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2. A Flow Cytometry-Based Examination of the Mouse White Blood Cell Differential in the Context of Age and Sex

Author

Elise Arlt, Andrea Kindermann, Anne-Kristin Fritsche, Alexander Navarrete Santos, Heike Kielstein, and Ivonne Bazwinsky-Wutschke

Subjects
immune cells, blood, leukocytes, leukocyte subsets, mouse, reference values, Cytology, QH573-671
Abstract

Analysis of the white blood cell differential as part of a flow cytometry-based approach is a common routine diagnostic tool used in clinics and research. For human blood, the methodological approach, suitable markers, and gating strategies are well-established. However, there is a lack of information regarding the mouse blood count. In this article, we deliver a fast and easy protocol for reprocessing mouse blood for the purpose of flow cytometric analysis, as well as suitable markers and gating strategies. We also present two possible applications: for the analysis of the whole blood count, with blood from a cardiac puncture, and for the analysis of a certain leukocyte subset at multiple time points in the framework of a mouse experiment, using blood from the facial vein. Additionally, we provide orientation values by applying the method to 3-month-old and 24-month-old male and female C57BL/6J mice. Our analyses demonstrate differences in the leukocyte fractions depending on age and sex. We discuss the influencing factors and limitations that can affect the results and that, therefore, need to be considered when applying this method. The present study fills the gap in the knowledge related to the rare information on flow cytometric analysis of mouse blood and, thus, lays the foundation for further investigations in this area.

Published
2024
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3. Major Adverse Cardiovascular Events: The Importance of Serum Levels and Haplotypes of the Anti-Inflammatory Cytokine Interleukin 10

Author

Susanne Schulz, Leonie Reuter, Alexander Navarrete Santos, Kerstin Bitter, Selina Rehm, Axel Schlitt, and Stefan Reichert

Subjects
interleukin 10, serum level, haplotype, cardiovascular disease, prognostic factor, Microbiology, QR1-502
Abstract

Background: Cardiovascular diseases (CVDs) represent major medical and socio-economic challenges worldwide. There is substantial evidence that CVD is closely linked to inflammatory changes triggered by a complex cytokine network. In this context, interleukin 10 (IL-10) plays an important role as a pleiotropic cytokine with an anti-inflammatory capacity. In this study (a substudy of ClinTrials.gov, identifier: NCT01045070), the prognostic relevance of IL-10 levels and IL-10 haplotypes (rs1800896/rs1800871/rs1800872) was assessed regarding adverse cardiovascular outcomes (combined endpoint: myocardial infarction, stroke/transient ischemic attack, cardiac death and death according to stroke) within a 10-year follow-up. Patients and methods: At baseline, 1002 in-patients with CVD were enrolled. Serum levels of IL-10 were evaluated utilizing flow cytometry (BD™ Cytometric Bead Array). Haplotype analyses were carried out by polymerase chain reactions with sequence-specific primers (PCR-SSP). Results: In a survival analysis, IL-10 haplotypes were not proven to be cardiovascular prognostic factors in a 10-year follow-up (Breslow test: p = 0.423). However, a higher IL-10 level was associated with adverse cardiovascular outcomes (Breslow test: p = 0.047). A survival analysis considering adjusted hazard ratios (HRs) could not confirm this correlation (Cox regression: adjusted HR = 1.26, p = 0.168). Conclusion: In the present study, an elevated IL-10 level but not IL-10 haplotypes was linked to adverse cardiovascular outcomes (10-year follow-up) in a cohort of CVD patients.

Published
2024
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4. Comparison of Extracellular Vesicles from Induced Pluripotent Stem Cell-Derived Brain Cells

Author

Gabriela Xavier, Alexander Navarrete Santos, Carla Hartmann, Marcos L. Santoro, Nicole Flegel, Jessica Reinsch, Annika Majer, Toni Ehrhardt, Jenny Pfeifer, Andreas Simm, Thomas Hollemann, Sintia I. Belangero, Dan Rujescu, and Matthias Jung

Subjects
extracellular vesicles (EVs), induced pluripotent stem cells (iPSCs), neural differentiation, astrocytes, brain capillary endothelial cells (BCECs), schizophrenia, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The pathophysiology of many neuropsychiatric disorders is still poorly understood. Identification of biomarkers for these diseases could benefit patients due to better classification and stratification. Exosomes excreted into the circulatory system can cross the blood–brain barrier and carry a cell type-specific set of molecules. Thus, exosomes are a source of potential biomarkers for many diseases, including neuropsychiatric disorders. Here, we investigated exosomal proteins produced from human-induced pluripotent stem cells (iPSCs) and iPSC-derived neural stem cells, neural progenitors, neurons, astrocytes, microglia-like cells, and brain capillary endothelial cells. Of the 31 exosome surface markers analyzed, a subset of biomarkers were significantly enriched in astrocytes (CD29, CD44, and CD49e), microglia-like cells (CD44), and neural stem cells (SSEA4). To identify molecular fingerprints associated with disease, circulating exosomes derived from healthy control (HC) individuals were compared against schizophrenia (SCZ) patients and late-onset Alzheimer’s disease (LOAD) patients. A significant epitope pattern was identified for LOAD (CD1c and CD2) but not for SCZ compared to HC. Thus, analysis of cell type- and disease-specific exosome signatures of iPSC-derived cell cultures may provide a valuable model system to explore proteomic biomarkers for the identification of novel disease profiles.

Published
2024
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7. A Flow Cytometry-Based Examination of the Mouse White Blood Cell Differential in the Context of Age and Sex.

Author

Arlt, Elise, Kindermann, Andrea, Fritsche, Anne-Kristin, Navarrete Santos, Alexander, Kielstein, Heike, and Bazwinsky-Wutschke, Ivonne

Subjects
LEUCOCYTES, BLOOD testing, BLOOD cells, LABORATORY mice, REFERENCE values
Abstract

Analysis of the white blood cell differential as part of a flow cytometry-based approach is a common routine diagnostic tool used in clinics and research. For human blood, the methodological approach, suitable markers, and gating strategies are well-established. However, there is a lack of information regarding the mouse blood count. In this article, we deliver a fast and easy protocol for reprocessing mouse blood for the purpose of flow cytometric analysis, as well as suitable markers and gating strategies. We also present two possible applications: for the analysis of the whole blood count, with blood from a cardiac puncture, and for the analysis of a certain leukocyte subset at multiple time points in the framework of a mouse experiment, using blood from the facial vein. Additionally, we provide orientation values by applying the method to 3-month-old and 24-month-old male and female C57BL/6J mice. Our analyses demonstrate differences in the leukocyte fractions depending on age and sex. We discuss the influencing factors and limitations that can affect the results and that, therefore, need to be considered when applying this method. The present study fills the gap in the knowledge related to the rare information on flow cytometric analysis of mouse blood and, thus, lays the foundation for further investigations in this area. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Ectopic Lipid Accumulation Correlates with Cellular Stress in Rabbit Blastocysts from Diabetic Mothers

Author

Maria Schindler, Sophia Mareike Geisler, Tom Seeling, and Anne Navarrete Santos

Subjects
embryoblast, trophoblast, lipid metabolism, fatty-acid uptake, preimplantation embryo, oxidative stress, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Maternal diabetes mellitus in early pregnancy leads to hyperlipidemia in reproductive tract organs and an altered embryonic environment. To investigate the consequences on embryonic metabolism, the effect of high environmental-lipid levels was studied in rabbit blastocysts cultured with a lipid mixture in vitro and in blastocysts from diabetic, hyperlipidemic rabbits in vivo. The gene and protein expression of marker molecules involved in lipid metabolism and stress response were analyzed. In diabetic rabbits, the expression of embryoblast genes encoding carnitine palmityl transferase 1 and peroxisome proliferator-activated receptors α and γ increased, whereas trophoblast genes encoding for proteins associated with fatty acid synthesis and β-oxidation decreased. Markers for endoplasmic (activating transcription factor 4) and oxidative stress (nuclear factor erythroid 2-related factor 2) were increased in embryoblasts, while markers for cellular redox status (superoxide dismutase 2) and stress (heat shock protein 70) were increased in trophoblasts from diabetic rabbits. The observed regulation pattern in vivo was consistent with an adaptation response to the hyperlipidemic environment, suggesting that maternal lipids have an impact on the intracellular metabolism of the preimplantation embryo in diabetic pregnancy and that embryoblasts are particularly vulnerable to metabolic stress.

Published
2023
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9. Major Adverse Cardiovascular Events: The Importance of Serum Levels and Haplotypes of the Anti-Inflammatory Cytokine Interleukin 10.

Author

Schulz, Susanne, Reuter, Leonie, Navarrete Santos, Alexander, Bitter, Kerstin, Rehm, Selina, Schlitt, Axel, and Reichert, Stefan

Subjects
MAJOR adverse cardiovascular events, TRANSIENT ischemic attack, MYOCARDIAL infarction, POLYMERASE chain reaction, INTERLEUKIN-10
Abstract

Background: Cardiovascular diseases (CVDs) represent major medical and socio-economic challenges worldwide. There is substantial evidence that CVD is closely linked to inflammatory changes triggered by a complex cytokine network. In this context, interleukin 10 (IL-10) plays an important role as a pleiotropic cytokine with an anti-inflammatory capacity. In this study (a substudy of ClinTrials.gov, identifier: NCT01045070), the prognostic relevance of IL-10 levels and IL-10 haplotypes (rs1800896/rs1800871/rs1800872) was assessed regarding adverse cardiovascular outcomes (combined endpoint: myocardial infarction, stroke/transient ischemic attack, cardiac death and death according to stroke) within a 10-year follow-up. Patients and methods: At baseline, 1002 in-patients with CVD were enrolled. Serum levels of IL-10 were evaluated utilizing flow cytometry (BD™ Cytometric Bead Array). Haplotype analyses were carried out by polymerase chain reactions with sequence-specific primers (PCR-SSP). Results: In a survival analysis, IL-10 haplotypes were not proven to be cardiovascular prognostic factors in a 10-year follow-up (Breslow test: p = 0.423). However, a higher IL-10 level was associated with adverse cardiovascular outcomes (Breslow test: p = 0.047). A survival analysis considering adjusted hazard ratios (HRs) could not confirm this correlation (Cox regression: adjusted HR = 1.26, p = 0.168). Conclusion: In the present study, an elevated IL-10 level but not IL-10 haplotypes was linked to adverse cardiovascular outcomes (10-year follow-up) in a cohort of CVD patients. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Proteins Adsorbed during Intraoperative Hemoadsorption and Their In Vitro Effects on Endothelium

Author

Veronika Piskovatska, Alexander Navarrete Santos, Katrin Kalies, Edina Korca, Markus Stiller, Gábor Szabó, Andreas Simm, and Kristin Wächter

Subjects
hemoadsorption, blood purification, systemic inflammatory response, endothelium, Medicine
Abstract

(1) Background: Hemoadsorption is a method of blood purification with a wide spectrum of indications. Pre-emptive use of hemoadsorption in patients undergoing heart surgery with cardiopulmonary bypass is considered to reduce the risk of postoperative systemic inflammatory response syndrome. The current study aimed to identify the spectrum of blood proteins adsorbed on the polymer matrix of the CytoSorb hemoadsorption system and to investigate their influence on cultured endothelial cells in vitro. (2) Methods: Adsorbers used for intraoperative hemoadsorption were obtained from patients undergoing on-pump valve surgery in acute endocarditis. Proteins were extracted from the adsorbers, purified, identified with mass-spectrometry and applied to cultured human aortic endothelial cells. (3) Results: A broad range of blood proteins were identified in the material eluted from the CytoSorb adsorber. When added to cultured ECs, these protein extracts caused severe reduction in cell viability and migration. After 24 h exposure, transcriptional changes with up-regulation of multiple metabolic regulators were observed and verified on the protein level. Genes responsible for control of mitosis were significantly down-regulated. (4) Conclusions: In summary, our data reveal that intraoperative hemoadsorption allows broad spectrum removal of a wide range of molecules eliciting endothelial damage.

Published
2023
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11. RAGE-Dependent Effect of Exogenous Methylglyoxal Intake on Lung Biomechanics in Mice

Author

Samiya Al-Robaiy, Alexander Navarrete Santos, and Andreas Simm

Subjects
methylglyoxal, lung biomechanics, receptor for advanced glycation end-products, ex vivo ventilation, Nutrition. Foods and food supply, TX341-641
Abstract

Methylglyoxal (MG) is a known highly reactive dicarbonyl and precursor to free radicals and advanced glycation end-products (AGEs). It is discussed to be involved in tissue aging and in the pathogenesis of different degenerative diseases. The effect of long-term oral administration of MG, simulating dietary MG intake, on the lung biomechanics of wild type (WT) and receptor for advanced glycation end-products knockout (RAGE-KO) mice was studied using an ex vivo ventilation system starting at the age of 6 months and after feeding for 6 and 12 months with MG. Our results showed that MG was taken up in the circulation and efficiently excreted with urine. The amount of free urinary MG measured after 12 months of feeding was lowered. After 12 months feeding, a significant airway resistance increase accompanied by a decrease of the maximal inspiratory airflow was observed in WT animals. No effect of MG in lung function of RAGE-KO mice could be detected. Despite the evidence that MG entered the systemic circulation, no MG-derived AGE accumulation was detected in the lung lysates in dependency on MG-feeding. Our data indicate that the short-term feeding of MG has little effect in vivo. Only after long-term treatment was MG secretion reduced, leading to tissue impairment.

Published
2022
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12. Comparison of Extracellular Vesicles from Induced Pluripotent Stem Cell-Derived Brain Cells.

Author

Xavier, Gabriela, Navarrete Santos, Alexander, Hartmann, Carla, Santoro, Marcos L., Flegel, Nicole, Reinsch, Jessica, Majer, Annika, Ehrhardt, Toni, Pfeifer, Jenny, Simm, Andreas, Hollemann, Thomas, Belangero, Sintia I., Rujescu, Dan, and Jung, Matthias

Subjects
*NEURAL stem cells, *EXTRACELLULAR vesicles, *PLURIPOTENT stem cells, *CELL culture, *CARDIOVASCULAR system, *CELL analysis, *ALZHEIMER'S patients
Abstract

The pathophysiology of many neuropsychiatric disorders is still poorly understood. Identification of biomarkers for these diseases could benefit patients due to better classification and stratification. Exosomes excreted into the circulatory system can cross the blood–brain barrier and carry a cell type-specific set of molecules. Thus, exosomes are a source of potential biomarkers for many diseases, including neuropsychiatric disorders. Here, we investigated exosomal proteins produced from human-induced pluripotent stem cells (iPSCs) and iPSC-derived neural stem cells, neural progenitors, neurons, astrocytes, microglia-like cells, and brain capillary endothelial cells. Of the 31 exosome surface markers analyzed, a subset of biomarkers were significantly enriched in astrocytes (CD29, CD44, and CD49e), microglia-like cells (CD44), and neural stem cells (SSEA4). To identify molecular fingerprints associated with disease, circulating exosomes derived from healthy control (HC) individuals were compared against schizophrenia (SCZ) patients and late-onset Alzheimer's disease (LOAD) patients. A significant epitope pattern was identified for LOAD (CD1c and CD2) but not for SCZ compared to HC. Thus, analysis of cell type- and disease-specific exosome signatures of iPSC-derived cell cultures may provide a valuable model system to explore proteomic biomarkers for the identification of novel disease profiles. [ABSTRACT FROM AUTHOR]

Published
2024
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16. AGE-Rich Bread Crust Extract Boosts Oxidative Stress Interception via Stimulation of the NRF2 Pathway

Author

Kristin Wächter, Alexander Navarrete Santos, Anne Großkopf, Tim Baldensperger, Marcus A. Glomb, Gábor Szabó, and Andreas Simm

Subjects
advanced glycation end products, bread crust extract, NRF2, oxidative stress resistance, functional food, cardioprotection, Nutrition. Foods and food supply, TX341-641
Abstract

Advanced glycation end products (AGEs) result from a non-enzymatic reaction of proteins with reactive carbohydrates. Heat-processed food, such as bread, contains high amounts of AGEs. The activation of the NF-κB signaling pathway by bread crust extract (BCE) is well understood. However, it is largely unknown whether NRF2, the master regulator of oxidative stress resistance in mammalian cells, is affected by BCE. We have investigated the molecular mechanisms by which BCE induces antioxidant gene expression in cellular models. Our data showed that soluble extracts from bread crust are capable of stimulating the NRF2 signaling pathway. Furthermore, NRF2 pathway activation was confirmed by microarray and reporter-cell analyses. QRT-PCR measurements and Western blot analyses indicated an induction of antioxidative genes such as HMOX1, GCLM and NQO1 upon BCE treatment. Moreover, BCE pretreated cells had a survival advantage compared to control cells when exposed to oxidative stress. BCE induces phosphorylation of AKT and ERK kinase in EA.hy926 cells. By mass spectrometry, several new, potentially active modifications in BCE were identified. Our findings indicate that BCE activates NRF2-dependent antioxidant gene expression, thus provoking a protection mechanism against oxidative stress-mediated tissue injury. Hence, BCE can be considered as functional food with antioxidative and cardioprotective potential.

Published
2021
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17. Reduction of Glycolysis Intermediate Concentrations in the Cerebrospinal Fluid of Alzheimer’s Disease Patients

Author

Nick Bergau, Stephan Maul, Dan Rujescu, Andreas Simm, and Alexander Navarrete Santos

Subjects
Alzheimer’s disease, metabolomics, glycolysis intermediates, sugar phosphates, cerebrospinal fluid, LC-MS/MS, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The profile of 122 metabolites in the cerebrospinal fluid (CSF) of patients suffering from Alzheimer’s disease (AD) and controls was studied. Among the 122 metabolites analyzed, 61 could be detected. Statistically significant differences between the AD and control group were only detected for metabolites of the glycolysis. Thus, accurate quantification of 11 glycolytic metabolites was done. We detected a significant reduction of five of them, namely phosphoenolpyruvate, 2-phosphoglycerate, 3-phosphoglycerate, pyruvate and dihydroxyacetone phosphate in the AD CSF compared to controls. These results correlate with the known reduction of glucose metabolism in the brain of patients with AD and indicate that metabolic analysis of the central carbon metabolism can be a potential tool in AD diagnostic. Although the Receiver operating characteristic (ROC) analyses of the metabolites do not reach the level of the diagnostic informativity of AD biomarkers, the combination of specific glycolysis metabolites with the established biomarkers may lead to an improvement in sensitivity and specificity.

Published
2019
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22. Influence of ascorbic acid as a growth and differentiation factor on dental stem cells used in regenerative endodontic therapies

Author

Antje Diederich, Hanna Juliane Fründ, Bogusz Trojanowicz, Alexander Navarrete Santos, Anh Duc Nguyen, Cuong Hoang-Vu, and Christian Ralf Gernhardt

Subjects
regenerative endodontic procedures, stem cell markers, ascorbic acid, General Medicine, dental pulp stem cells
Abstract

Background: Vitamin C is one of the major extracellular nonenzymatic antioxidants involved in the biosynthesis of collagen. It promotes the growth of fibroblasts, wound healing processes, and enhances the survival and differentiation of osteoblasts. The potential effects of ascorbic acid on human dental pulp cells (DPC) and the cells of the apical papilla (CAP) used in actual regenerative endodontic procedures remain largely unknown. In this study, we investigated the possible employment of ascorbic acid in the differentiation and regenerative therapies of DPC and CAP. Methods: Nine extracted human wisdom teeth were selected for this study. Subpopulations of stem cells within DPC and CAP were sorted with the mesenchymal stem cell marker STRO-1, followed by treatments with different concentrations (0 mM, 0.1 mM, 0.5 mM, and 1.0 mM) of ascorbic acid (AA), RT-PCR, and Western blot analysis. Results: FACS analysis revealed the presence of cell subpopulations characterized by a strong expression of mesenchymal stem cell marker STRO-1 and dental stem cell markers CD105, CD44, CD146, CD90, and CD29. Treatment of the cells with defined amounts of AA revealed a markedly increased expression of proliferation marker Ki-67, especially in the concentration range between 0.1 mM and 0.5 mM. Further investigations demonstrated that treatment with AA led to significantly increased expression of common stem cell markers OCT4, Nanog, and Sox2. The most potent proliferative and expressional effects of AA were observed in the concentration of 0.1 mM. Conclusions: AA might be a novel and potent growth promoter of human dental cells. Increasing the properties of human dental pulp cells and the cells of the apical papilla using AA could be a useful factor for further clinical developments of regenerative endodontic procedures.

Published
2023
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23. Rabbit as an Aging Model in Reproduction: Advanced Maternal Age Alters GLO1 Expression in the Endometrium at the Time of Implantation

Author

Johanna de Nivelle, Juliane Thoma, Alicia Toto Nienguesso, Tom Seeling, Juliane-Susanne Jung, Anne Navarrete Santos, and Maria Schindler

Subjects
preimplantation embryo, uterus, ovary, glyoxalase 1, advanced maternal age, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Advanced maternal age is associated with adverse pregnancy outcomes and the decline of female fertility in mammals. A potential reason for reduced fertility is metabolic changes due to protein modifications by advanced glycation end products. To elucidate the aging process in female reproduction, we analysed a key enzyme for detoxification of reactive dicarbonyls, the glyoxalase 1 (GLO1), in reproductive organs and blastocysts of young and old rabbits at the preimplantation stage. At day 6 post coitum, uterine, oviductal, ovarian tissue and blastocysts from young (16–20 weeks) and old rabbits (>108 weeks) were characterised for GLO1 expression. GLO1 amounts, enzymatic activity and localisation were quantified by qPCR, Simple Western, activity assay and immunohistochemistry. The GLO1 enzyme was present and active in all reproductive tract organs in a cell-type-specific pattern. Ovarian follicle and uterine epithelial cells expressed GLO1 to a high extent. In tertiary follicles, GLO1 expression increased, whereas it decreased in the endometrium of old rabbits at day 6 of pregnancy. In blastocysts of old animals, GLO1 expression remained unchanged. In early pregnancy, advanced maternal age leads to modified GLO1 expression in ovarian follicles and the endometrium, indicating an altered metabolic stress response at the preimplantation stage in older females.

Published
2020
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24. Metabolic Profiling in Blastocoel Fluid and Blood Plasma of Diabetic Rabbits

Author

Maria Schindler, Sophia Mareike Pendzialek, Katarzyna Grybel, Tom Seeling, and Anne Navarrete Santos

Subjects
metabolomics, diabetic pregnancy, blastocoel fluid, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Metabolic disorders of the mother adversely affect early embryo development, causing changes in maternal metabolism and consequent alterations in the embryo environment in the uterus. The goal of this study was to analyse the biochemical profiles of embryonic fluids and blood plasma of rabbits with and without insulin-dependent diabetes mellitus (DT1), to identify metabolic changes associated with maternal diabetes mellitus in early pregnancy. Insulin-dependent diabetes was induced by alloxan treatment in female rabbits 10 days before mating. On day 6 post-coitum, plasma and blastocoel fluid (BF) were analysed by ultrahigh performance liquid chromatography-tandem mass spectroscopy (UPLC-MS/MS) (Metabolon Inc. Durham, NC, USA). Metabolic datasets comprised a total of 284 and 597 compounds of known identity in BF and plasma, respectively. Diabetes mellitus had profound effects on maternal and embryonic metabolic profiles, with almost half of the metabolites changed. As predicted, we observed an increase in glucose and a decrease in 1,5-anhydroglucitol in diabetic plasma samples. In plasma, fructose, mannose, and sorbitol were elevated in the diabetic group, which may be a way of dealing with excess glucose. In BF, metabolites of the pentose metabolism were especially increased, indicating the need for ribose-based compounds relevant to DNA and RNA metabolism at this very early stage of embryo development. Other changes were more consistent between BF and plasma. Both displayed elevated acylcarnitines, body3-hydroxybutyrate, and multiple compounds within the branched chain amino acid metabolism pathway, suggesting that lipid beta-oxidation is occurring at elevated levels in the diabetic group. This study demonstrates that maternal and embryonic metabolism are closely related. Maternal diabetes mellitus profoundly alters the metabolic profile of the preimplantation embryo with changes in all subclasses of metabolites.

Published
2020
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25. Advanced Glycation End Product (AGE) and Soluble Receptor of AGE (sRAGE) Levels in Relation to Periodontitis Severity and as Putative 3-Year Outcome Predictors in Patients Undergoing Coronary Artery Bypass Grafting (CABG)

Author

Schulz, Stefan Reichert, Britt Hofmann, Michael Kohnert, Alexander Navarrete Santos, Lisa Friebe, Julia Grollmitz, Hans-Günter Schaller, and Susanne

Subjects
periodontitis, CABG surgery, cardiovascular outcome, sRAGE, AGE, skin autofluorescence, sAF
Abstract

Tissue concentrations of advanced glycation end product (AGE) and peripheral soluble receptor of AGE (sRAGE) levels may be associated with periodontitis severity. Both parameters and periodontitis might serve as outcome predictors for patients undergoing coronary artery bypass grafting (CABG). This study aimed to investigate possible associations between periodontitis and AGE/sRAGE. Ultimately, we wanted to examine whether AGE, sRAGE, and severe periodontitis are associated with the incidence of new cardiovascular events within 3 years of follow-up after CABG. Ninety-five patients with coronary vascular disease (CVD) (age 69 years, 88.3% males) needing CABG surgery were included. Periodontal diagnosis was made according to the guidelines of the “Centers for Disease Control and Prevention (CDC)” (2007) and staged according to the new classification of periodontal diseases (2018). AGE tissue concentrations were assessed as skin autofluorescence (sAF). sRAGE levels were determined by using a commercially available enzyme-linked immunoabsorbance assay (ELISA) kit. Univariate and multivariate baseline and survival analyses were carried out with Mann–Whitney U test, Chi² test, Kaplan–Meier curves with Log-Rank test, and logistic and Cox regression. sAF was identified as an independent risk indicator for severe periodontitis with respect to the cofactors age, gender, plaque index, and diabetes (adjusted odds ratio [OR] = 2.9, p = 0.028). The degree of subgingival inflammation assessed as a percentage of sites with bleeding on probing (BOP) was inversely correlated with sRAGE concentration (r = −0.189, p = 0.034). Both sAF (Hazard Ratio [HR] = 2.4, p = 0.004) and sRAGE (HR = 1.9, p = 0.031) increased the crude risk for new adverse events after CABG. The occurrence of severe periodontitis trends towards a higher risk for new cardiovascular events (HR = 1.8, p = 0.115). Applying multivariate Cox regression, only peripheral arterial disease (adjusted HR = 2.7, p = 0.006) and history of myocardial infarction (adjusted HR = 2.8, p = 0.010) proved to be independent risk factors for cardiovascular outcome. We conclude that sAF may represent a new, independent risk indicator for severe periodontitis. In contrast, sAF, sRAGE, and severe periodontitis were not independent prognostic factors for postoperative outcome in patients undergoing CABG.

Published
2022
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26. El satèl·lit Sentinel 6 i les seves dades

Author

Navarrete Santos, Arnau, Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, Belanche Muñoz, Luis Antonio, and Moyano, Gorka

Subjects
Satèl·lits artificials en telecomunicació, Informàtica::Sistemes d'informació [Àrees temàtiques de la UPC], Artificial satellites in telecommunication
Published
2022

27. Adipogenic Effects of a Combination of the Endocrine-Disrupting Compounds Bisphenol A, Diethylhexylphthalate, and Tributyltin

Author

Ronald Biemann, Bernd Fischer, and Anne Navarrete Santos

Subjects
Endocrine-disrupting compounds, EDC, Peroxisome proliferator-activated receptor γ, PPARγ, Adipogenesis, Mesenchymal stem cells, MSC, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627
Abstract

Objective: The food contaminants bisphenol A (BPA), diethylhexylphthalate (DEHP), and tributyltin (TBT) are potent endocrine-disrupting compounds (EDC) known to interfere with adipogenesis. EDC usually act in mixtures and not as single compounds. The aim of this study was to investigate the effects of a simultaneous exposure of BPA, DEHP, and TBT on mesenchymal stem cell differentiation into adipocytes. Methods: Multipotent murine mesenchymal stem cells (C3H10T1/2) were exposed to EDC mixtures in high concentrations, i.e. MIX-high (10 µmol/l BPA, 100 µmol/l DEHP, 100 nmol/l TBT), and in environmentally relevant concentrations, i.e. MIX-low (10 nmol/l BPA, 100 nmol/l DEHP, 1 nmol/l TBT). The exposure was performed either for the entire culture time (0-12 days) or at distinct stages of adipogenic differentiation. At day 12 of cell culture, the amount of adipocytes, triglyceride content (TG), and adipogenic marker gene expression were analyzed. Results: MIX-high increased the development of adipocytes and the expression of adipogenic marker genes independently of the exposure window. The total TG amount was not increased. The low-concentrated EDC mixture had no obvious impact on adipogenesis. Conclusion: In EDC mixtures, the adipogenic effect of TBT and DEHP predominates single effects of BPA. Mixture effects of EDC are not deducible from single compound experiments.

Published
2014
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28. Role of advanced glycation end products in cellular signaling

Author

Christiane Ott, Kathleen Jacobs, Elisa Haucke, Anne Navarrete Santos, Tilman Grune, and Andreas Simm

Subjects
Advanced glycation end products, RAGE, Signaling, NF-κB, Aging, Oxidative stress, AGE-receptors, Reactive carbonyl compounds, Aggregates, Age-associated diseases, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Improvements in health care and lifestyle have led to an elevated lifespan and increased focus on age-associated diseases, such as neurodegeneration, cardiovascular disease, frailty and arteriosclerosis. In all these chronic diseases protein, lipid or nucleic acid modifications are involved, including cross-linked and non-degradable aggregates, such as advanced glycation end products (AGEs). Formation of endogenous or uptake of dietary AGEs can lead to further protein modifications and activation of several inflammatory signaling pathways. This review will give an overview of the most prominent AGE-mediated signaling cascades, AGE receptor interactions, prevention of AGE formation and the impact of AGEs during pathophysiological processes.

Published
2014
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30. Advanced Glycation End Product (AGE) and Soluble Receptor of AGE (sRAGE) Levels in Relation to Periodontitis Severity and as Putative 3-Year Outcome Predictors in Patients Undergoing Coronary Artery Bypass Grafting (CABG)

Author

Stefan, Reichert, Britt, Hofmann, Michael, Kohnert, Alexander Navarrete, Santos, Lisa, Friebe, Julia, Grollmitz, Hans-Günter, Schaller, and Susanne, Schulz

Abstract

Tissue concentrations of advanced glycation end product (AGE) and peripheral soluble receptor of AGE (sRAGE) levels may be associated with periodontitis severity. Both parameters and periodontitis might serve as outcome predictors for patients undergoing coronary artery bypass grafting (CABG). This study aimed to investigate possible associations between periodontitis and AGE/sRAGE. Ultimately, we wanted to examine whether AGE, sRAGE, and severe periodontitis are associated with the incidence of new cardiovascular events within 3 years of follow-up after CABG. Ninety-five patients with coronary vascular disease (CVD) (age 69 years, 88.3% males) needing CABG surgery were included. Periodontal diagnosis was made according to the guidelines of the "Centers for Disease Control and Prevention (CDC)" (2007) and staged according to the new classification of periodontal diseases (2018). AGE tissue concentrations were assessed as skin autofluorescence (sAF). sRAGE levels were determined by using a commercially available enzyme-linked immunoabsorbance assay (ELISA) kit. Univariate and multivariate baseline and survival analyses were carried out with Mann-Whitney U test, Chi² test, Kaplan-Meier curves with Log-Rank test, and logistic and Cox regression. sAF was identified as an independent risk indicator for severe periodontitis with respect to the cofactors age, gender, plaque index, and diabetes (adjusted odds ratio [OR] = 2.9

Published
2022

31. El satèl·lit Sentinel 6 i les seves dades

Author

Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, Belanche Muñoz, Luis Antonio, Moyano, Gorka, Navarrete Santos, Arnau, Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, Belanche Muñoz, Luis Antonio, Moyano, Gorka, and Navarrete Santos, Arnau

Published
2022

32. Glyoxalase 1 expression is downregulated in preimplantation blastocysts of diabetic rabbits

Author

Jacqueline Gürke, Maria Schindler, Elisa Haucke, Katarzyna J. Grybel, Anne Navarrete Santos, Tom Seeling, S. Mareike Pendzialek, Andreas Simm, and Alexander Navarrete Santos

Subjects
Biology, Cell Line, Diabetes Mellitus, Experimental, Andrology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Endocrinology, Pregnancy, Diabetes mellitus, Alloxan, medicine, Animals, Humans, Blastocyst, 030219 obstetrics & reproductive medicine, Methylglyoxal, Lactoylglutathione Lyase, 0402 animal and dairy science, Trophoblast, Embryo, Glyoxal, 04 agricultural and veterinary sciences, Pyruvaldehyde, medicine.disease, 040201 dairy & animal science, Embryonic stem cell, In vitro, Trophoblasts, medicine.anatomical_structure, chemistry, Hyperglycemia, embryonic structures, Female, Animal Science and Zoology, Rabbits, Biotechnology
Abstract

In a diabetic pregnancy, an altered maternal metabolism led to increased formation of reactive α-dicarbonyls such as glyoxal (GO) and methylglyoxal (MGO) in the reproductive organs and embryos. The enzyme glyoxalase (GLO) 1 detoxifies reactive α-dicarbonyls thus protecting cells against malfunction or modifications of proteins by advanced glycated end products (AGEs). The aim of this study was to analyse the influence of a maternal insulin-dependent diabetes mellitus (IDD) on GLO1 expression and activity in preimplantation embryos in vivo and human trophoblast cells (Ac-1M88) in vitro. Maternal diabetes was induced in female rabbits by alloxan before conception and maintained during the preimplantation period. GLO1 expression and activity were investigated in 6-day-old blastocysts from healthy and diabetic rabbits. Furthermore, blastocysts and human trophoblast cells were exposed in vitro to hyperglycaemia, GO and MGO and analysed for GLO1 expression and activity. During gastrulation, GLO1 was expressed in all compartments of the rabbit blastocyst. Maternal diabetes decreased embryonic GLO1 protein amount by approx. 30 per cent whereas the enzymatic activity remained unchanged, indicating that the specific GLO1 activity increases along with metabolic changes. In in vitro cultured embryos, neither hyperglycaemia nor MGO and GO had an effect on GLO1 protein amount. In human trophoblast cells, a stimulating effect on the GLO1 expression was shown in the highest GO concentration, only. Our data show that maternal diabetes mellitus affects the specific activity of GLO1, indicating that GLO1 was post-translationally modified due to changes in metabolic processes in the preimplantation embryos.

Published
2019

33. Adipose-Derived Stem/Stromal Cells Recapitulate Aging Biomarkers and Show Reduced Stem Cell Plasticity Affecting Their Adipogenic Differentiation Capacity

Author

Christina Marga, Alexander Navarrete Santos, Dan Rujescu, Anne Navarrete Santos, Matthias Jung, Christin Volk, and Juliane-Susanne Jung

Subjects
0301 basic medicine, Homeobox protein NANOG, Aging, animal structures, Stromal cell, Cell Plasticity, Adipose tissue, Biology, 03 medical and health sciences, SOX2, Animals, CD90, Cells, Cultured, Cell Proliferation, Adipogenesis, 030102 biochemistry & molecular biology, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, Cell Biology, Cell biology, 030104 developmental biology, Adipose Tissue, KLF4, Female, Rabbits, Stem cell, Biomarkers, Developmental Biology, Biotechnology
Abstract

Stromal mesenchymal stem cells (MSCs) have the capability to self-renew and can differentiate into multiple cell types of the mesoderm germ layer, but their properties are affected by molecular aging mechanisms. MSCs can be obtained from adipose tissue termed as adipose-derived stem/stromal cells (ASCs) representing a promising tool for studying age-related diseases in detail. ASCs from young (16 weeks) and old (>108 weeks) rabbits were successfully isolated and propagated. ASCs showed the typical morphology and stained positive for CD105, Vimentin, Collagenase 1A, and negative for CD14, CD90, and CD73, demonstrating their mesenchymal origin. ASCs expressed MSC markers, including MYC, KLF4, CHD1, REST, and KAT6A, whereas pluripotency-related genes, such as NANOG, OCT4, and SOX2, were not expressed. Aged ASCs showed altered protein and mRNA levels of APOE, ATG7, FGF2, PTEN, and SIRT1. Adipogenic differentiation of old visceral ASCs was significantly decreased compared with young visceral ASCs. We successfully established rabbit ASC cultures representing an in vitro model for the analysis of stem cell aging mechanisms. ASCs, obtained from old female rabbits, showed age- and source-specific alteration due to aging of the donor. Stem cell plasticity was altered with age as shown by reduced adipogenic differentiation capacity.

Published
2019

34. Embryonic fatty acid metabolism in diabetic pregnancy: the difference between embryoblasts and trophoblasts

Author

Mareike Pendzialek, Tom Seeling, Anne Navarrete Santos, Gerd Nuernberg, Dirk Dannenberger, Maria Schindler, and Katarzyna J. Grybel

Subjects
0301 basic medicine, Embryology, Pregnancy in Diabetics, Biology, Diabetes Mellitus, Experimental, Andrology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Pregnancy, Diabetes mellitus, Alloxan, Genetics, medicine, Animals, embryoblast / trophoblast / fatty acid metabolism / FADS1 / ELOVL, Molecular Biology, chemistry.chemical_classification, 030219 obstetrics & reproductive medicine, Fatty acid metabolism, Fatty Acids, Obstetrics and Gynecology, Fatty acid, Original Articles, Cell Biology, Metabolism, Embryo, Mammalian, Lipid Metabolism, medicine.disease, AcademicSubjects/MED00905, Trophoblasts, Oleic acid, Blastocyst, Diabetes Mellitus, Type 1, 030104 developmental biology, Reproductive Medicine, chemistry, Docosahexaenoic acid, Female, Rabbits, Developmental Biology, Polyunsaturated fatty acid
Abstract

During the first days of development the preimplantation embryo is supplied with nutrients from the surrounding milieu. Maternal diabetes mellitus affects the uterine microenvironment, leading to a metabolic adaptation processes in the embryo. We analysed embryonic fatty acid (FA) profiles and expression of processing genes in rabbit blastocysts, separately in embryoblasts (EBs) and trophoblasts (TBs), to determine the potential consequences of maternal diabetes mellitus on intracellular FA metabolism. Insulin-dependent diabetes was induced by alloxan in female rabbits. On Day 6 post coitum, FA profiles in blastocysts (EB, TB and blastocoel fluid) and maternal blood were analysed by gas chromatography. The expression levels of molecules involved in FA elongation (fatty acid elongases, ELOVLs) and desaturation (fatty acid desaturases, FADSs) were measured in EB and TB. Maternal diabetes mellitus influenced the FA profile in maternal plasma and blastocysts. Independent from metabolic changes, rabbit blastocysts contained a higher level of saturated fatty acids (SFAs) and a lower level of polyunsaturated fatty acids (PUFAs) compared to the FA profile of the maternal plasma. Furthermore, the FA profile was altered in the EB and TB, differently. While SFAs (palmitic and stearic acid) were elevated in EB of diabetic rabbits, PUFAs, such as docosahexaenoic acid, were decreased. In contrast, in the TB, lower levels of SFAs and higher levels of oleic acid were observed. EB and TB specific alterations in gene expression were found for ELOVLs and FADSs, key enzymes for FA elongation and desaturation. In conclusion, maternal diabetes mellitus alters embryonic FA metabolism differently in EB and TB, indicating a lineage-specific metabolic adaptive response.

Published
2020

35. Adiponectin stimulates glucose uptake in mouse blastocysts and embryonic carcinoma cells

Author

Juraj Koppel, Štefan Čikoš, Martina Kšiňanová, Alexandra Špirková, Maria Schindler, Dušan Fabian, Ján Burkuš, Veronika Kovaříková, Bernd Fischer, A. Navarrete Santos, Janka Babeľová, and Juliane-Susanne Jung

Subjects
0301 basic medicine, Embryology, medicine.medical_specialty, GLUT8, MAP Kinase Signaling System, Glucose uptake, Glucose Transport Proteins, Facilitative, Adipokine, Embryoid body, Mice, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Cell Line, Tumor, Internal medicine, medicine, Animals, Embryoid Bodies, Glucose Transporter Type 4, 030219 obstetrics & reproductive medicine, Adiponectin, biology, Chemistry, Glucose transporter, nutritional and metabolic diseases, Obstetrics and Gynecology, AMPK, Cell Biology, Blastocyst, Glucose, 030104 developmental biology, Reproductive Medicine, embryonic structures, biology.protein, Female, Receptors, Adiponectin, hormones, hormone substitutes, and hormone antagonists, GLUT4
Abstract

Preimplantation embryos are sensitive to maternal hormones affecting embryonic signal transduction and metabolic functions. We examined whether adiponectin, the most abundantly secreted adipokine, can influence glucose transport in mouse embryonic cells. In mouse blastocysts full-length adiponectin stimulated glucose uptake, while no effect of globular adiponectin was found. Full-length adiponectin stimulated translocation of GLUT8 glucose transporter to the cell membrane; we did not detect significant changes in the intracellular localization of GLUT4 glucose transporter in adiponectin-treated blastocysts. To study adiponectin signaling in detail, we used embryoid bodies formed from mouse embryonic carcinoma cell (ECC) line P19. We confirmed the expression of adiponectin receptors in these cells. Similar to mouse blastocysts, full-length adiponectin, but not globular adiponectin, stimulated glucose uptake in ECC P19 embryoid bodies. Moreover, full-length adiponectin stimulated AMPK and p38 MAPK phosphorylation. These results indicate that besides AMPK, p38 MAPK is a potential target of adiponectin in mouse embryonic cells. AMPK inhibitor did not influence the adiponectin-stimulated p38 MAPK phosphorylation, indicating independent action of these two signaling pathways. In mouse embryos adiponectin acts as a hormonal regulator of glucose uptake, which becomes especially important in phases with reduced levels of circulating insulin. Our results suggest that adiponectin maintains the glucose supply for early embryos under hypoinsulinaemic conditions, for example, in mothers suffering from type 1 diabetes mellitus.

Published
2020

37. Maternal Diabetes Leads to Adaptation in Embryonic Amino Acid Metabolism during Early Pregnancy.

Author

Jacqueline Gürke, Frank Hirche, René Thieme, Elisa Haucke, Maria Schindler, Gabriele I Stangl, Bernd Fischer, and Anne Navarrete Santos

Subjects
Medicine, Science
Abstract

During pregnancy an adequate amino acid supply is essential for embryo development and fetal growth. We have studied amino acid composition and branched chain amino acid (BCAA) metabolism at day 6 p.c. in diabetic rabbits and blastocysts. In the plasma of diabetic rabbits the concentrations of 12 amino acids were altered in comparison to the controls. Notably, the concentrations of the BCAA leucine, isoleucine and valine were approximately three-fold higher in diabetic rabbits than in the control. In the cavity fluid of blastocysts from diabetic rabbits BCAA concentrations were twice as high as those from controls, indicating a close link between maternal diabetes and embryonic BCAA metabolism. The expression of BCAA oxidizing enzymes and BCAA transporter was analysed in maternal tissues and in blastocysts. The RNA amounts of three oxidizing enzymes, i.e. branched chain aminotransferase 2 (Bcat2), branched chain ketoacid dehydrogenase (Bckdha) and dehydrolipoyl dehydrogenase (Dld), were markedly increased in maternal adipose tissue and decreased in liver and skeletal muscle of diabetic rabbits than in those of controls. Blastocysts of diabetic rabbits revealed a higher Bcat2 mRNA and protein abundance in comparison to control blastocysts. The expression of BCAA transporter LAT1 and LAT2 were unaltered in endometrium of diabetic and healthy rabbits, whereas LAT2 transcripts were increased in blastocysts of diabetic rabbits. In correlation to high embryonic BCAA levels the phosphorylation amount of the nutrient sensor mammalian target of rapamycin (mTOR) was enhanced in blastocysts caused by maternal diabetes. These results demonstrate a direct impact of maternal diabetes on BCAA concentrations and degradation in mammalian blastocysts with influence on embryonic mTOR signalling.

Published
2015
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38. RAGE-Dependent Effect of Exogenous Methylglyoxal Intake on Lung Biomechanics in Mice.

Author

Al-Robaiy, Samiya, Navarrete Santos, Alexander, and Simm, Andreas

Abstract

Methylglyoxal (MG) is a known highly reactive dicarbonyl and precursor to free radicals and advanced glycation end-products (AGEs). It is discussed to be involved in tissue aging and in the pathogenesis of different degenerative diseases. The effect of long-term oral administration of MG, simulating dietary MG intake, on the lung biomechanics of wild type (WT) and receptor for advanced glycation end-products knockout (RAGE-KO) mice was studied using an ex vivo ventilation system starting at the age of 6 months and after feeding for 6 and 12 months with MG. Our results showed that MG was taken up in the circulation and efficiently excreted with urine. The amount of free urinary MG measured after 12 months of feeding was lowered. After 12 months feeding, a significant airway resistance increase accompanied by a decrease of the maximal inspiratory airflow was observed in WT animals. No effect of MG in lung function of RAGE-KO mice could be detected. Despite the evidence that MG entered the systemic circulation, no MG-derived AGE accumulation was detected in the lung lysates in dependency on MG-feeding. Our data indicate that the short-term feeding of MG has little effect in vivo. Only after long-term treatment was MG secretion reduced, leading to tissue impairment. [ABSTRACT FROM AUTHOR]

Published
2023
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40. Quantitative proteomics and in-cell cross-linking reveal cellular reorganisation during early neuronal differentiation of SH-SY5Y cells

Author

Marie, Barth, Alicia, Toto Nienguesso, Anne, Navarrete Santos, and Carla, Schmidt

Subjects
Proteomics, Neuroblastoma, Proteome, Cell Line, Tumor, Humans, Cell Differentiation, Tretinoin, Biomarkers
Abstract

The neuroblastoma cell line SH-SY5Y is commonly employed to study neuronal function and disease. This includes cells grown under standard conditions or differentiated to neuron-like cells by administration of chemical reagents such as retinoic acid (RA) or phorbol-12-myristate-13-acetate (PMA). Even though SH-SY5Y cells are widely explored, a complete description of the resulting proteomes and cellular reorganisation during differentiation is still missing. Here, we relatively quantify the proteomes of cells grown under standard conditions and obtained from two differentiation protocols employing RA or a combination of RA and PMA. Relative quantification and KEGG pathway analysis of the proteins reveals the presence of early differentiating cells and provides a list of marker proteins for undifferentiated and differentiated cells. For characterisation of neuronal sub-types, we analyse expression of marker genes and find that RA-differentiated cells are acetylcholinergic and cholinergic, while RA/PMA-differentiated cells show high expression of acetylcholinergic and dopaminergic marker genes. In-cell cross-linking further allows capturing protein interactions in different cellular organelles. Specifically, we observe structural reorganisation upon differentiation involving regulating protein factors of the actin cytoskeleton.

Published
2021

42. Trophoblastic microRNAs are downregulated in a diabetic pregnancy through an inhibition of Drosha

Author

Bernd Fischer, Elen Gocza, Katarzyna J. Grybel, Anne Navarrete Santos, Jacqueline Gürke, Julia M. Knelangen, Maria Schindler, and S. Mareike Pendzialek

Subjects
Ribonuclease III, 0301 basic medicine, Placenta, Down-Regulation, 030209 endocrinology & metabolism, Biochemistry, Diabetes Mellitus, Experimental, Andrology, Endometrium, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Downregulation and upregulation, Pregnancy, Diabetes mellitus, microRNA, RNA Precursors, Animals, Insulin, Medicine, RNA, Messenger, Blastocyst, Molecular Biology, Cells, Cultured, Drosha, biology, Sequence Analysis, RNA, business.industry, Trophoblast, Embryo culture, Embryo, Mammalian, medicine.disease, Trophoblasts, MicroRNAs, Glucose, 030104 developmental biology, medicine.anatomical_structure, embryonic structures, biology.protein, Female, Rabbits, business, Dicer
Abstract

MicroRNAs are promising biological markers for prenatal diagnosis. They regulate placental development and are present in maternal plasma. Maternal metabolic diseases are major risk factors for placental deterioration. We analysed the influence of a maternal insulin-dependent diabetes mellitus on microRNA expression in maternal plasma and in blastocysts employing an in vivo rabbit diabetic pregnancy model and an in vitro embryo culture in hyperglycaemic and hypoinsulinaemic medium. Maternal diabetes led to a marked downregulation of Dicer protein in embryoblast cells and Drosha protein in trophoblast cells. MiR-27b, miR-141 and miR-191 were decreased in trophoblast cells and in maternal plasma of diabetic rabbits. In vitro studies indicate, that maternal hyperglycaemia and hypoinsulinaemia partially contribute to the downregulation of trophoblastic microRNAs. As the altered microRNA expression was detectable in maternal plasma, too, the plasma microRNA signature could serve as an early biological marker for the prediction of trophoblast function during a diabetic pregnancy.

Published
2019

43. Advanced glycation endproducts interfere with adhesion and neurite outgrowth.

Author

Dorit Bennmann, Rüdiger Horstkorte, Britt Hofmann, Kathleen Jacobs, Alexander Navarrete-Santos, Andreas Simm, Kaya Bork, and Vinayaga S Gnanapragassam

Subjects
Medicine, Science
Abstract

Advanced glycation endproducts (AGEs) represent a non-enzymatic posttranslational protein modification. AGEs are generated by a series of chemical reactions of free reducing monosaccharides, such as glucose, fructose or metabolites of the monosaccharide metabolism with amino groups of proteins. After oxidation, dehydration and condensation, stable AGE-modifications are formed. AGE-modified proteins accumulate in all cells and tissues as a normal feature of ageing and correlate with the glucose concentration in the blood. AGEs are increased in diabetic patients and play a significant role in the pathogenesis of most age-related neural disorders, such as Alzheimer's disease. We examined the role of AGEs on neurite outgrowth of PC12 cells. We induced the formation of AGEs using the reactive carbonyl compound methylglyoxal (MGO) as a physiological metabolite of glucose. We found that AGE-modification of laminin or collagen interfered with adhesion but not with neurite outgrowth of PC12 cells. Furthermore, the AGE-modification of PC12 cell proteins reduced NGF-induced neurite outgrowth. In conclusion, our data show that AGEs negatively influence neural plasticity.

Published
2014
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49. Rabbit as an aging model in reproduction : advanced maternal age alters GLO1 expression in the endometrium at the time of implantation

Author

De Nivelle, Johanna, Thoma, Juliane, Toto Nienguesso, Alicia, Seeling, Tom, Jung, Julianne-Susanne, Navarrete Santos, Anne, and Schindler, Maria

Abstract

Advanced maternal age is associated with adverse pregnancy outcomes and the decline of female fertility in mammals. A potential reason for reduced fertility is metabolic changes due to protein modifications by advanced glycation end products. To elucidate the aging process in female reproduction, we analysed a key enzyme for detoxification of reactive dicarbonyls, the glyoxalase 1 (GLO1), in reproductive organs and blastocysts of young and old rabbits at the preimplantation stage. At day 6 post coitum, uterine, oviductal, ovarian tissue and blastocysts from young (16–20 weeks) and old rabbits (>108 weeks) were characterised for GLO1 expression. GLO1 amounts, enzymatic activity and localisation were quantified by qPCR, Simple Western, activity assay and immunohistochemistry. The GLO1 enzyme was present and active in all reproductive tract organs in a cell-type-specific pattern. Ovarian follicle and uterine epithelial cells expressed GLO1 to a high extent. In tertiary follicles, GLO1 expression increased, whereas it decreased in the endometrium of old rabbits at day 6 of pregnancy. In blastocysts of old animals, GLO1 expression remained unchanged. In early pregnancy, advanced maternal age leads to modified GLO1 expression in ovarian follicles and the endometrium, indicating an altered metabolic stress response at the preimplantation stage in older females.

Published
2020
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50. Metabolic Profiling in Blastocoel Fluid and Blood Plasma of Diabetic Rabbits

Author

Schindler, Maria, Pendzialek, Sophia Mareike, Grybel, Katarzyna, Seeling, Tom, Navarrete Santos, Anne, Schindler, Maria, Pendzialek, Sophia Mareike, Grybel, Katarzyna, Seeling, Tom, and Navarrete Santos, Anne

Abstract

Metabolic disorders of the mother adversely affect early embryo development, causing changes in maternal metabolism and consequent alterations in the embryo environment in the uterus. The goal of this study was to analyse the biochemical profiles of embryonic fluids and blood plasma of rabbits with and without insulin-dependent diabetes mellitus (DT1), to identify metabolic changes associated with maternal diabetes mellitus in early pregnancy. Insulin-dependent diabetes was induced by alloxan treatment in female rabbits 10 days before mating. On day 6 post-coitum, plasma and blastocoel fluid (BF) were analysed by ultrahigh performance liquid chromatography-tandem mass spectroscopy (UPLC-MS/MS) (Metabolon Inc. Durham, NC, USA). Metabolic datasets comprised a total of 284 and 597 compounds of known identity in BF and plasma, respectively. Diabetes mellitus had profound effects on maternal and embryonic metabolic profiles, with almost half of the metabolites changed. As predicted, we observed an increase in glucose and a decrease in 1,5-anhydroglucitol in diabetic plasma samples. In plasma, fructose, mannose, and sorbitol were elevated in the diabetic group, which may be a way of dealing with excess glucose. In BF, metabolites of the pentose metabolism were especially increased, indicating the need for ribose-based compounds relevant to DNA and RNA metabolism at this very early stage of embryo development. Other changes were more consistent between BF and plasma. Both displayed elevated acylcarnitines, body3-hydroxybutyrate, and multiple compounds within the branched chain amino acid metabolism pathway, suggesting that lipid beta-oxidation is occurring at elevated levels in the diabetic group. This study demonstrates that maternal and embryonic metabolism are closely related. Maternal diabetes mellitus profoundly alters the metabolic profile of the preimplantation embryo with changes in all subclasses of metabolites

Published
2020

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