Your search keyword '"Will, Olga"' showing total 30 results

1. Multi-modal investigation of the bone micro- and ultrastructure, and elemental distribution in the presence of Mg-xGd screws at mid-term healing stages

Author

Iskhakova, Kamila, Cwieka, Hanna, Meers, Svenja, Helmholz, Heike, Davydok, Anton, Storm, Malte, Baltruschat, Ivo Matteo, Galli, Silvia, Pröfrock, Daniel, Will, Olga, Gerle, Mirko, Damm, Timo, Sefa, Sandra, He, Weilue, MacRenaris, Keith, Soujon, Malte, Beckmann, Felix, Moosmann, Julian, O'Hallaran, Thomas, Guillory, Roger J., II, Wieland, D.C. Florian, Zeller-Plumhoff, Berit, and Willumeit-Römer, Regine

Published

2024

2. Inflammatory response toward a Mg-based metallic biomaterial implanted in a rat femur fracture model

Author

Riyaz, Sana, Sun, Yu, Helmholz, Heike, Medina, Tuula Penate, Medina, Oula Penate, Wiese, Björn, Will, Olga, Albaraghtheh, Tamadur, Mohamad, Farhad Haj, Hövener, Jan-Bernd, Glüer, Claus Christian, and Römer, Regine Willumeit

Published

2024

3. Maternal microbiota communicates with the fetus through microbiota-derived extracellular vesicles

Author

Kaisanlahti, Anna, Turunen, Jenni, Byts, Nadiya, Samoylenko, Anatoliy, Bart, Genevieve, Virtanen, Nikke, Tejesvi, Mysore V., Zhyvolozhnyi, Artem, Sarfraz, Sonia, Kumpula, Sohvi, Hekkala, Jenni, Salmi, Sonja, Will, Olga, Korvala, Johanna, Paalanne, Niko, Erawijantari, Pande Putu, Suokas, Marko, Medina, Tuula Peñate, Vainio, Seppo, Medina, Oula Peñate, Lahti, Leo, Tapiainen, Terhi, and Reunanen, Justus

Published

2023

4. Multiscale morphological analysis of bone microarchitecture around Mg-10Gd implants

Author

Sefa, Sandra, Espiritu, Jonathan, Ćwieka, Hanna, Greving, Imke, Flenner, Silja, Will, Olga, Beuer, Susanne, Wieland, D.C Florian, Willumeit-Römer, Regine, and Zeller-Plumhoff, Berit

Published

2023

5. Performance and reproducibility of 13C and 15N hyperpolarization using a cryogen-free DNP polarizer

Author

Ferrari, Arianna, Peters, Josh, Anikeeva, Mariia, Pravdivtsev, Andrey, Ellermann, Frowin, Them, Kolja, Will, Olga, Peschke, Eva, Yoshihara, Hikari, Jansen, Olav, and Hövener, Jan-Bernd

Published

2022

6. Comparison of photoacoustic and fluorescence tomography for the in vivo imaging of ICG-labelled liposomes in the medullary cavity in mice

Author

Humbert, Jana, Will, Olga, Peñate-Medina, Tuula, Peñate-Medina, Oula, Jansen, Olav, Both, Marcus, and Glüer, Claus-Christian

Published

2020

7. Dasatinib prevents skeletal metastasis of osteotropic MDA-MB-231 cells in a xenograft mouse model

Author

Heilmann, Thorsten, Rumpf, Anna-Lena, Roscher, Marijke, Tietgen, Maren, Will, Olga, Gerle, Mirko, Damm, Timo, Borzikowsky, Christoph, Maass, Nicolai, Glüer, Claus-Christian, Tiwari, Sanjay, Trauzold, Anna, and Schem, Christian

Published

2020

8. Temporal and regional expression changes and co‐staining patterns of metabolic and stemness‐related markers during glioblastoma progression.

Author

Kubelt, Carolin, Gilles, Lea, Hellmold, Dana, Blumenbecker, Tjorven, Peschke, Eva, Will, Olga, Ahmeti, Hajrullah, Hövener, Jan‐Bernd, Jansen, Olav, Lucius, Ralph, Synowitz, Michael, and Held‐Feindt, Janka

Subjects

MONOCARBOXYLATE transporters, KRUPPEL-like factors, PYRUVATE kinase, GLUCOSE transporters, GLIOBLASTOMA multiforme, NESTIN

Abstract

Glioblastomas (GBMs) are characterized by high heterogeneity, involving diverse cell types, including those with stem‐like features contributing to GBM's malignancy. Moreover, metabolic alterations promote growth and therapeutic resistance of GBM. Depending on the metabolic state, antimetabolic treatments could be an effective strategy. Against this background, we investigated temporal and regional expression changes and co‐staining patterns of selected metabolic markers [pyruvate kinase muscle isozyme 1/2 (PKM1/2), glucose transporter 1 (GLUT1), monocarboxylate transporter 1/4 (MCT1/4)] in a rodent model and patient‐derived samples of GBM. To understand the cellular sources of marker expression, we also examined the connection of metabolic markers to markers related to stemness [Nestin, Krüppel‐like factor 4 (KLF4)] in a regional and temporal context. Rat tumour biopsies revealed a temporally increasing expression of GLUT1, higher expression of MCT1/4, Nestin and KLF4, and lower expression of PKM1 compared to the contralateral hemisphere. Patient‐derived tumours showed a higher expression of PKM2 and Nestin in the tumour centre vs. edge. Whereas rare co‐staining of GLUT1/Nestin was found in tumour biopsies, PKM1/2 and MCT1/4 showed a more distinct co‐staining with Nestin in rats and humans. KLF4 was mainly co‐stained with GLUT1, MCT1 and PKM1/2 in rat and human tumours. All metabolic markers yielded individual co‐staining patterns among themselves. Co‐staining mainly occurred later in tumour progression and was more pronounced in tumour centres. Also, positive correlations were found amongst markers that showed co‐staining. Our results highlight a link between metabolic alterations and stemness in GBM progression, with complex distinctions depending on studied markers, time points and regions. [ABSTRACT FROM AUTHOR]

Published

2024

9. Telmisartan prevents high-fat diet-induced neurovascular impairments and reduces anxiety-like behavior

Author

Huber, Gianna, Ogrodnik, Mikolaj, Wenzel, Jan, Stölting, Ines, Huber, Lukas, Will, Olga, Peschke, Eva, Matschl, Urte, Hövener, Jan-Bernd, Schwaninger, Markus, Jurk, Diana, and Raasch, Walter

Published

2021

10. An experimental study on antitumoral effects of KI-21-3, a synthetic fragment of antimicrobial peptide LL-37, on oral squamous cell carcinoma

Author

Açil, Yahya, Torz, Kaspar, Gülses, Aydin, Wieker, Henning, Gerle, Mirko, Purcz, Nicolai, Will, Olga Marie, Eduard Meyer, Jens, and Wiltfang, Jörg

Published

2018

11. Incidence of microvascular dysfunction is increased in hyperlipidemic mice, reducing cerebral blood flow and impairing remote memory.

Author

Hernandez Torres, Luis Daniel, Rezende, Flavia, Peschke, Eva, Will, Olga, Hövener, Jan-Bernd, Spiecker, Frauke, Özorhan, Ümit, Lampe, Josephine, Stölting, Ines, Aherrahrou, Zouhair, Künne, Carsten, Kusche-Vihrog, Kristina, Matschl, Urte, Hille, Susanne, Brandes, Ralf P., Schwaninger, Markus, Müller, Oliver J., and Raasch, Walter

Subjects

MICROCIRCULATION disorders, CEREBRAL circulation, MAZE tests, BLOOD flow, CINGULATE cortex, WESTERN diet

Abstract

Introduction: The development of cognitive dysfunction is not necessarily associated with diet-induced obesity. We hypothesized that cognitive dysfunction might require additional vascular damage, for example, in atherosclerotic mice. Methods: We induced atherosclerosis in male C57BL/6N mice by injecting AAV-PCSK9DY (2x1011 VG) and feeding them a cholesterol-rich Western diet. After 3 months, mice were examined for cognition using Barnes maze procedure and for cerebral blood flow. Cerebral vascular morphology was examined by immunehistology. Results: In AAV-PCSK9DY-treated mice, plaque burden, plasma cholesterol, and triglycerides are elevated. RNAseq analyses followed by KEGG annotation show increased expression of genes linked to inflammatory processes in the aortas of these mice. In AAV-PCSK9DY-treated mice learning was delayed and long-term memory impaired. Blood flow was reduced in the cingulate cortex (-17%), caudate putamen (-15%), and hippocampus (-10%). Immunohistological studies also show an increased incidence of string vessels and pericytes (CD31/Col IV staining) in the hippocampus accompanied by patchy blood-brain barrier leaks (IgG staining) and increased macrophage infiltrations (CD68 staining). Discussion: We conclude that the hyperlipidemic PCSK9DY mouse model can serve as an appropriate approach to induce microvascular dysfunction that leads to reduced blood flow in the hippocampus, which could explain the cognitive dysfunction in these mice. [ABSTRACT FROM AUTHOR]

Published

2024

12. Epithelial and Mesenchymal-like Pancreatic Cancer Cells Exhibit Different Stem Cell Phenotypes Associated with Different Metastatic Propensities.

Author

Philipp, Lisa-Marie, Yesilyurt, Umut-Ulas, Surrow, Arne, Künstner, Axel, Mehdorn, Anne-Sophie, Hauser, Charlotte, Gundlach, Jan-Paul, Will, Olga, Hoffmann, Patrick, Stahmer, Lea, Franzenburg, Sören, Knaack, Hendrike, Schumacher, Udo, Busch, Hauke, and Sebens, Susanne

Subjects

PANCREATIC tumors, ADENOCARCINOMA, IN vitro studies, METASTASIS, NEUROPLASTICITY, EPITHELIAL-mesenchymal transition, GENE expression, RESEARCH funding, CELL lines, PHENOTYPES

Abstract

Simple Summary: Pancreatic ductal adenocarcinoma (PDAC) is characterized by high tumor cell plasticity and heterogeneity, contributing to poor prognosis and treatment failure. Epithelial–mesenchymal transition (EMT) and gain of cancer stem cell (CSC) properties are crucial processes determining tumor cell plasticity. Investigating CSC and non-CSC clones from PDAC cell lines revealed that epithelial and mesenchymal-like CSCs are characterized by different self-renewal abilities and metastatic propensities. Epithelial CSCs were characterized by the expression of the CSC marker SOX2, fast cell growth, and strong self-renewal ability in vitro, together with massive tumor formation in vivo. In contrast, mesenchymal-like CSCs showed a strong expression of the CSC marker Nestin, slower cell growth, self-renewal ability in vitro, and the formation of higher numbers of smaller tumors in vivo. Furthermore, the organ manifestation of mesenchymal-like and epithelial CSC-derived tumors clearly differed. Thus, this study revealed that CSC and non-CSC populations in PDAC can be associated with distinct EMT phenotypes, resulting in distinct metastatic behavior. Pancreatic ductal adenocarcinoma (PDAC) is mostly diagnosed at advanced or even metastasized stages, limiting the prognoses of patients. Metastasis requires high tumor cell plasticity, implying phenotypic switching in response to changing environments. Here, epithelial–mesenchymal transition (EMT), being associated with an increase in cancer stem cell (CSC) properties, and its reversion are important. Since it is poorly understood whether different CSC phenotypes exist along the EMT axis and how these impact malignancy-associated properties, we aimed to characterize CSC populations of epithelial and mesenchymal-like PDAC cells. Single-cell cloning revealed CSC (Holoclone) and non-CSC (Paraclone) clones from the PDAC cell lines Panc1 and Panc89. The Panc1 Holoclone cells showed a mesenchymal-like phenotype, dominated by a high expression of the stemness marker Nestin, while the Panc89 Holoclone cells exhibited a SOX2-dominated epithelial phenotype. The Panc89 Holoclone cells showed enhanced cell growth and a self-renewal capacity but slow cluster-like invasion. Contrarily, the Panc1 Holoclone cells showed slower cell growth and self-renewal ability but were highly invasive. Moreover, cell variants differentially responded to chemotherapy. In vivo, the Panc1 and Panc89 cell variants significantly differed regarding the number and size of metastases, as well as organ manifestation, leading to different survival outcomes. Overall, these data support the existence of different CSC phenotypes along the EMT axis in PDAC, manifesting different metastatic propensities. [ABSTRACT FROM AUTHOR]

Published

2024

13. Universal membrane-labeling combined with expression of Katushka far-red fluorescent protein enables non-invasive dynamic and longitudinal quantitative 3D dual-color fluorescent imaging of multiple bacterial strains in mouse intestine

Author

Peñate-Medina, Oula, Tower, Robert J., Peñate-Medina, Tuula, Will, Olga, Saris, Per E. J., Suojanen, Juho, Sorsa, Timo, Huuskonen, Laura, Hiippala, Kaisa, Satokari, Reetta, Glüer, Claus C., de Vos, Willem M., and Reunanen, Justus

Published

2019

14. Polo-like Kinase 2, a Novel ADAM17 Signaling Component, Regulates Tumor Necrosis Factor α Ectodomain Shedding

Author

Schwarz, Jeanette, Schmidt, Stefanie, Will, Olga, Koudelka, Tomas, Köhler, Kaja, Boss, Melanie, Rabe, Björn, Tholey, Andreas, Scheller, Jürgen, Schmidt-Arras, Dirk, Schwake, Michael, Rose-John, Stefan, and Chalaris, Athena

Published

2014

15. DSS-induced acute colitis in C57BL/6 mice is mitigated by sulforaphane pre-treatment

Author

Wagner, Anika E., Will, Olga, Sturm, Christine, Lipinski, Simone, Rosenstiel, Philip, and Rimbach, Gerald

Published

2013

16. Establishment of a Rodent Glioblastoma Partial Resection Model for Chemotherapy by Local Drug Carriers—Sharing Experience.

Author

Kubelt, Carolin, Hellmold, Dana, Peschke, Eva, Hauck, Margarethe, Will, Olga, Schütt, Fabian, Lucius, Ralph, Adelung, Rainer, Scherließ, Regina, Hövener, Jan-Bernd, Jansen, Olav, Synowitz, Michael, and Held-Feindt, Janka

Subjects

BRAIN tumors, DRUG carriers, GLIOBLASTOMA multiforme, DRUG delivery systems, MAGNETIC resonance imaging, TUMOR growth

Abstract

Local drug delivery systems (LDDS) represent a promising therapy strategy concerning the most common and malignant primary brain tumor glioblastoma (GBM). Nevertheless, to date, only a few systems have been clinically applied, and their success is very limited. Still, numerous new LDDS approaches are currently being developed. Here, (partial resection) GBM animal models play a key role, as such models are needed to evaluate the therapy prior to any human application. However, such models are complex to establish, and only a few reports detail the process. Here, we report our results of establishing a partial resection glioma model in rats suitable for evaluating LDDS. C6-bearing Wistar rats and U87MG-spheroids- and patient-derived glioma stem-like cells-bearing athymic rats underwent tumor resection followed by the implantation of an exemplary LDDS. Inoculation, tumor growth, residual tumor tissue, and GBM recurrence were reliably imaged using high-resolution Magnetic Resonance Imaging. The release from an exemplary LDDS was verified in vitro and in vivo using Fluorescence Molecular Tomography. The presented GBM partial resection model appears to be well suited to determine the efficiency of LDDS. By sharing our expertise, we intend to provide a powerful tool for the future testing of these very promising systems, paving their way into clinical application. [ABSTRACT FROM AUTHOR]

Published

2023

17. In Vivo Targeting of Activated Leukocytes by a β2-Integrin Binding Peptide

Author

Ranta, Tanja-Maria, Suojanen, Juho, Peñate-Medina, Oula, Will, Olga, Tower, Robert J., Glüer, Claus, Kairemo, Kalevi, Gahmberg, Carl G., Koivunen, Erkki, Sorsa, Timo, Saris, Per E. J., and Reunanen, Justus

Published

2014

18. Exploring the Usability of α-MSH-SM-Liposome as an Imaging Agent to Study Biodegradable Bone Implants In Vivo.

Author

Riyaz, Sana, Helmholz, Heike, Penate Medina, Tuula, Peñate Medina, Oula, Will, Olga, Sun, Yu, Wiese, Björn, Glüer, Claus-Christian, and Willumeit-Römer, Regine

Subjects

BIOABSORBABLE implants, BIODEGRADABLE materials, DIAGNOSTIC imaging, ALLOYS, FOREIGN bodies, IMAGING systems, LIPOSOMES

Abstract

Novel biodegradable metal alloys are increasingly used as implant materials. The implantation can be accompanied by an inflammatory response to a foreign object. For studying inflammation in the implantation area, non-invasive imaging methods are needed. In vivo imaging for the implanted area and its surroundings will provide beneficiary information to understand implant-related inflammation and help to monitor it. Therefore, inflammation-sensitive fluorescent liposomes in rats were tested in the presence of an implant to evaluate their usability in studying inflammation. The sphingomyelin-containing liposomes carrying alpha-melanocyte-stimulating hormone (α-MSH)-peptide were tested in a rat bone implant model. The liposome interaction with implant material (Mg-10Gd) was analyzed with Mg-based implant material (Mg-10Gd) in vitro. The liposome uptake process was studied in the bone-marrow-derived macrophages in vitro. Finally, this liposomal tracer was tested in vivo. It was found that α-MSH coupled sphingomyelin-containing liposomes and the Mg-10Gd implant did not have any disturbing influence on each other. The clearance of liposomes was observed in the presence of an inert and biodegradable implant. The degradable Mg-10Gd was used as an alloy example; however, the presented imaging system offers a new possible use of α-MSH-SM-liposomes as tools for investigating implant responses. [ABSTRACT FROM AUTHOR]

Published

2023

19. Performance and reproducibility of 13C and 15N hyperpolarization using a cryogen-free DNP polarizer.

Author

Ferrari, Arianna, Peters, Josh, Anikeeva, Mariia, Pravdivtsev, Andrey, Ellermann, Frowin, Them, Kolja, Will, Olga, Peschke, Eva, Yoshihara, Hikari, Jansen, Olav, and Hövener, Jan-Bernd

Subjects

POLARIZATION (Nuclear physics), CONTRAST media, ACID solutions, SIGNAL sampling, AQUEOUS solutions, PYRUVATES

Abstract

The setup, operational procedures and performance of a cryogen-free device for producing hyperpolarized contrast agents using dissolution dynamic nuclear polarization (dDNP) in a preclinical imaging center is described. The polarization was optimized using the solid-state, DNP-enhanced NMR signal to calibrate the sample position, microwave and NMR frequency and power and flip angle. The polarization of a standard formulation to yield ~ 4 mL, 60 mM 1-13C-pyruvic acid in an aqueous solution was quantified in five experiments to P(13C) = (38 ± 6) % (19 ± 1) s after dissolution. The mono-exponential time constant of the build-up of the solid-state polarization was quantified to (1032 ± 22) s. We achieved a duty cycle of 1.5 h that includes sample loading, monitoring the polarization build-up, dissolution and preparation for the next run. After injection of the contrast agent in vivo, pyruvate, pyruvate hydrate, lactate, and alanine were observed, by measuring metabolite maps. Based on this work sequence, hyperpolarized 15N urea was obtained (P(15N) = (5.6 ± 0.8) % (30 ± 3) s after dissolution). [ABSTRACT FROM AUTHOR]

Published

2022

20. Dynamic in vivo monitoring of fracture healing process in response to magnesium implant with multimodal imaging: pilot longitudinal study in a rat external fixation model.

Author

Sun, Yu, Helmholz, Heike, Will, Olga, Damm, Timo, Wiese, Björn, Luczak, Monika, Peschke, Eva, Luthringer-Feyerabend, Bérengεave;re, Ebel, Thomas, Hövener, Jan-Bernd, Glüer, Claus-Christian, and Willumeit-Römer, Regine

Published

2022

21. Tissue responses after implantation of biodegradable Mg alloys evaluated by multimodality 3D micro‐bioimaging in vivo.

Author

Helmholz, Heike, Will, Olga, Penate‐Medina, Tuula, Humbert, Jana, Damm, Timo, Luthringer‐Feyerabend, Berengere, Willumeit‐Römer, Regine, Glüer, Claus‐Christian, and Penate‐Medina, Oula

Abstract

The local response of tissue triggered by implantation of degradable magnesium‐based implant materials was investigated in vivo in a murine model. Pins (5.0 mm length by 0.5 mm diameter) made of Mg, Mg‐10Gd, and Ti were implanted in the leg muscle tissue of C57Bl/6N mice (n = 6). Implantation was generally well tolerated as documented by only a mild short term increase in a multidimensional scoring index. Lack of difference between the groups indicated that the response was systemic and surgery related rather than material dependent. Longitudinal in vivo monitoring utilizing micro‐computed tomography over 42 days demonstrated the highest and most heterogeneous degradation for Mg‐10Gd. Elemental imaging of the explants by micro X‐ray fluorescence spectrometry showed a dense calcium‐phosphate‐containing degradation layer. In order to monitor resulting surgery induced and/or implant material associated local cell stress, sphingomyelin based liposomes containing indocyanine green were administered. An initial increase in fluorescent signals (3–7 days after implantation) indicating cell stress at the site of the implantation was measured by in vivo fluorescent molecular tomography. The signal decreased until the 42nd day for all materials. These findings demonstrate that Mg based implants are well tolerated causing only mild and short term adverse reactions. [ABSTRACT FROM AUTHOR]

Published

2021

22. Longitudinal micro-computed tomography monitoring of progressive liver regeneration in a mouse model of partial hepatectomy.

Author

Will, Olga M., Damm, Timo, Campbell, Graeme M., Glüer, Claus-Christian, von Schönfells, Witigo, Açil, Yahya, Will, Marcus, Chalaris-Rissmann, Athena, Drucker, Claudia, and Ayna, Mustafa

Subjects

*LABORATORY mice, *HEPATECTOMY, *LIVER regeneration, *MAGNETIC resonance imaging, *LIVER cells

Abstract

The partial hepatectomy (PH) model is widely used to study liver regeneration. Currently, the extent of regeneration is analyzed by measuring the weight of the liver post-mortem or by magnetic resonance imaging. In this study we aimed to determine whether liver volume gain can be accurately measured using micro-computed tomography (microCT). Approximately 42% of the liver was removed by ligation in C57BL/6 N mice. Mice were divided into two study groups. In group 1 conventional characterization of liver hyperplasia was performed by weighing the liver post-mortem. In group 2, liver volume gain was determined by microCT volume estimation. MicroCT results showed equivalent regeneration rates compared with the conventional method without the need to mathematically determine initial liver weights before PH. This parameter is strongly influenced by the age, strain and sex of the mice. In addition non-invasive microCT determination of volume gain over multiple time-points using the same animal reduces the number of animals needing to be used (in line with the 3R principle of replacement, reduction and refinement). [ABSTRACT FROM AUTHOR]

Published

2017

23. Alterations of the Blood-Brain Barrier and Regional Perfusion in Tumor Development: MRI Insights from a Rat C6 Glioma Model.

Author

Huhndorf, Monika, Moussavi, Amir, Kramann, Nadine, Will, Olga, Hattermann, Kirsten, Stadelmann, Christine, Jansen, Olav, and Boretius, Susann

Subjects

BLOOD-brain barrier, TUMOR growth, GLIOMA treatment, TUMORS, LABORATORY rats, MAGNETIC resonance imaging

Abstract

Objectives: Angiogenesis and anti-angiogenetic medications play an important role in progression and therapy of glioblastoma. In this context, in vivo characterization of the blood-brain-barrier and tumor vascularization may be important for individual prognosis and therapy optimization. Methods: We analyzed perfusion and capillary permeability of C6-gliomas in rats at different stages of tumor-growth by contrast enhanced MRI and dynamic susceptibility contrast (DSC) MRI at 7 Tesla. The analyses included maps of relative cerebral blood volume (CBV) and signal recovery derived from DSC data over a time period of up to 35 days after tumor cell injections. Results: In all rats tumor progression was accompanied by temporal and spatial changes in CBV and capillary permeability. A leakage of the blood-brain barrier (slow contrast enhancement) was observed as soon as the tumor became detectable on T2-weighted images. Interestingly, areas of strong capillary permeability (fast signal enhancement) were predominantly localized in the center of the tumor. In contrast, the tumor rim was dominated by an increased CBV and showed the highest vessel density compared to the tumor center and the contralateral hemisphere as confirmed by histology. Conclusion: Substantial regional differences in the tumor highlight the importance of parameter maps in contrast or in addition to region-of-interest analyses. The data vividly illustrate how MRI including contrast-enhanced and DSC-MRI may contribute to a better understanding of tumor development. [ABSTRACT FROM AUTHOR]

Published

2016

24. Increased survival rate by local release of diclofenac in a murine model of recurrent oral carcinoma.

Author

Will, Olga Maria, Purcz, Nicolai, Chalaris, Athena, Heneweer, Carola, Boretius, Susann, Purcz, Larissa, Nikkola, Lila, Ashammakhi, Nureddin, Kalthoff, Holger, Glüer, Claus-Christian, Wiltfang, Jörg, Açil, Yahya, and Tiwari, Sanjay

Published

2016

25. Epithelial IL-23R Signaling Licenses Protective IL-22 Responses in Intestinal Inflammation.

Author

Aden, Konrad, Rehman, Ateequr, Falk-Paulsen, Maren, Secher, Thomas, Kuiper, Jan, Tran, Florian, Pfeuffer, Steffen, Sheibani-Tezerji, Raheleh, Breuer, Alexandra, Luzius, Anne, Jentzsch, Marlene, Häsler, Robert, Billmann-Born, Susanne, Will, Olga, Lipinski, Simone, Bharti, Richa, Adolph, Timon, Iovanna, Juan L., Kempster, Sarah L., and Blumberg, Richard S.

Abstract

Summary A plethora of functional and genetic studies have suggested a key role for the IL-23 pathway in chronic intestinal inflammation. Currently, pathogenic actions of IL-23 have been ascribed to specific effects on immune cells. Herein, we unveil a protective role of IL-23R signaling. Mice deficient in IL-23R expression in intestinal epithelial cells ( Il23R ΔIEC ) have reduced Reg3b expression, show a disturbed colonic microflora with an expansion of flagellated bacteria, and succumb to DSS colitis. Surprisingly, Il23R ΔIEC mice show impaired mucosal IL-22 induction in response to IL-23. αThy-1 treatment significantly deteriorates colitis in Il23R ΔIEC animals, which can be rescued by IL-22 application. Importantly, exogenous Reg3b administration rescues DSS-treated Il23R ΔIEC mice by recruiting neutrophils as IL-22-producing cells, thereby restoring mucosal IL-22 levels. The study identifies a critical barrier-protective immune pathway that originates from, and is orchestrated by, IL-23R signaling in intestinal epithelial cells. [ABSTRACT FROM AUTHOR]

Published

2016

26. Binding Kinetics of a Fluorescently Labeled Bisphosphonate as a Tool for Dynamic Monitoring of Bone Mineral Deposition In Vivo.

Author

Tower, Robert J, Campbell, Graeme M, Müller, Marc, Will, Olga, Glüer, Claus C, and Tiwari, Sanjay

Abstract

ABSTRACT Bone mineral deposition during the modeling of new bone and remodeling of old bone can be perturbed by several pathological conditions, including osteoporosis and skeletal metastases. A site-specific marker depicting the dynamics of bone mineral deposition would provide insight into skeletal disease location and severity, and prove useful in evaluating the efficacy of pharmacological interventions. Fluorescent labels may combine advantages of both radioisotope imaging and detailed microscopic analyses. The purpose of this study was to determine if the fluorescent bisphosphonate OsteoSense could detect localized changes in bone mineral deposition in established mouse models of accelerated bone loss (ovariectomy) (OVX) and anabolic bone gain resulting from parathyroid hormone (PTH) treatment. We hypothesized that the early rate of binding, as well as the total amount of bisphosphonate, which binds over long periods of time, could be useful in evaluating changes in bone metabolism. Evaluation of the kinetic uptake of bisphosphonates revealed a significant reduction in both the rate constant and plateau binding after OVX, whereas treatment with PTH resulted in a 36-fold increase in the bisphosphonate binding rate constant compared with untreated OVX controls. Localization of bisphosphonate binding revealed initial binding at sites of ossification adjacent to the growth plate and, to a lesser extent, along more distal trabecular and cortical elements. Micro-computed tomography (CT) was used to confirm that initial bisphosphonate binding is localized to sites of low tissue mineral density, associated with new bone mineral deposition. Our results suggest monitoring binding kinetics based on fluorescently labeled bisphosphonates represents a highly sensitive, site-specific method for monitoring changes in bone mineral deposition with the potential for translation into human applications in osteoporosis and bone metastatic processes and their treatment. © 2014 American Society for Bone and Mineral Research. [ABSTRACT FROM AUTHOR]

Published

2014

27. Metabolic Signature of Electrosurgical Liver Dissection.

Author

von Schönfels, Witigo, von Kampen, Oliver, Patsenker, Eleonora, Stickel, Felix, Schniewind, Bodo, Hinz, Sebastian, Ahrens, Markus, Balschun, Katharina, Egberts, Jan-Hendrik, Richter, Klaus, Landrock, Andreas, Sipos, Bence, Will, Olga, Huebbe, Patrizia, Schreiber, Stefan, Nothnagel, Michael, Röcken, Christoph, Rimbach, Gerald, Becker, Thomas, and Hampe, Jochen

Subjects

LIVER surgery, ELECTROSURGERY, DISSECTION, WOUND healing, PREVENTION of surgical complications, LIVER cells, GAS chromatography/Mass spectrometry (GC-MS)

Abstract

Background and Aims: High frequency electrosurgery has a key role in the broadening application of liver surgery. Its molecular signature, i.e. the metabolites evolving from electrocauterization which may inhibit hepatic wound healing, have not been systematically studied. Methods: Human liver samples were thus obtained during surgery before and after electrosurgical dissection and subjected to a two-stage metabolomic screening experiment (discovery sample: N = 18, replication sample: N = 20) using gas chromatography/mass spectrometry. Results: In a set of 208 chemically defined metabolites, electrosurgical dissection lead to a distinct metabolic signature resulting in a separation in the first two dimensions of a principal components analysis. Six metabolites including glycolic acid, azelaic acid, 2-n-pentylfuran, dihydroactinidiolide, 2-butenal and n-pentanal were consistently increased after electrosurgery meeting the discovery (p<2.0×10−4) and the replication thresholds (p<3.5×10−3). Azelaic acid, a lipid peroxidation product from the fragmentation of abundant sn-2 linoleoyl residues, was most abundant and increased 8.1-fold after electrosurgical liver dissection (preplication = 1.6×10−4). The corresponding phospholipid hexadecyl azelaoyl glycerophosphocholine inhibited wound healing and tissue remodelling in scratch- and proliferation assays of hepatic stellate cells and cholangiocytes, and caused apoptosis dose-dependently in vitro, which may explain in part the tissue damage due to electrosurgery. Conclusion: Hepatic electrosurgery generates a metabolic signature with characteristic lipid peroxidation products. Among these, azelaic acid shows a dose-dependent toxicity in liver cells and inhibits wound healing. These observations potentially pave the way for pharmacological intervention prior liver surgery to modify the metabolic response and prevent postoperative complications. [ABSTRACT FROM AUTHOR]

Published

2013

28. Utilizing Sphingomyelinase Sensitizing Liposomes in Imaging Intestinal Inflammation in Dextran Sulfate Sodium-Induced Murine Colitis.

Author

Penate Medina, Tuula, Pan, Jie, Damoah, Christabel, Humbert, Jana, Köpnick, Anna-Lena, Will, Olga, Sebens, Susanne, and Penate Medina, Oula

Subjects

DEXTRAN sulfate, SPHINGOMYELINASE, INFLAMMATORY bowel diseases, LIPOSOMES, COLITIS

Abstract

Inflammatory bowel disease (IBD) is characterized by chronic inflammation in the gastrointestinal tract, resulting in severe symptoms. At the moment, the goal of medical treatments is to reduce inflammation. IBD is treated with systemic anti-inflammatory compounds, but they have serious side effects. The treatment that is most efficient and causes the fewest side effects would be the delivery of the drugs on the disease site. This study aimed to investigate the suitability of sphingomyelin (SM) containing liposomes to specifically target areas of inflammation in dextran sulfate sodium-induced murine colitis. Sphingomyelin is a substrate to the sphingomyelinase enzyme, which is only present outside cells in cell stress, like inflammation. When sphingomyelin consisting of liposomes is predisposed to the enzyme, it causes the weakening of the membrane structure. We demonstrated that SM-liposomes are efficiently taken up in intestinal macrophages, indicating their delivery potential. Furthermore, our studies showed that sphingomyelinase activity and release are increased in a dextran sulfate sodium-induced IBD mouse model. The enzyme appearance in IBD disease was also traced in intestine samples of the dextran sulfate sodium-treated mice and human tissue samples. The results from the IBD diseased animals, treated with fluorescently labeled SM-liposomes, demonstrated that the liposomes were taken up preferentially in the inflamed colon. This uptake efficiency correlated with sphingomyelinase activity. [ABSTRACT FROM AUTHOR]

Published

2022

29. Lipid-Iron Nanoparticle with a Cell Stress Release Mechanism Combined with a Local Alternating Magnetic Field Enables Site-Activated Drug Release.

Author

Peñate Medina, Tuula, Gerle, Mirko, Humbert, Jana, Chu, Hanwen, Köpnick, Anna-Lena, Barkmann, Reinhard, Garamus, Vasil M., Sanz, Beatriz, Purcz, Nicolai, Will, Olga, Appold, Lia, Damm, Timo, Suojanen, Juho, Arnold, Philipp, Lucius, Ralph, Willumeit-Römer, Regina, Açil, Yahya, Wiltfang, Joerg, Goya, Gerardo F., and Glüer, Claus C.

Subjects

ANIMAL experimentation, BIOLOGICAL models, CISPLATIN, DRUG delivery systems, ENZYMES, IRON, LIPIDS, MAGNETIC fields, ARTIFICIAL membranes, MICE, NANOPARTICLES, FLUORESCENT dyes, IN vitro studies, IN vivo studies

Abstract

Simple Summary: A novel active release system magnetic sphingomyelin-containing liposome encapsulated with indocyanine green, fluorescent marker, or the anticancer drug cisplatin was evaluated. The liposomal sphingomyelin is a target for the sphingomyelinase enzyme, which is released by stressed cells. Thus, sphingomyelin containing liposomes behave as a sensitizer for biological stress situations. In addition, the liposomes were engineered by adding paramagnetic beads to act as a receiver of outside given magnetic energy. The enzymatic activity towards liposomes and destruction caused by the applied magnetic field caused the release of the content from the liposomes. By using these novel liposomes, we could improve the drug release feature of liposomes. The improved targeting and drug-release were shown in vitro and the orthotopic tongue cancer model in mice optical imaging. The increased delivery of cisplatin prolonged the survival of the targeted delivery group versus free cisplatin. Most available cancer chemotherapies are based on systemically administered small organic molecules, and only a tiny fraction of the drug reaches the disease site. The approach causes significant side effects and limits the outcome of the therapy. Targeted drug delivery provides an alternative to improve the situation. However, due to the poor release characteristics of the delivery systems, limitations remain. This report presents a new approach to address the challenges using two fundamentally different mechanisms to trigger the release from the liposomal carrier. We use an endogenous disease marker, an enzyme, combined with an externally applied magnetic field, to open the delivery system at the correct time only in the disease site. This site-activated release system is a novel two-switch nanomachine that can be regulated by a cell stress-induced enzyme at the cellular level and be remotely controlled using an applied magnetic field. We tested the concept using sphingomyelin-containing liposomes encapsulated with indocyanine green, fluorescent marker, or the anticancer drug cisplatin. We engineered the liposomes by adding paramagnetic beads to act as a receiver of outside magnetic energy. The developed multifunctional liposomes were characterized in vitro in leakage studies and cell internalization studies. The release system was further studied in vivo in imaging and therapy trials using a squamous cell carcinoma tumor in the mouse as a disease model. In vitro studies showed an increased release of loaded material when stress-related enzyme and magnetic field was applied to the carrier liposomes. The theranostic liposomes were found in tumors, and the improved therapeutic effect was shown in the survival studies. [ABSTRACT FROM AUTHOR]

Published

2020

30. The hepatic microenvironment essentially determines tumor cell dormancy and metastatic outgrowth of pancreatic ductal adenocarcinoma.

Author

Lenk, Lennart, Pein, Maren, Will, Olga, Gomez, Beatriz, Viol, Fabrice, Hauser, Charlotte, Egberts, Jan-Hendrik, Gundlach, Jan-Paul, Helm, Ole, Tiwari, Sanjay, Weiskirchen, Ralf, Rose-John, Stefan, Röcken, Christoph, Mikulits, Wolfgang, Wenzel, Patrick, Schneider, Günter, Saur, Dieter, Schäfer, Heiner, and Sebens, Susanne

Subjects

ADENOCARCINOMA, LIVER metastasis, STROMAL cells, DIAGNOSIS, THERAPEUTICS

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is often diagnosed when liver metastases already emerged. This study elucidated the impact of hepatic stromal cells on growth behavior of premalignant and malignant pancreatic ductal epithelial cells (PDECs). Liver sections of tumor-bearing KPC mice comprised micrometastases displaying low proliferation located in an unobtrusive hepatic microenvironment whereas macrometastases containing more proliferating cells were surrounded by hepatic myofibroblasts (HMFs). In an age-related syngeneic PDAC mouse model livers with signs of age-related inflammation exhibited significantly more proliferating disseminated tumor cells (DTCs) and micrometastases despite comparable primary tumor growth and DTC numbers. Hepatic stellate cells (HSC), representing a physiologic liver stroma, promoted an IL-8 mediated quiescence-associated phenotype (QAP) of PDECs in coculture. QAP included flattened cell morphology, Ki67-negativity and reduced proliferation, elevated senescence-associated β galactosidase activity and diminished p-Erk/p-p38-ratio. In contrast, proliferation of PDECs was enhanced by VEGF in the presence of HMF. Switching the micromilieu from HSC to HMF or blocking VEGF reversed QAP in PDECs. This study demonstrates how HSCs induce and maintain a reversible QAP in disseminated PDAC cells, while inflammatory HMFs foster QAP reversal and metastatic outgrowth. Overall, the importance of the hepatic microenvironment in induction and reversal of dormancy during PDAC metastasis is emphasized. [ABSTRACT FROM PUBLISHER]

Published

2018