida order is a promising step in the evaluation of these sponges as novel renewable sources for both biologically active metabolites and chitin, which are of prospective application for pharmacology and biomedicine.

Published
2018
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28. Combined influence of biophysical and biochemical cues on maintenance and proliferation of hematopoietic stem cells.

Author

Gvaramia D, Müller E, Müller K, Atallah P, Tsurkan M, Freudenberg U, Bornhäuser M, and Werner C

Subjects
Analysis of Variance, Cell Culture Techniques, Cell Cycle drug effects, Cell Differentiation drug effects, Cells, Cultured, Extracellular Matrix Proteins chemistry, Extracellular Matrix Proteins metabolism, Glycosaminoglycans pharmacology, Hematopoietic Stem Cells physiology, Humans, Stem Cell Niche drug effects, Cell Proliferation drug effects, Hematopoietic Stem Cells drug effects, Hydrogel, Polyethylene Glycol Dimethacrylate pharmacology
Abstract

Homeostasis of hematopoietic stem and progenitor cells (HSPC) is controlled by a combination of biochemical and biophysical environmental cues in the bone marrow (BM) niche, where a tight balance of quiescence and proliferation of HSPC is maintained. Specifically, alongside soluble factors and extracellular matrix (ECM) proteins, spatial confinement and ECM stiffness have been recognized to be critical for regulation of HSPC fate. Here we employ a modular, glycosaminoglycan (GAG)-based biohybrid hydrogel system to balance proliferation of human HSPC and maintenance of quiescent hematopoietic stem cells (HSC) through simultaneous regulation of exogenous biochemical and biophysical cues. Our results demonstrate that HSPC respond to increased spatial confinement with lowered proliferation and cell cycling, which results in higher frequency of quiescent LTC-IC (long-term culture initiating cells), while GAG-rich 3D environments further support maintenance of the cells., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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29. Heparin-Modified Polyethylene Glycol Microparticle Aggregates for Focal Cancer Chemotherapy.

Author

Seib FP, Tsurkan M, Freudenberg U, Kaplan DL, and Werner C

Abstract

Focal cancer therapy can improve clinical outcomes. Here, we evaluated injectable heparin-containing hydrogel material loaded with doxorubicin as a focal breast cancer therapy. We utilized a binary heparin/polyethylene glycol (PEG) hydrogel that was processed post synthesis into hydrogel microparticle aggregates to yield a readily injectable hydrogel. When loaded with doxorubicin, the injectable hydrogel microparticle aggregates had excellent short- and long-term anticancer activity against human breast cancer cells in vitro. Efficacy as a focal anticancer therapy was also evaluated in vivo by local injection of the doxorubicin-loaded PEG-heparin hydrogel microparticle aggregates into mice with established human orthotopic breast tumors. Animals showed significant antitumor responses by reduction in both primary tumor growth and metastasis when compared to animals that received the equivalent doxorubicin dose via an intravenous bolus injection. Overall, PEG-heparin hydrogel microparticle aggregates are emerging as a potential anticancer drug delivery system for focal therapy.

Published
2016
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30. Tackling Cell Transplantation Anoikis: An Injectable, Shape Memory Cryogel Microcarrier Platform Material for Stem Cell and Neuronal Cell Growth.

Author

Newland B, Welzel PB, Newland H, Renneberg C, Kolar P, Tsurkan M, Rosser A, Freudenberg U, and Werner C

Subjects
Animals, Cell Movement drug effects, Cell Proliferation drug effects, Injections, Neurons drug effects, PC12 Cells, Rats, Rats, Transgenic, Stem Cells drug effects, Anoikis drug effects, Cell Transplantation, Cryogels pharmacology, Microspheres, Neurons cytology, Stem Cells cytology
Abstract

Highly macroporous semisynthetic cryogel microcarriers can be synthesized for culturing stem cells and neuronal type cells. Growth factors loaded to heparin-containing microcarriers show near zero-order release kinetics and cell-loaded microcarriers can be injected through a fine gauge cannula without negative effect on the cells. These carriers can be applied for cell transplantation applications., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2015
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31. The multi-layered protective cuticle of Collembola: a chemical analysis.

Author

Nickerl J, Tsurkan M, Hensel R, Neinhuis C, and Werner C

Subjects
Amino Acids analysis, Animal Shells ultrastructure, Animals, Chitin analysis, Chromatography, High Pressure Liquid, Chromatography, Thin Layer, Gas Chromatography-Mass Spectrometry, Germany, Hexanes, Insecta chemistry, Lipids analysis, Methylene Chloride, Microscopy, Electron, Animal Shells chemistry, Insect Proteins chemistry, Insecta anatomy & histology
Abstract

Collembola, also known as springtails, are soil-dwelling arthropods that typically respire through the cuticle. To avoid suffocating in wet conditions, Collembola have evolved a complex, hierarchically nanostructured, cuticle surface that repels water with remarkable efficiency. In order to gain a more profound understanding of the cuticle characteristics, the chemical composition and architecture of the cuticle of Tetrodontophora bielanensis was studied. A stepwise removal of the different cuticle layers enabled controlled access to each layer that could be analysed separately by chemical spectrometry methods and electron microscopy. We found a cuticle composition that consisted of three characteristic layers, namely, a chitin-rich lamellar base structure overlaid by protein-rich nanostructures, and a lipid-rich envelope. The specific functions, composition and biological characteristics of each cuticle layer are discussed with respect to adaptations of Collembola to their soil habitat. It was found that the non-wetting characteristics base on a rather typical arthropod cuticle surface chemistry which confirms the decisive role of the cuticle topography., (© 2014 The Author(s) Published by the Royal Society. All rights reserved.)

Published
2014
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32. Minimal peptide motif for non-covalent peptide-heparin hydrogels.

Author

Wieduwild R, Tsurkan M, Chwalek K, Murawala P, Nowak M, Freudenberg U, Neinhuis C, Werner C, and Zhang Y

Subjects
Amino Acid Sequence, Molecular Sequence Data, Extracellular Matrix chemistry, Heparin chemistry, Hydrogels, Peptides chemistry
Abstract

Reduction of complexity of the extracellular matrix (ECM) to a non-covalent structure with minimal chemically defined components represents an attractive avenue for understanding the biology of the ECM. The resulting system could lead to the design of tailor-made biomaterials that incorporate varying functionalities. Negatively charged glycosaminoglycans are the major components of the ECM. Their interaction with positively charged proteins is important for dynamic three-dimensional scaffold formation and function. We designed and screened minimal peptide motifs whose conjugates with polyethylene glycol interact with heparin to form non-covalent hydrogels. Here we show the structure/function relationship of the (RA)(n) and (KA)(n) motifs and determined that both basic residues and the heparin-induced α-helix formation are important for the assembly process. Simple rules allowed us to tune various aspects of the matrix system such as the gelation rates, biodegradability, rheological properties, and biofunctionality. The hydrogels can encapsulate cells and support cell survival.

Published
2013
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33. Mineralization of the metre-long biosilica structures of glass sponges is templated on hydroxylated collagen.

Author

Ehrlich H, Deutzmann R, Brunner E, Cappellini E, Koon H, Solazzo C, Yang Y, Ashford D, Thomas-Oates J, Lubeck M, Baessmann C, Langrock T, Hoffmann R, Wörheide G, Reitner J, Simon P, Tsurkan M, Ereskovsky AV, Kurek D, Bazhenov VV, Hunoldt S, Mertig M, Vyalikh DV, Molodtsov SL, Kummer K, Worch H, Smetacek V, and Collins MJ

Subjects
Amino Acid Motifs, Amino Acid Sequence, Animals, Evolution, Molecular, Hydroxylation, Nanoparticles chemistry, Nanoparticles ultrastructure, Collagen chemistry, Porifera chemistry, Silicon Dioxide chemistry
Abstract

The minerals involved in the formation of metazoan skeletons principally comprise glassy silica, calcium phosphate or carbonate. Because of their ancient heritage, glass sponges (Hexactinellida) may shed light on fundamental questions such as molecular evolution, the unique chemistry and formation of the first skeletal silica-based structures, and the origin of multicellular animals. We have studied anchoring spicules from the metre-long stalk of the glass rope sponge (Hyalonema sieboldi; Porifera, Class Hexactinellida), which are remarkable for their size, durability, flexibility and optical properties. Using slow-alkali etching of biosilica, we isolated the organic fraction, which was revealed to be dominated by a hydroxylated fibrillar collagen that contains an unusual [Gly-3Hyp-4Hyp] motif. We speculate that this motif is predisposed for silica precipitation, and provides a novel template for biosilicification in nature.

Published
2010
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