Your search keyword '"Simone A. Fietz"' showing total 65 results

1. Concerted transcriptional regulation of the morphogenesis of hypothalamic neurons by ONECUT3

Author

Maja Zupančič, Erik Keimpema, Evgenii O. Tretiakov, Stephanie J. Eder, Itamar Lev, Lukas Englmaier, Pradeep Bhandari, Simone A. Fietz, Wolfgang Härtig, Estelle Renaux, Andreas Villunger, Tomas Hökfelt, Manuel Zimmer, Frédéric Clotman, and Tibor Harkany

Subjects

Science

Abstract

Abstract Acquisition of specialized cellular features is controlled by the ordered expression of transcription factors (TFs) along differentiation trajectories. Here, we find a member of the Onecut TF family, ONECUT3, expressed in postmitotic neurons that leave their Ascl1 +/Onecut1/2 + proliferative domain in the vertebrate hypothalamus to instruct neuronal differentiation. We combined single-cell RNA-seq and gain-of-function experiments for gene network reconstruction to show that ONECUT3 affects the polarization and morphogenesis of both hypothalamic GABA-derived dopamine and thyrotropin-releasing hormone (TRH)+ glutamate neurons through neuron navigator-2 (NAV2). In vivo, siRNA-mediated knockdown of ONECUT3 in neonatal mice reduced NAV2 mRNA, as well as neurite complexity in Onecut3-containing neurons, while genetic deletion of Onecut3/ceh-48 in C. elegans impaired neurocircuit wiring, and sensory discrimination-based behaviors. Thus, ONECUT3, conserved across neuronal subtypes and many species, underpins the polarization and morphological plasticity of phenotypically distinct neurons that descend from a common pool of Ascl1 + progenitors in the hypothalamus.

Published

2024

2. Ultrastructural changes in chronic inflammatory enteropathies—a comparison between dogs and humans

Author

Simone A. Fietz, Mirjam Kalusa, Albert E. Jergens, Dipak Kumar Sahoo, Tracey Stewart, and Romy M. Heilmann

Subjects

chronic inflammatory enteropathies, inflammatory bowel diseases, ultrastructural changes, dog, human, Biology (General), QH301-705.5

Abstract

Chronic inflammatory enteropathies (CIEs) are an important group of diseases in dogs and involve complex pathogenetic aspects. Endoscopy and histopathology are vital for documenting the disease but are less useful for subclassifying CIEs and predicting the response to treatment. However, healing of the mucosal disease process (deep remission) and ultrastructural evaluation of the mucosa have received little attention in canine CIE. Given that canine CIE shares many similarities with inflammatory bowel diseases (IBDs) in human patients—and presents a good spontaneous disease model for human IBD—this perspective article evaluates the literature on ultrastructural lesions in canine CIE and human IBD and offers future directions for the study of ultrastructural mucosal lesions in canine CIE. Such lesions might have a higher sensitivity of detection than structural changes revealed upon light microscopy and may even precede or remain after the resolution of the clinical signs and histologic lesions.

Published

2024

3. Reduced neural progenitor cell count and cortical neurogenesis in guinea pigs congenitally infected with Toxoplasma gondii

Author

Thomas Grochow, Britta Beck, Zaida Rentería-Solís, Gereon Schares, Pavlo Maksimov, Christina Strube, Lisa Raqué, Johannes Kacza, Arwid Daugschies, and Simone A. Fietz

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Toxoplasma (T.) gondii is an obligate intracellular parasite with a worldwide distribution. Congenital infection can lead to severe pathological alterations in the brain. To examine the effects of toxoplasmosis in the fetal brain, pregnant guinea pigs are infected with T. gondii oocysts on gestation day 23 and dissected 10, 17 and 25 days afterwards. We show the neocortex to represent a target region of T. gondii and the parasite to infect neural progenitor cells (NPCs), neurons and astrocytes in the fetal brain. Importantly, we observe a significant reduction in neuron number at end-neurogenesis and find a marked reduction in NPC count, indicating that impaired neurogenesis underlies the neuronal decrease in infected fetuses. Moreover, we observe focal microglioses to be associated with T. gondii in the fetal brain. Our findings expand the understanding of the pathophysiology of congenital toxoplasmosis, especially contributing to the development of cortical malformations.

Published

2023

4. Neocortex neurogenesis and maturation in the African greater cane rat

Author

Oluwaseun Mustapha, Thomas Grochow, James Olopade, and Simone A. Fietz

Subjects

Greater cane rat, Grasscutter, Neocortex development, Neurogenesis, Neuron maturation, Precocial, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Neocortex development has been extensively studied in altricial rodents such as mouse and rat. Identification of alternative animal models along the “altricial-precocial” spectrum in order to better model and understand neocortex development is warranted. The Greater cane rat (GCR, Thyronomys swinderianus) is an indigenous precocial African rodent. Although basic aspects of brain development in the GCR have been documented, detailed information on neocortex development including the occurrence and abundance of the distinct types of neural progenitor cells (NPCs) in the GCR are lacking. Methods GCR embryos and fetuses were obtained from timed pregnant dams between gestation days 50–140 and their neocortex was analyzed by immunofluorescence staining using characteristic marker proteins for NPCs, neurons and glia cells. Data were compared with existing data on closely related precocial and altricial species, i.e. guinea pig and dwarf rabbit. Results The primary sequence of neuro- and gliogenesis, and neuronal maturation is preserved in the prenatal GCR neocortex. We show that the GCR exhibits a relatively long period of cortical neurogenesis of 70 days. The subventricular zone becomes the major NPC pool during mid-end stages of neurogenesis with Pax6 + NPCs constituting the major basal progenitor subtype in the GCR neocortex. Whereas dendrite formation in the GCR cortical plate appears to initiate immediately after the onset of neurogenesis, major aspects of axon formation and maturation, and astrogenesis do not begin until mid-neurogenesis. Similar to the guinea pig, the GCR neocortex exhibits a high maturation status, containing neurons with well-developed dendrites and myelinated axons and astrocytes at birth, thus providing further evidence for the notion that a great proportion of neocortex growth and maturation in precocial mammals occurs before birth. Conclusions Together, this work has deepened our understanding of neocortex development of the GCR, of the timing and the cellular differences that regulate brain growth and development within the altricial–precocial spectrum and its suitability as a research model for neurodevelopmental studies. The timelines of brain development provided by this study may serve as empirical reference data and foundation in future studies in order to model and better understand neurodevelopment and associated alterations.

Published

2023

5. The Concentration of Salivary Extracellular Vesicles Is Related to Obesity

Author

Kristin Röhrborn, Martin Krueger, Mirjam Kalusa, Simone A. Fietz, Alexander Ewe, Achim Aigner, Michael Stumvoll, Peter Kovacs, Matthias Blüher, Imke Schamarek, and Kerstin Rohde-Zimmermann

Subjects

saliva, extracellular vesicles, obesity, taste bud, Nutrition. Foods and food supply, TX341-641

Abstract

Background and aims: Saliva is essential for the proper dilution and distribution of taste molecules on the tongue. It harbors extracellular vesicles (EVs), which mediate cell–cell communication. Changes in the composition of salivary EVs may arise under obese conditions and may potentially be involved in taste sensation and dysregulated eating behavior. Therefore, this study addresses the relationship between the size and concentration of salivary EVs and metabolic shifts in obesity or factors of taste sensation. Materials and methods: A total of 119 participants in the Obese Taste Bud (OTB) Study were included, who performed a standardized taste test, underwent taste bud density assessment, and were phenotypically characterized for anthropometrics, blood- and saliva adipokine levels, and various metabolic factors. Utilizing size exclusion chromatography followed by ultrafiltration, EVs were extracted from 2 mL of actively secreted saliva. EVs were characterized using nanoparticle tracking analyses, Western blot, and scanning transmission electron microscopy. Finally, group comparisons and bivariate correlation analyses were conducted. Results: Among the total cohort, the median size of salivary EVs was 190.05 nm, and the overall concentration ranged from 1.4 × 107 to 1.76 × 109 per mL of saliva. The size range and concentration of EVs per mL are negatively correlated (p = 0.0002, r = −0.264). Comparing lean participants (mean rank of 45.98) with those presenting obesity (mean rank of 34.46), a significant difference in the salivary EV content was observed (p = 0.029). Body weight, BMI, arm and calf circumferences, as well as the percentage of body fat were all negatively related to the concentration of EVs in all study participants (all p < 0.05, r > −0.2). No associations were found between the EV parameters and taste perception but serum alkaline phosphatase levels were negatively correlated (p = 0.007, r = −0.284) and adiponectin serum levels were positively correlated to the EV concentration (p = 0.036, r = 0.208). Conclusion: The current study provides evidence for the relation between salivary EVs and anthropometric as well as metabolic parameters of obesity. This can provide the basis for further research on the cargo of salivary EVs and how they may influence taste sensation, and may elucidate their potential connection to altered eating habits in obesity.

Published

2024

6. Evaluation of proline-rich antimicrobial peptides as potential lead structures for novel antimycotics against Cryptococcus neoformans

Author

Alexandra Brakel, Thomas Grochow, Stefanie Fritsche, Daniel Knappe, Andor Krizsan, Simone A. Fietz, Gottfried Alber, Ralf Hoffmann, and Uwe Müller

Subjects

antifungal peptide, fungal pathogen, intracellular mode-of-action, proline-rich antimicrobial peptide (PrAMP), scanning electron microscopy, Microbiology, QR1-502

Abstract

BackgroundCryptococcosis and cryptococcal meningitis, caused by Cryptococcus neoformans infections, lead to approximately 180,000 deaths per year, primarily in developing countries. Individuals with compromised immune systems, e.g., due to HIV infection (AIDS) or chemotherapy, are particularly vulnerable. Conventional treatment options are often limited and can cause severe side effects. Therefore, this study aimed to investigate the antifungal effect of insect-derived proline-rich antimicrobial peptides (PrAMPs) against C. neoformans. These peptides are known for their low toxicity and their high efficacy in murine infection models, making them a promising alternative for treatment.ResultsA preliminary screening of the minimal inhibitory concentrations (MICs) of 20 AMPs, including the well-known PrAMPs Onc112, Api137, and Chex1Arg20 as well as the cathelicidin CRAMP against the C. neoformans strains 1841, H99, and KN99α revealed promising results, with MICs as low as 1.6 μmol/L. Subsequent investigations of selected peptides, determining their influence on fungal colony-forming units, confirmed their strong activity. The antifungal activity was affected by factors such as peptide net charge and sequence, with stronger effects at higher net charges probably due to better intracellular uptake confirmed by confocal laser scanning microscopy. Inactive scrambled peptides suggest a specific intracellular target, although scanning electron microscopy showed that PrAMPs also damaged the cell exterior for a low proportion of the cells. Possible pore formation could facilitate entry into the cytosol.

Published

2024

7. Fulminant Pneumonia Due to Reactivation of Latent Toxoplasmosis in a Cat—A Case Report

Author

Simone A. Fietz, Thomas Grochow, Gereon Schares, Tanja Töpfer, and Romy M. Heilmann

Subjects

Toxoplasma gondii, infective pneumonia, immunosuppression, zoonosis, cat, latent toxoplasmosis, Medicine

Abstract

Toxoplasma (T.) gondii is an obligate intracellular parasite with felids, including domestic cats, as definitive hosts. In immunocompetent individuals, T. gondii infection is usually asymptomatic. However, under immunosuppression, it may have severe pathological impacts, which often result from the reactivation of a chronic infection. In this case study, a 21-month-old female domestic shorthair cat—diagnosed with primary immune-mediated hemolytic anemia three months prior and treated with cyclosporine and prednisolone—presented with acute tachypnea, dyspnea, diarrhea, and anorexia. Thoracic radiography suggested severe pneumonia. Testing for Mycoplasma spp., Anaplasma spp., Ehrlichia spp., and lungworm infection was negative. Serology for T. gondii revealed seroconversion of IgG, but not of IgM, indicating previous exposure to T. gondii. The cat remained stable but tachypneic for three days, followed by an acute onset of dyspnea and clinical deterioration, after which euthanasia was elected. Numerous protozoa were present in a postmortem transtracheal bronchoalveolar lavage and fine-needle aspiration of the lung. Microsatellite typing classified the extracted DNA as T. gondii type II variant TgM-A. This case demonstrates that T. gondii reactivation, leading to fulminant pneumonia, can be a sequela of immunosuppressive treatment in cats and should, therefore, be considered as a differential diagnosis in immunosuppressed cats with acute-onset respiratory signs. Rapid diagnosis may prevent fatal consequences.

Published

2023

8. Establishment and validation of a guinea pig model for human congenital toxoplasmosis

Author

Thomas Grochow, Britta Beck, Zaida Rentería-Solís, Gereon Schares, Pavlo Maksimov, Christina Strube, Johannes Seeger, Lisa Raqué, Reiner Ulrich, Arwid Daugschies, and Simone A. Fietz

Subjects

Congenital toxoplasmosis, Toxoplasma gondii, Guinea pig, Animal model, Oocysts infection, Stage of gestation, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Toxoplasma gondii is an obligate intracellular parasite with a worldwide distribution. Congenital infection in humans and animals may lead to severe symptoms in the offspring, especially in the brain. A suitable animal model for human congenital toxoplasmosis is currently lacking. The aim of this study is to establish and validate the guinea pig as a model for human congenital toxoplasmosis by investigating the impact of the T. gondii infection dose, the duration of infection and the gestational stage at infection on the seroconversion, survival rate of dams, fate of the offspring, T. gondii DNA loads in various offspring tissues and organs and the integrity of the offspring brain. Methods Pregnant guinea pigs were infected with three different doses (10, 100, 500 oocysts) of T. gondii strain ME49 at three different time points during gestation (15, 30, 48 days post-conception). Serum of dams was tested for the presence of T. gondii antibodies using immunoblotting. T. gondii DNA levels in the dam and offspring were determined by qPCR. Offspring brains were examined histologically. Results We found the survival rate of dams and fate of the offspring to be highly dependent on the T. gondii infection dose with an inoculation of 500 oocysts ending lethally for all respective offspring. Moreover, both parameters differ depending on the gestational stage at infection with infection in the first and third trimester of gestation resulting in a high offspring mortality rate. The duration of infection was found to substantially impact the seroconversion rate of dams with the probability of seroconversion exceeding 50% after day 20 post-infection. Furthermore, the infection duration of dams influenced the T. gondii DNA loads in the offspring and the integrity of offspring brain. Highest DNA levels were found in the offspring brain of dams infected for ≥ 34 days. Conclusion This study contributes to establishing the guinea pig as a suitable model for human congenital toxoplasmosis and thus lays the foundation for using the guinea pig as a suitable animal model to study scientific questions of high topicality and clinical significance, which address the pathogenesis, diagnosis, therapy and prognosis of congenital toxoplasmosis. Graphical abstract

Published

2021

9. Alpha-Synuclein Pathology Coincides With Increased Number of Early Stage Neural Progenitors in the Adult Hippocampus

Author

Hannah Bender, Simone A. Fietz, Franziska Richter, and Milos Stanojlovic

Subjects

Parkinson’s disease, adult neurogenesis, hippocampus, Dementia with Lewy bodies (DLB), alpha-synuclein, Biology (General), QH301-705.5

Abstract

Alpha-synuclein pathology driven impairment in adult neurogenesis was proposed as a potential cause of, or at least contributor to, memory impairment observed in both patients and animal models of Parkinson’s disease (PD) and Dementia with Lewy Bodies (DLB). Mice overexpressing wild-type alpha-synuclein under the Thy-1 promoter (Thy1-aSyn, line 61) uniquely replicate early cognitive deficits together with multiple other characteristic motor and non-motor symptoms, alpha-synuclein pathology and dopamine loss. Here we report overt intracellular accumulation of phosphorylated alpha-synuclein in the hippocampus of these transgenic mice. To test whether this alters adult neurogenesis and total number of mature neurons, we employed immunohistochemistry and an unbiased stereology approach to quantify the distinct neural progenitor cells and neurons in the hippocampal granule cell layer and subgranular zone of 6 (prodromal stage) and 16-month (dopamine loss) old Thy1-aSyn mice. Surprisingly, we observed an increase in the number of early stage, i.e., Pax6 expressing, progenitors whereas the numbers of late stage, i.e., Tbr2 expressing, progenitors and neurons were not altered. Astroglia marker was increased in the hippocampus of transgenic mice, but this was not specific to the regions where adult neurogenesis takes place, arguing against a commitment of additional early stage progenitors to the astroglia lineage. Together, this uncovers a novel aspect of alpha-synuclein pathology in adult neurogenesis. Studying its mechanisms in Thy1-aSyn mice could lead to discovery of effective therapeutic interventions for cognitive dysfunction in PD and DLB.

Published

2021

10. Developmental Differences in Neocortex Neurogenesis and Maturation Between the Altricial Dwarf Rabbit and Precocial Guinea Pig

Author

Mirjam Kalusa, Maren D. Heinrich, Christine Sauerland, Markus Morawski, and Simone A. Fietz

Subjects

precocial, altricial, cortex development, neurogenesis, neuron maturation, dwarf rabbit, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Human anatomy, QM1-695

Abstract

Mammals are born on a precocial–altricial continuum. Altricial species produce helpless neonates with closed distant organs incapable of locomotion, whereas precocial species give birth to well-developed young that possess sophisticated sensory and locomotor capabilities. Previous studies suggest that distinct patterns of cortex development differ between precocial and altricial species. This study compares patterns of neocortex neurogenesis and maturation in the precocial guinea pig and altricial dwarf rabbit, both belonging to the taxon of Glires. We show that the principal order of neurodevelopmental events is preserved in the neocortex of both species. Moreover, we show that neurogenesis starts at a later postconceptional day and takes longer in absolute gestational days in the precocial than the altricial neocortex. Intriguingly, our data indicate that the dwarf rabbit neocortex contains a higher abundance of highly proliferative basal progenitors than the guinea pig, which might underlie its higher encephalization quotient, demonstrating that the amount of neuron production is determined by complex regulation of multiple factors. Furthermore, we show that the guinea pig neocortex exhibits a higher maturation status at birth, thus providing evidence for the notions that precocial species might have acquired the morphological machinery required to attain their high functional state at birth and that brain expansion in the precocial newborn is mainly due to prenatally initiating processes of gliogenesis and neuron differentiation instead of increased neurogenesis. Together, this study reveals important insights into the timing and cellular differences that regulate mammalian brain growth and maturation and provides a better understanding of the evolution of mammalian altriciality and presociality.

Published

2021

11. Polyethylenimine Nanoparticle-Mediated siRNA Delivery to Reduce α-Synuclein Expression in a Model of Parkinson’s Disease

Author

Christin Helmschrodt, Sabrina Höbel, Sandra Schöniger, Anne Bauer, Jana Bonicelli, Marieke Gringmuth, Simone A. Fietz, Achim Aigner, Angelika Richter, and Franziska Richter

Subjects

RNA interference, nanoparticles, intracerebroventricular, α-synuclein, mouse model, Parkinson’s disease, transfection, Therapeutics. Pharmacology, RM1-950

Abstract

RNA interference (RNAi)-based strategies that mediate the specific knockdown of target genes by administration of small interfering RNAs (siRNAs) could be applied for treatment of presently incurable neurodegenerative diseases such as Parkinson’s disease. However, inefficient delivery of siRNA into neurons hampers in vivo application of RNAi. We have previously established the 4–12 kDa branched polyethylenimine (PEI) F25-LMW with superior transfection efficacy for delivery of siRNA in vivo. Here, we present that siRNA complexed with this PEI extensively distributes across the CNS down to the lumbar spinal cord after a single intracerebroventricular infusion. siRNA against α-synuclein (SNCA), a pre-synaptic protein that aggregates in Parkinson’s disease, was complexed with PEI F25-LMW and injected into the lateral ventricle of mice overexpressing human wild-type SNCA (Thy1-aSyn mice). Five days after the single injection of 0.75 μg PEI/siRNA, SNCA mRNA expression in the striatum was reduced by 65%, accompanied by reduction of SNCA protein by ∼50%. Mice did not show signs of toxicity or adverse effects. Moreover, ependymocytes and brain parenchyma were completely preserved and free of immune cell invasion, astrogliosis, or microglial activation. Our results support the efficacy and safety of PEI nanoparticle-mediated delivery of siRNA to the brain for therapeutic intervention.

Published

2017

12. Neural Progenitors in the Developing Neocortex of the Northern Tree Shrew (Tupaia belangeri) Show a Closer Relationship to Gyrencephalic Primates Than to Lissencephalic Rodents

Author

Sebastian Römer, Hannah Bender, Wolfgang Knabe, Elke Zimmermann, Rudolf Rübsamen, Johannes Seeger, and Simone A. Fietz

Subjects

neocortex development, neural progenitor, basal radial glia, tree shrew, Tupaia belangeri, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Human anatomy, QM1-695

Abstract

The neocortex is the most complex part of the mammalian brain and as such it has undergone tremendous expansion during evolution, especially in primates. The majority of neocortical neurons originate from distinct neural stem and progenitor cells (NPCs) located in the ventricular and subventricular zone (SVZ). Previous studies revealed that the SVZ thickness as well as the abundance and distribution of NPCs, especially that of basal radial glia (bRG), differ markedly between the lissencephalic rodent and gyrencephalic primate neocortex. The northern tree shrew (Tupaia belangeri) is a rat-sized mammal with a high brain to body mass ratio, which stands phylogenetically mid-way between rodents and primates. Our study provides – for the first time – detailed data on the presence, abundance and distribution of bRG and other distinct NPCs in the developing neocortex of the northern tree shrew (Tupaia belangeri). We show that the developing tree shrew neocortex is characterized by an expanded SVZ, a high abundance of Pax6+ NPCs in the SVZ, and a relatively high percentage of bRG at peak of upper-layer neurogenesis. We further demonstrate that key features of tree shrew neocortex development, e.g., the presence, abundance and distribution of distinct NPCs, are closer related to those of gyrencephalic primates than to those of ferret and lissencephalic rodents. Together, our study provides novel insight into the evolution of bRG and other distinct NPCs in the neocortex development of Euarchontoglires and introduces the tree shrew as a potential novel model organism in the area of human brain development and developmental disorders.

Published

2018

13. Establishment and validation of a guinea pig model for human congenital toxoplasmosis

Author

Pavlo Maksimov, Lisa Raqué, Reiner Ulrich, Johannes Seeger, Britta Beck, Thomas Grochow, Arwid Daugschies, Gereon Schares, Simone A. Fietz, Christina Strube, and Zaida Rentería-Solís

Subjects

Offspring, Guinea Pigs, Antibodies, Protozoan, Physiology, Toxoplasma gondii, Infectious and parasitic diseases, RC109-216, Parasite Load, Toxoplasmosis, Congenital, Guinea pig, Pregnancy, Stage of gestation, parasitic diseases, Animals, Humans, Animal model, Oocysts infection, Seroconversion, Survival rate, Congenital toxoplasmosis, biology, Research, Mortality rate, Brain, Infection dose, biology.organism_classification, Infectious Disease Transmission, Vertical, Disease Models, Animal, Toxoplasmosis, Animal, Infectious Diseases, Parasitology, Brain lesion, Predilection site, Pregnancy Complications, Parasitic, Gestation, Female, Toxoplasma

Abstract

Background Toxoplasma gondii is an obligate intracellular parasite with a worldwide distribution. Congenital infection in humans and animals may lead to severe symptoms in the offspring, especially in the brain. A suitable animal model for human congenital toxoplasmosis is currently lacking. The aim of this study is to establish and validate the guinea pig as a model for human congenital toxoplasmosis by investigating the impact of the T. gondii infection dose, the duration of infection and the gestational stage at infection on the seroconversion, survival rate of dams, fate of the offspring, T. gondii DNA loads in various offspring tissues and organs and the integrity of the offspring brain. Methods Pregnant guinea pigs were infected with three different doses (10, 100, 500 oocysts) of T. gondii strain ME49 at three different time points during gestation (15, 30, 48 days post-conception). Serum of dams was tested for the presence of T. gondii antibodies using immunoblotting. T. gondii DNA levels in the dam and offspring were determined by qPCR. Offspring brains were examined histologically. Results We found the survival rate of dams and fate of the offspring to be highly dependent on the T. gondii infection dose with an inoculation of 500 oocysts ending lethally for all respective offspring. Moreover, both parameters differ depending on the gestational stage at infection with infection in the first and third trimester of gestation resulting in a high offspring mortality rate. The duration of infection was found to substantially impact the seroconversion rate of dams with the probability of seroconversion exceeding 50% after day 20 post-infection. Furthermore, the infection duration of dams influenced the T. gondii DNA loads in the offspring and the integrity of offspring brain. Highest DNA levels were found in the offspring brain of dams infected for ≥ 34 days. Conclusion This study contributes to establishing the guinea pig as a suitable model for human congenital toxoplasmosis and thus lays the foundation for using the guinea pig as a suitable animal model to study scientific questions of high topicality and clinical significance, which address the pathogenesis, diagnosis, therapy and prognosis of congenital toxoplasmosis. Graphical abstract

Published

2021

14. Developmental horizons in the pre‐natal development of the Greater cane rat ( Thryonomys swinderianus )

Author

Samuel Ezekiel, O. A. Mustapha, M. A. Olude, James O. Olopade, Johannes Seeger, and Simone A. Fietz

Subjects

General Veterinary, Rodent, Reproduction, Ontogeny, Cane rat, Embryonic Development, Zoology, Rodentia, Embryo, General Medicine, Biology, biology.organism_classification, Fetus, biology.animal, Developmental Milestone, Animals, Mammal, Precocial, Thryonomys swinderianus

Abstract

The Greater cane rat (GCR, Thyronomys swinderianus) is a precocial rodent predominantly found within Africa. Economic and scientific interests have led to several research efforts towards the domestication and better understanding of the biology and development of this rodent. Despite these efforts, information on the pre-natal development of this rodent is currently lacking. This study characterises distinct developmental milestones including skin pigmentation, emergence and distributions of hairs, calvarium consistency, teeth eruption, development of appendages, sensory organs and external genitalia in the pre-natal GCR and assesses quantitative body parameters, that is body weight, body and crown-rump lengths across its entire gestation length (gestation days [GDs] 10-140). Using these external features, we provide baseline reference ontogenetic scales for GCR embryos and fetuses, employable for stage, age and sex estimation of the pre-natal GCR in future studies. We observed that the first evidence of an embryo was not seen before the end of the first trimester (GD50) and that the late second trimester (GD80-GD100) marks the transition from embryogenesis to fetogenesis in the GCR. As both events occur at a much later developmental time point when compared to precocial non-rodents including human, sheep and pig and slightly later when compared to other precocial rodents such as guinea pig, our data provide first indication that the pre-natal GCR development might be associated with a reproductive delay. Together, this study expands our knowledge of the development and biology of the GCR, which will improve reproductive and breeding management, and native species conservation of this hystricomorph mammal.

Published

2019

15. Haut- und Unterhauttumoren – Teil 3: Wichtige ektodermale Tumoren bei Hund und Katze

Author

Simone A. Fietz, Johannes Seeger, and Friedrich Roes

Subjects

business.industry, Medicine, business

Published

2019

16. Polyethylenimine Nanoparticle-Mediated siRNA Delivery to Reduce α-Synuclein Expression in a Model of Parkinson’s Disease

Author

Angelika Richter, Christin Helmschrodt, Jana Bonicelli, Sabrina Höbel, Anne Bauer, Sandra Schöniger, Marieke Gringmuth, Achim Aigner, Simone A. Fietz, and Franziska Richter

Subjects

0301 basic medicine, Small interfering RNA, Parkinson's disease, intracerebroventricular, mouse model, Biology, 03 medical and health sciences, chemistry.chemical_compound, RNA interference, α-synuclein, Immune system, Drug Discovery, medicine, Polyethylenimine, Gene knockdown, lcsh:RM1-950, Transfection, medicine.disease, Molecular biology, Astrogliosis, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, transfection, chemistry, Parkinson’s disease, Cancer research, Molecular Medicine, Original Article, nanoparticles

Abstract

RNA interference (RNAi)-based strategies that mediate the specific knockdown of target genes by administration of small interfering RNAs (siRNAs) could be applied for treatment of presently incurable neurodegenerative diseases such as Parkinson’s disease. However, inefficient delivery of siRNA into neurons hampers in vivo application of RNAi. We have previously established the 4–12 kDa branched polyethylenimine (PEI) F25-LMW with superior transfection efficacy for delivery of siRNA in vivo. Here, we present that siRNA complexed with this PEI extensively distributes across the CNS down to the lumbar spinal cord after a single intracerebroventricular infusion. siRNA against α-synuclein (SNCA), a pre-synaptic protein that aggregates in Parkinson’s disease, was complexed with PEI F25-LMW and injected into the lateral ventricle of mice overexpressing human wild-type SNCA (Thy1-aSyn mice). Five days after the single injection of 0.75 μg PEI/siRNA, SNCA mRNA expression in the striatum was reduced by 65%, accompanied by reduction of SNCA protein by ∼50%. Mice did not show signs of toxicity or adverse effects. Moreover, ependymocytes and brain parenchyma were completely preserved and free of immune cell invasion, astrogliosis, or microglial activation. Our results support the efficacy and safety of PEI nanoparticle-mediated delivery of siRNA to the brain for therapeutic intervention., Graphical Abstract

Published

2017

17. Burden and regional distribution of Toxoplasma gondii cysts in the brain of COBB 500 broiler chickens following chronic infection with 76K strain

Author

Delphine Le Roux, Gereon Schares, Radu Blaga, Arwid Daugschies, Berit Bangoura, Thomas Grochow, Simone A. Fietz, and Britta Beck

Subjects

animal structures, Physiology, Spleen, Apicomplexa, Cost of Illness, parasitic diseases, medicine, Animals, Cyst, Seroconversion, Poultry Diseases, General Veterinary, biology, Zoonosis, Brain, Toxoplasma gondii, General Medicine, biology.organism_classification, medicine.disease, Toxoplasmosis, Chronic infection, Toxoplasmosis, Animal, medicine.anatomical_structure, Parasitology, Chickens, Toxoplasma

Abstract

Toxoplasmosis is a worldwide zoonosis caused by the obligate intracellular apicomplexan parasite Toxoplasma gondii (T. gondii). Chickens are ground-feeders and represent, especially if free-range, important intermediate hosts in the epidemiology of toxoplasmosis and are used as sentinels of environmental contamination with T. gondii oocysts. Until now, little is known about the burden and regional distribution of T. gondii cysts in the chicken brain. It was therefore the aim of this study to investigate the abundance and specific distribution of T. gondii cysts within the chicken brain following chronic infection with a type II strain (76 K) of T. gondii. A total of 29 chickens were included in the study and divided into control group (n = 9) and two different infection groups, a low dose (n = 10) and a high dose (n = 10) group, which were orally inoculated with 1500 or 150,000 T. gondii oocysts per animal, respectively. Seroconversion was detected in the majority of chickens of the high dose group, but not in the animals of the low dose and the control group. Moreover, T. gondii DNA was detected most frequently in the brain and more frequently in the heart than in liver, spleen, thigh and pectoral muscle using qPCR analysis. The number of T. gondii cysts, quantified in the chicken brain using histological analysis, seems to be considerably lower as compared to studies in rodents, which might explain why T. gondii infected chickens very rarely, if at all, develop neurological deficits. Similar to observations in mice, in which no lateralisation for T. gondii cysts was reported, T. gondii cysts were distributed nearly equally between the left and right chicken brain hemispheres. When different brain regions (fore-, mid- and hindbrain) were compared, all T. gondii cysts were located in the forebrain with the overwhelming majority of these cysts being present in the telencephalic pallium and subpallium. More studies including different strains and higher doses of T. gondii are needed in order to precisely evaluate its cyst burden and regional distribution in the chicken brain. Together, our findings provide insights into the course of T. gondii infection in chickens and are important to understand the differences of chronic T. gondii infection in the chicken and mammalian brain.

Published

2021

18. Development of Deep and Upper Neuronal Layers in the Domestic Cat, Sheep and Pig Neocortex

Author

M. Hoops, Johannes Kauffold, M. Glatzle, Simone A. Fietz, and Johannes Seeger

Subjects

Telencephalon, 0301 basic medicine, Future studies, Swine, Period (gene), Statistics as Topic, Neocortex, Biology, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Homeodomain Proteins, Microscopy, Confocal, Sheep, General Veterinary, Neurogenesis, Motor control, Cortical plate, General Medicine, Anatomy, Immunohistochemistry, 030104 developmental biology, medicine.anatomical_structure, Cats, Linear Models, biology.protein, TBR1, T-Box Domain Proteins, Gestation length, Neuroscience, 030217 neurology & neurosurgery

Abstract

The neocortex plays a key role in cognition, volitional motor control and sensory perception and has undergone tremendous expansion during evolution. The mature neocortex consists of radially aligned neurons that are arranged in six layers. Layers II-VI are often split into two groups: deep and upper layers, both building up the so-called cortical plate during embryonic and foetal development. So far cortical neurogenesis, including the generation of deep and upper layers, has mostly been studied in laboratory rodents and primates. However, precise data for most companion animals are lacking. This study determined the main period of neurogenesis, specifically the timing of deep and upper layer generation, in the developing domestic cat, pig and sheep neocortex using immunohistochemistry for specific neuronal markers, that is Tbr1 and Brn2. We found that the general sequence of neural events is preserved among cat, pig, sheep and other mammalian species. However, we observed differences in the timing of the overall cortical neurogenic period and occurrence of distinct neural events when these three species were compared. Moreover, our data provide further evidence that the cortical neurogenic period and gestation length might be tightly related. Together, these data expand our current understanding of neocortex development and are important for future studies investigating neocortex development and expansion especially in companion animals.

Published

2017

19. Haut- und Unterhauttumoren – Wichtige mesenchymale Tumoren bei Hund und Katze

Author

Johannes Seeger, Friedrich Roes, and Simone A. Fietz

Subjects

0301 basic medicine, 0403 veterinary science, 03 medical and health sciences, 040301 veterinary sciences, 030101 anatomy & morphology, 04 agricultural and veterinary sciences

Abstract

Haut- und Unterhauttumoren sind ein haufiger Grund fur einen Besuch in der Kleintierpraxis. Leider wird ihre potenzielle Bosartigkeit haufig unterschatzt, sodass eine kurative Therapie erschwert oder durch zu spates Handeln unmoglich wird. Fur eine erfolgreiche Therapie ist eine fruhe Diagnostik enorm wichtig, die entzundliche Prozesse von Tumoren abgrenzt und im Idealfall auch deren Malignitat aufzeigt. Eine zytologische Untersuchung kann diese Moglichkeiten bieten. Die Autoren stellen wichtige mesenchymale Haut- und Unterhauttumoren vor und grenzen sie gegenuber entzundlichen Veranderungen im Unterhautfettgewebe ab.

Published

2017

20. Altered postnatal maturation of striatal GABAergic interneurons in a phenotypic animal model of dystonia

Author

Simone A. Fietz, Christine Spröte, Tanja Brigadski, Anne Bauer, Jean-Marc Fritschy, Christoph Bode, Angelika Richter, Franziska Richter, University of Zurich, and Richter, Franziska

Subjects

Male, 0301 basic medicine, Thyroid Nuclear Factor 1, Action Potentials, 10050 Institute of Pharmacology and Toxicology, Hamster, 610 Medicine & health, Striatum, 2806 Developmental Neuroscience, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, GTP-Binding Proteins, Cricetinae, Basal ganglia, medicine, Animals, Premovement neuronal activity, GABAergic Neurons, Dystonia, Mesocricetus, Symporters, biology, Glutamate Decarboxylase, Age Factors, Gene Expression Regulation, Developmental, Nuclear Proteins, Receptors, GABA-A, medicine.disease, Corpus Striatum, Disease Models, Animal, Parvalbumins, Phenotype, 030104 developmental biology, Animals, Newborn, nervous system, Neurology, Disinhibition, 2808 Neurology, biology.protein, 570 Life sciences, GABAergic, Female, medicine.symptom, Neuroscience, 030217 neurology & neurosurgery, Parvalbumin, Transcription Factors

Abstract

GABAergic disinhibition has been suggested to play a critical role in the pathophysiology of several basal ganglia disorders, including dystonia, a common movement disorder. Previous studies have shown a deficit of striatal GABAergic interneurons (IN) in the dtsz mutant hamster, one of the few phenotypic animal models of dystonia. However, mechanisms underlying this deficit are largely unknown. In the present study, we investigated the migration and maturation of striatal IN during postnatal development (18 days of age) and at age of highest severity of dystonia (33 days of age) in this hamster model. In line with previous findings, the density of GAD67-positive IN and the level of parvalbumin mRNA, a marker for fast spiking GABAergic IN, were lower in the dtsz mutant than in control hamsters. However, an unaltered density of Nkx2.1 labeled cells and Nkx2.1 mRNA level suggested that the migration of GABAergic IN into the striatum was not retarded. Therefore, different factors that indicate maturation of GABAergic IN were determined. While mRNA of the KCC2 cation/chloride transporters and the cytosolic carboanhydrase VII, used as markers for the so called GABA switch, as well as BDNF were unaltered, we found a reduced number of IN expressing the alpha1 subunit of the GABAA-receptor (37.5%) in dtsz hamsters at an age of 33 days, but not after spontaneous remission of dystonia at an age of 90 days. Since IN shift expression from alpha2 to alpha1 subunits during postnatal maturation, this result together with a decreased parvalbumin mRNA expression suggest a delayed maturation of striatal GABAergic IN in this animal model, which might underlie abnormal neuronal activity and striatal plasticity.

Published

2017

21. The Basal Radial Glia Occurs in Marsupials and Underlies the Evolution of an Expanded Neocortex in Therian Mammals

Author

Marilyn B. Renfree, Christine Sauerland, Johannes Seeger, Megan Glatzle, Simone A. Fietz, and Brandon R. Menzies

Subjects

0301 basic medicine, Cell type, PAX6 Transcription Factor, Neurogenesis, Cognitive Neuroscience, Ependymoglial Cells, Neocortex, Cerebral Ventricles, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Tammar wallaby, Neural Stem Cells, Species Specificity, mental disorders, medicine, Animals, Phylogeny, Sheep, Domestic, Marsupial, Macropodidae, biology, biology.organism_classification, Biological Evolution, Immunohistochemistry, Neural stem cell, Neuroepithelial cell, 030104 developmental biology, medicine.anatomical_structure, nervous system, Evolutionary biology, Cerebral cortex, T-Box Domain Proteins, Neuroscience, Cell Division, 030217 neurology & neurosurgery

Abstract

A hallmark of mammalian brain evolution is the emergence of the neocortex, which has expanded in all mammalian infraclasses (Eutheria, Marsupialia, Monotremata). In eutherians, neocortical neurons derive from distinct neural stem and progenitor cells (NPCs). However, precise data on the presence and abundance of the NPCs, especially of basal radial glia (bRG), in the neocortex of marsupials are lacking. This study characterized and quantified the NPCs in the developing neocortex of a marsupial, the tammar wallaby (Macropus eugenii). Our data demonstrate that its neocortex is characterized by high NPC diversity. Importantly, we show that bRG exist at high relative abundance in the tammar indicating that this cell type is not specific to the eutherian neocortex and that similar mechanisms may underlie the formation of an expanded neocortex in eutherian and marsupial mammals. We also show that bRG are likely to have been present in the therian ancestor, so did not emerge independently in the eutherian and marsupial lineages. Moreover, our data support the concept that changes in multiple parameters contribute to neocortex expansion and demonstrate the importance of bRG and other NPCs for the development and expansion of the mammalian neocortex.

Published

2016

22. Haut- und Unterhauttumoren – Einführung in die Zytologie

Author

Simone A. Fietz, Johannes Seeger, and Friedrich Roes

Subjects

0403 veterinary science, 03 medical and health sciences, 0302 clinical medicine, 040301 veterinary sciences, 04 agricultural and veterinary sciences, 030204 cardiovascular system & hematology

Abstract

Tastbare Veränderungen in der Haut- und Unterhaut sind ein häufiger Grund für einen Besuch in der Kleintierpraxis. Leider wird ihre potenzielle Bösartigkeit häufig unterschätzt, sodass eine Therapie zu einem späteren Zeitpunkt nicht mehr zur Heilung des Patienten führt. Aus klinischer Sicht ist eine minimalinvasive Schnelldiagnostik sinnvoll, die dem Praktiker eine wichtige Entscheidungshilfe für das weitere Vorgehen bietet.

Published

2016

23. Neural Progenitors in the Developing Neocortex of the Northern Tree Shrew (

Author

Sebastian, Römer, Hannah, Bender, Wolfgang, Knabe, Elke, Zimmermann, Rudolf, Rübsamen, Johannes, Seeger, and Simone A, Fietz

Subjects

Neuroanatomy, nervous system, neural progenitor, Tupaia belangeri, basal radial glia, neocortex development, tree shrew, Original Research

Abstract

The neocortex is the most complex part of the mammalian brain and as such it has undergone tremendous expansion during evolution, especially in primates. The majority of neocortical neurons originate from distinct neural stem and progenitor cells (NPCs) located in the ventricular and subventricular zone (SVZ). Previous studies revealed that the SVZ thickness as well as the abundance and distribution of NPCs, especially that of basal radial glia (bRG), differ markedly between the lissencephalic rodent and gyrencephalic primate neocortex. The northern tree shrew (Tupaia belangeri) is a rat-sized mammal with a high brain to body mass ratio, which stands phylogenetically mid-way between rodents and primates. Our study provides – for the first time – detailed data on the presence, abundance and distribution of bRG and other distinct NPCs in the developing neocortex of the northern tree shrew (Tupaia belangeri). We show that the developing tree shrew neocortex is characterized by an expanded SVZ, a high abundance of Pax6+ NPCs in the SVZ, and a relatively high percentage of bRG at peak of upper-layer neurogenesis. We further demonstrate that key features of tree shrew neocortex development, e.g., the presence, abundance and distribution of distinct NPCs, are closer related to those of gyrencephalic primates than to those of ferret and lissencephalic rodents. Together, our study provides novel insight into the evolution of bRG and other distinct NPCs in the neocortex development of Euarchontoglires and introduces the tree shrew as a potential novel model organism in the area of human brain development and developmental disorders.

Published

2017

24. Transcriptomes of germinal zones of human and mouse fetal neocortex suggest a role of extracellular matrix in progenitor self-renewal

Author

Holger Brandl, Simone A Fietz, Robert Nitsch, Robert Lachmann, Martin Kircher, Ian Henry, Naharajan Lakshmanaperumal, Axel Riehn, Johannes Vogt, Wolfgang Distler, Wieland B. Huttner, Svante Pääbo, Roland Schröder, Nikolay Samusik, and Wolfgang Enard

Subjects

Integrin, Subventricular zone, Neocortex, Laser Capture Microdissection, Biology, Polymerase Chain Reaction, Extracellular matrix, Mice, 03 medical and health sciences, Fetus, 0302 clinical medicine, Cell Adhesion, medicine, Animals, Cluster Analysis, Humans, RNA, Messenger, Progenitor cell, DNA Primers, 030304 developmental biology, Progenitor, Analysis of Variance, Extracellular Matrix Proteins, Principal Component Analysis, 0303 health sciences, Multidisciplinary, Sequence Analysis, RNA, Gene Expression Profiling, Stem Cells, Gene Expression Regulation, Developmental, Biological Sciences, Biological Evolution, Immunohistochemistry, Embryonic stem cell, Molecular biology, Cell biology, medicine.anatomical_structure, MRNA Sequencing, nervous system, biology.protein, Transcriptome, 030217 neurology & neurosurgery

Abstract

The expansion of the neocortex during mammalian brain evolution results primarily from an increase in neural progenitor cell divisions in its two principal germinal zones during development, the ventricular zone (VZ) and the subventricular zone (SVZ). Using mRNA sequencing, we analyzed the transcriptomes of fetal human and embryonic mouse VZ, SVZ, and cortical plate. In mouse, the transcriptome of the SVZ was more similar to that of the cortical plate than that of the VZ, whereas in human the opposite was the case, with the inner and outer SVZ being highly related to each other despite their cytoarchitectonic differences. We describe sets of genes that are up- or down-regulated in each germinal zone. These data suggest that cell adhesion and cell–extracellular matrix interactions promote the proliferation and self-renewal of neural progenitors in the developing human neocortex. Notably, relevant extracellular matrix-associated genes include distinct sets of collagens, laminins, proteoglycans, and integrins, along with specific sets of growth factors and morphogens. Our data establish a basis for identifying novel cell-type markers and open up avenues to unravel the molecular basis of neocortex expansion during evolution.

Published

2012

25. P 76 Maturation deficits in striatal interneurons in a phenotypic model of dystonia

Author

Christoph Bode, Angelika Richter, Franziska Richter, Anne Bauer, Simone A. Fietz, Christine Spröte, Jean-Marc Fritschy, and T. Brigadski

Subjects

Dystonia, biology, GABAA receptor, Glutamate decarboxylase, Striatum, medicine.disease, Sensory Systems, nervous system, Neurology, Disinhibition, Physiology (medical), medicine, biology.protein, GABAergic, Premovement neuronal activity, Neurology (clinical), medicine.symptom, Psychology, Neuroscience, Parvalbumin

Abstract

GABAergic disinhibition has been suggested to play a critical role in the pathophysiology of several basal ganglia disorders, including dystonia, a common incurable movement disorder characterized by involuntary muscle contractions resulting in abnormal movements and/or postures. Previous studies have shown a deficit of striatal GABAergic interneurons (IN) in the dtsz mutant hamster, one of the few phenotypic animal models of dystonia. The resulting lack of inhibition of striatal projection neurons is likely involved in development of dystonic episodes which is corroborated by antidystonic effects of GABA potentiating drugs in the animal model and in dystonia patients. However, mechanisms underlying this deficit in striatal IN are largely unknown. In the present study, we investigated the migration and maturation of striatal IN during postnatal development (18 days of age) and at age of highest severity of dystonia (33 days of age) in the dtsz hamster by immunohistochemistry and real time PCR. In line with previous findings, the density of GAD67 positive IN and the level of parvalbumin mRNA, a marker for fast spiking GABAergic IN, were lower in mutant hamsters than in controls. However, an unaltered density of Nkx2.1 labeled cells and Nkx2.1 mRNA level indicated that the migration of GABAergic IN into the striatum was not retarded. KCC2 cation/chloride transporter and cytosolic carboanhydrase VII mRNA expression, used as markers for maturation of striatal GABAergic signaling, as well as expression of BDNF were unaltered. However, we found a reduced number of IN expressing the alpha1 subunit of the GABAA-receptor (37.5%) in dtsz hamsters at an age of 33 days, but not after spontaneous remission of dystonia at an age of 90 days. Since IN shift expression from alpha2 to alpha1 subunits during postnatal maturation, this result together with a decreased parvalbumin mRNA expression suggest a delayed maturation of striatal GABAergic IN in this animal model, which might underlie abnormal neuronal activity and striatal plasticity. The potential link between alterations in GABAA receptor subunits and GABAergic disinhibition in dystonia deserves further attention in research on the pathophysiology and therapeutic targets.

Published

2017

26. Cortical progenitor expansion, self-renewal and neurogenesis—a polarized perspective

Author

Simone A Fietz and Wieland B. Huttner

Subjects

Cerebral Cortex, Neocortex, Neurogenesis, General Neuroscience, Cell Polarity, Biology, Basal (phylogenetics), medicine.anatomical_structure, Neural Stem Cells, Cell polarity, medicine, Animals, Humans, Progenitor cell, Process (anatomy), Neuroscience, Mitosis, Progenitor

Abstract

Neural stem and progenitor cells giving rise to neurons in developing mammalian neocortex fall into two principal classes with regard to location of mitosis-apical and basal, and into three principal classes in terms of cell polarity during mitosis-bipolar, monopolar, and nonpolar. Insight has been gained into how inheritance of polarized, apical and basal, cell constituents is related to symmetric versus asymmetric divisions of these progenitors, and how this inheritance is linked to their expansion, self-renewal, and neurogenesis. Retention and inheritance of the basal process emerge as key for self-renewal, notably for the monopolar progenitors of prospective gyrencephalic neocortex that undergo asymmetric mitoses at basal locations. The resulting expansion of the neocortex during evolution is proposed to be associated with an increased cone-shape of radial units.

Published

2011

27. OSVZ progenitors of human and ferret neocortex are epithelial-like and expand by integrin signaling

Author

Axel Riehn, Jennifer L. Fish, Denise Stenzel, Iva Kelava, Robert Nitsch, Johannes Vogt, Simone A Fietz, Michaela Wilsch-Bräuninger, Denis Corbeil, Wolfgang Distler, and Wieland B. Huttner

Subjects

Integrins, Integrin, Subventricular zone, Cell Count, Neocortex, In Vitro Techniques, Biology, Adherens junction, Species Specificity, medicine, Animals, Humans, Paired Box Transcription Factors, Stem Cell Niche, Progenitor cell, In Situ Hybridization, Progenitor, Centrosome, Stem Cells, General Neuroscience, Ferrets, Integrin beta3, Epithelial Cells, Immunohistochemistry, Microscopy, Electron, medicine.anatomical_structure, nervous system, Cerebral cortex, biology.protein, Basal lamina, Neuroglia, Neuroscience, Cell Division

Abstract

A major cause of the cerebral cortex expansion that occurred during evolution is the increase in subventricular zone (SVZ) progenitors. We found that progenitors in the outer SVZ (OSVZ) of developing human neocortex retain features of radial glia, in contrast to rodent SVZ progenitors, which have limited proliferation potential. Although delaminating from apical adherens junctions, OSVZ progenitors maintained a basal process contacting the basal lamina, a canonical epithelial property. OSVZ progenitor divisions resulted in asymmetric inheritance of their basal process. Notably, OSVZ progenitors are also found in the ferret, a gyrencephalic nonprimate. Functional disruption of integrins, expressed on the basal process of ferret OSVZ progenitors, markedly decreased the OSVZ progenitor population size, but not that of other, process-lacking SVZ progenitors, in slice cultures of ferret neocortex. Our findings suggest that maintenance of this epithelial property allows integrin-mediated, repeated asymmetric divisions of OSVZ progenitors, providing a basis for neocortical expansion.

Published

2010

28. Impaired cerebral cortex development in human fetuses with posterior brain abnormalities and diagnosed open neural tube defects at 11 – 13 weeks

Author

Robert Lachmann, Simone A Fietz, and Wieland B. Huttner

Subjects

Fetus, medicine.anatomical_structure, business.industry, Cerebral cortex, Maternity and Midwifery, Neural tube, medicine, Obstetrics and Gynecology, Anatomy, business

Published

2014

29. OC24.03: Impaired cerebral cortex development in human fetuses with posterior brain abnormalities and diagnosed open neural tube defects at 11-13 weeks

Author

Robert Lachmann, Wieland B. Huttner, and Simone A Fietz

Subjects

Fetus, medicine.anatomical_structure, Reproductive Medicine, Radiological and Ultrasound Technology, Cerebral cortex, business.industry, medicine, Neural tube, Obstetrics and Gynecology, Radiology, Nuclear Medicine and imaging, General Medicine, Anatomy, business

Published

2014

30. The Concentration of Salivary Extracellular Vesicles Is Related to Obesity.

Author

Röhrborn, Kristin, Krueger, Martin, Kalusa, Mirjam, Fietz, Simone A., Ewe, Alexander, Aigner, Achim, Stumvoll, Michael, Kovacs, Peter, Blüher, Matthias, Schamarek, Imke, and Rohde-Zimmermann, Kerstin

Abstract

Background and aims: Saliva is essential for the proper dilution and distribution of taste molecules on the tongue. It harbors extracellular vesicles (EVs), which mediate cell–cell communication. Changes in the composition of salivary EVs may arise under obese conditions and may potentially be involved in taste sensation and dysregulated eating behavior. Therefore, this study addresses the relationship between the size and concentration of salivary EVs and metabolic shifts in obesity or factors of taste sensation. Materials and methods: A total of 119 participants in the Obese Taste Bud (OTB) Study were included, who performed a standardized taste test, underwent taste bud density assessment, and were phenotypically characterized for anthropometrics, blood- and saliva adipokine levels, and various metabolic factors. Utilizing size exclusion chromatography followed by ultrafiltration, EVs were extracted from 2 mL of actively secreted saliva. EVs were characterized using nanoparticle tracking analyses, Western blot, and scanning transmission electron microscopy. Finally, group comparisons and bivariate correlation analyses were conducted. Results: Among the total cohort, the median size of salivary EVs was 190.05 nm, and the overall concentration ranged from 1.4 × 107 to 1.76 × 109 per mL of saliva. The size range and concentration of EVs per mL are negatively correlated (p = 0.0002, r = −0.264). Comparing lean participants (mean rank of 45.98) with those presenting obesity (mean rank of 34.46), a significant difference in the salivary EV content was observed (p = 0.029). Body weight, BMI, arm and calf circumferences, as well as the percentage of body fat were all negatively related to the concentration of EVs in all study participants (all p < 0.05, r > −0.2). No associations were found between the EV parameters and taste perception but serum alkaline phosphatase levels were negatively correlated (p = 0.007, r = −0.284) and adiponectin serum levels were positively correlated to the EV concentration (p = 0.036, r = 0.208). Conclusion: The current study provides evidence for the relation between salivary EVs and anthropometric as well as metabolic parameters of obesity. This can provide the basis for further research on the cargo of salivary EVs and how they may influence taste sensation, and may elucidate their potential connection to altered eating habits in obesity. [ABSTRACT FROM AUTHOR]

Published

2024

31. Ultrastructural changes in chronic inflammatory enteropathies--a comparison between dogs and humans.

Author

Fietz, Simone A., Kalusa, Mirjam, Jergens, Albert E., Sahoo, Dipak Kumar, Stewart, Tracey, and Heilmann, Romy M.

Subjects

INFLAMMATORY bowel diseases, DOG diseases, DOGS, MICROSCOPY

Abstract

Chronic inflammatory enteropathies (CIEs) are an important group of diseases in dogs and involve complex pathogenetic aspects. Endoscopy and histopathology are vital for documenting the disease but are less useful for subclassifying CIEs and predicting the response to treatment. However, healing of the mucosal disease process (deep remission) and ultrastructural evaluation of the mucosa have received little attention in canine CIE. Given that canine CIE shares many similarities with inflammatory bowel diseases (IBDs) in human patients--and presents a good spontaneous disease model for human IBD--this perspective article evaluates the literature on ultrastructural lesions in canine CIE and human IBD and offers future directions for the study of ultrastructural mucosal lesions in canine CIE. Such lesions might have a higher sensitivity of detection than structural changes revealed upon light microscopy and may even precede or remain after the resolution of the clinical signs and histologic lesions. [ABSTRACT FROM AUTHOR]

Published

2024

32. Evaluation of proline-rich antimicrobial peptides as potential lead structures for novel antimycotics against Cryptococcus neoformans.

Author

Brakel, Alexandra, Grochow, Thomas, Fritsche, Stefanie, Knappe, Daniel, Krizsan, Andor, Fietz, Simone A., Alber, Gottfried, Hoffmann, Ralf, and Müller, Uwe

Subjects

ANTIMICROBIAL peptides, CRYPTOCOCCUS neoformans, PROLINE, PEPTIDES, SCANNING electron microscopy

Abstract

Background: Cryptococcosis and cryptococcal meningitis, caused by Cryptococcus neoformans infections, lead to approximately 180,000 deaths per year, primarily in developing countries. Individuals with compromised immune systems, e.g., due to HIV infection (AIDS) or chemotherapy, are particularly vulnerable. Conventional treatment options are often limited and can cause severe side effects. Therefore, this study aimed to investigate the antifungal effect of insect-derived proline-rich antimicrobial peptides (PrAMPs) against C. neoformans. These peptides are known for their low toxicity and their high efficacy in murine infection models, making them a promising alternative for treatment. Results: A preliminary screening of the minimal inhibitory concentrations (MICs) of 20 AMPs, including the well-known PrAMPs Onc112, Api137, and Chex1Arg20 as well as the cathelicidin CRAMP against the C. neoformans strains 1841, H99, and KN99α revealed promising results, with MICs as low as 1.6 μmol/L. Subsequent investigations of selected peptides, determining their influence on fungal colonyforming units, confirmed their strong activity. The antifungal activity was affected by factors such as peptide net charge and sequence, with stronger effects at higher net charges probably due to better intracellular uptake confirmed by confocal laser scanning microscopy. Inactive scrambled peptides suggest a specific intracellular target, although scanning electron microscopy showed that PrAMPs also damaged the cell exterior for a low proportion of the cells. Possible pore formation could facilitate entry into the cytosol. [ABSTRACT FROM AUTHOR]

Published

2024

33. Fulminant Pneumonia Due to Reactivation of Latent Toxoplasmosis in a Cat—A Case Report.

Author

Fietz, Simone A., Grochow, Thomas, Schares, Gereon, Töpfer, Tanja, and Heilmann, Romy M.

Subjects

TOXOPLASMOSIS, CATS, PNEUMONIA, NEEDLE biopsy, HEMOLYTIC anemia, HEPATITIS B virus, FLEA control, TOXOPLASMA gondii

Abstract

Toxoplasma (T.) gondii is an obligate intracellular parasite with felids, including domestic cats, as definitive hosts. In immunocompetent individuals, T. gondii infection is usually asymptomatic. However, under immunosuppression, it may have severe pathological impacts, which often result from the reactivation of a chronic infection. In this case study, a 21-month-old female domestic shorthair cat—diagnosed with primary immune-mediated hemolytic anemia three months prior and treated with cyclosporine and prednisolone—presented with acute tachypnea, dyspnea, diarrhea, and anorexia. Thoracic radiography suggested severe pneumonia. Testing for Mycoplasma spp., Anaplasma spp., Ehrlichia spp., and lungworm infection was negative. Serology for T. gondii revealed seroconversion of IgG, but not of IgM, indicating previous exposure to T. gondii. The cat remained stable but tachypneic for three days, followed by an acute onset of dyspnea and clinical deterioration, after which euthanasia was elected. Numerous protozoa were present in a postmortem transtracheal bronchoalveolar lavage and fine-needle aspiration of the lung. Microsatellite typing classified the extracted DNA as T. gondii type II variant TgM-A. This case demonstrates that T. gondii reactivation, leading to fulminant pneumonia, can be a sequela of immunosuppressive treatment in cats and should, therefore, be considered as a differential diagnosis in immunosuppressed cats with acute-onset respiratory signs. Rapid diagnosis may prevent fatal consequences. [ABSTRACT FROM AUTHOR]

Published

2024

34. Reduced neural progenitor cell count and cortical neurogenesis in guinea pigs congenitally infected with Toxoplasma gondii.

Author

Grochow, Thomas, Beck, Britta, Rentería-Solís, Zaida, Schares, Gereon, Maksimov, Pavlo, Strube, Christina, Raqué, Lisa, Kacza, Johannes, Daugschies, Arwid, and Fietz, Simone A.

Subjects

NEURAL stem cells, DEVELOPMENTAL neurobiology, GUINEA pigs, PROGENITOR cells, FETAL brain, TOXOPLASMA gondii, NEUROGENESIS, CONGENITAL disorders

Abstract

Toxoplasma (T.) gondii is an obligate intracellular parasite with a worldwide distribution. Congenital infection can lead to severe pathological alterations in the brain. To examine the effects of toxoplasmosis in the fetal brain, pregnant guinea pigs are infected with T. gondii oocysts on gestation day 23 and dissected 10, 17 and 25 days afterwards. We show the neocortex to represent a target region of T. gondii and the parasite to infect neural progenitor cells (NPCs), neurons and astrocytes in the fetal brain. Importantly, we observe a significant reduction in neuron number at end-neurogenesis and find a marked reduction in NPC count, indicating that impaired neurogenesis underlies the neuronal decrease in infected fetuses. Moreover, we observe focal microglioses to be associated with T. gondii in the fetal brain. Our findings expand the understanding of the pathophysiology of congenital toxoplasmosis, especially contributing to the development of cortical malformations. An in vivo study in guinea pigs suggests that Toxoplasma gondii infects neurons, astroglia and neural stem cells (NPCs) in the fetal brain after its diaplacentar transmission leading to reduced numbers of NPCs and neurons, and microglia activation. [ABSTRACT FROM AUTHOR]

Published

2023

35. Neocortex neurogenesis and maturation in the African greater cane rat.

Author

Mustapha, Oluwaseun, Grochow, Thomas, Olopade, James, and Fietz, Simone A.

Subjects

PEARL millet, NEOCORTEX, NEUROGENESIS, NEURAL development, GUINEA pigs

Abstract

Background: Neocortex development has been extensively studied in altricial rodents such as mouse and rat. Identification of alternative animal models along the "altricial-precocial" spectrum in order to better model and understand neocortex development is warranted. The Greater cane rat (GCR, Thyronomys swinderianus) is an indigenous precocial African rodent. Although basic aspects of brain development in the GCR have been documented, detailed information on neocortex development including the occurrence and abundance of the distinct types of neural progenitor cells (NPCs) in the GCR are lacking. Methods: GCR embryos and fetuses were obtained from timed pregnant dams between gestation days 50–140 and their neocortex was analyzed by immunofluorescence staining using characteristic marker proteins for NPCs, neurons and glia cells. Data were compared with existing data on closely related precocial and altricial species, i.e. guinea pig and dwarf rabbit. Results: The primary sequence of neuro- and gliogenesis, and neuronal maturation is preserved in the prenatal GCR neocortex. We show that the GCR exhibits a relatively long period of cortical neurogenesis of 70 days. The subventricular zone becomes the major NPC pool during mid-end stages of neurogenesis with Pax6 + NPCs constituting the major basal progenitor subtype in the GCR neocortex. Whereas dendrite formation in the GCR cortical plate appears to initiate immediately after the onset of neurogenesis, major aspects of axon formation and maturation, and astrogenesis do not begin until mid-neurogenesis. Similar to the guinea pig, the GCR neocortex exhibits a high maturation status, containing neurons with well-developed dendrites and myelinated axons and astrocytes at birth, thus providing further evidence for the notion that a great proportion of neocortex growth and maturation in precocial mammals occurs before birth. Conclusions: Together, this work has deepened our understanding of neocortex development of the GCR, of the timing and the cellular differences that regulate brain growth and development within the altricial–precocial spectrum and its suitability as a research model for neurodevelopmental studies. The timelines of brain development provided by this study may serve as empirical reference data and foundation in future studies in order to model and better understand neurodevelopment and associated alterations. [ABSTRACT FROM AUTHOR]

Published

2023

36. Medical University of Vienna Researchers Provide New Study Findings on Science (Concerted transcriptional regulation of the morphogenesis of hypothalamic neurons by ONECUT3).

Subjects

CENTRAL nervous system, THYROTROPIN releasing factor, REPORTERS & reporting, NEURONAL differentiation, GENE regulatory networks

Abstract

Researchers at the Medical University of Vienna have conducted a study on the transcriptional regulation of hypothalamic neurons by ONECUT3. The research found that ONECUT3 plays a crucial role in the differentiation and morphogenesis of specific neurons in the hypothalamus. This study utilized single-cell RNA-seq and gain-of-function experiments to demonstrate the impact of ONECUT3 on neuronal polarization and morphogenesis. The findings suggest that ONECUT3 is essential for the development of distinct neuronal subtypes in the hypothalamus, highlighting its importance in neurodevelopment. [Extracted from the article]

Published

2024

37. Abstracts.

Subjects

ANATOMY, SEXUAL cycle, BIOLOGICAL specimens, MEDICAL sciences, PHYSIOLOGY, ISLANDS of Langerhans, INNER ear, BLENDED learning

Published

2022

38. Helmholtz Center Munich Researcher Publishes Findings in Obesity (The Concentration of Salivary Extracellular Vesicles Is Related to Obesity).

Subjects

SCANNING transmission electron microscopy, NUTRITION disorders, DIETARY patterns, TASTE testing of food, GEL permeation chromatography

Abstract

New research conducted at the Helmholtz Center Munich in Leipzig, Germany, explores the relationship between salivary extracellular vesicles (EVs) and obesity. The study found that changes in the composition of salivary EVs may occur in obese individuals and could potentially be linked to taste sensation and dysregulated eating behavior. The researchers extracted EVs from saliva samples of 119 participants and observed a significant difference in the salivary EV content between lean individuals and those with obesity. The study provides evidence for the connection between salivary EVs and anthropometric and metabolic parameters of obesity, suggesting further research on their influence on taste sensation and eating habits. [Extracted from the article]

Published

2024

39. Establishment and validation of a guinea pig model for human congenital toxoplasmosis.

Author

Grochow, Thomas, Beck, Britta, Rentería-Solís, Zaida, Schares, Gereon, Maksimov, Pavlo, Strube, Christina, Seeger, Johannes, Raqué, Lisa, Ulrich, Reiner, Daugschies, Arwid, and Fietz, Simone A.

Subjects

GUINEA pigs, TOXOPLASMOSIS, SURVIVAL rate, SYMPTOMS, INTRACELLULAR pathogens, MATERNALLY acquired immunity

Abstract

Background: Toxoplasma gondii is an obligate intracellular parasite with a worldwide distribution. Congenital infection in humans and animals may lead to severe symptoms in the offspring, especially in the brain. A suitable animal model for human congenital toxoplasmosis is currently lacking. The aim of this study is to establish and validate the guinea pig as a model for human congenital toxoplasmosis by investigating the impact of the T. gondii infection dose, the duration of infection and the gestational stage at infection on the seroconversion, survival rate of dams, fate of the offspring, T. gondii DNA loads in various offspring tissues and organs and the integrity of the offspring brain. Methods: Pregnant guinea pigs were infected with three different doses (10, 100, 500 oocysts) of T. gondii strain ME49 at three different time points during gestation (15, 30, 48 days post-conception). Serum of dams was tested for the presence of T. gondii antibodies using immunoblotting. T. gondii DNA levels in the dam and offspring were determined by qPCR. Offspring brains were examined histologically. Results: We found the survival rate of dams and fate of the offspring to be highly dependent on the T. gondii infection dose with an inoculation of 500 oocysts ending lethally for all respective offspring. Moreover, both parameters differ depending on the gestational stage at infection with infection in the first and third trimester of gestation resulting in a high offspring mortality rate. The duration of infection was found to substantially impact the seroconversion rate of dams with the probability of seroconversion exceeding 50% after day 20 post-infection. Furthermore, the infection duration of dams influenced the T. gondii DNA loads in the offspring and the integrity of offspring brain. Highest DNA levels were found in the offspring brain of dams infected for ≥ 34 days. Conclusion: This study contributes to establishing the guinea pig as a suitable model for human congenital toxoplasmosis and thus lays the foundation for using the guinea pig as a suitable animal model to study scientific questions of high topicality and clinical significance, which address the pathogenesis, diagnosis, therapy and prognosis of congenital toxoplasmosis. [ABSTRACT FROM AUTHOR]

Published

2021

40. Developmental Differences in Neocortex Neurogenesis and Maturation Between the Altricial Dwarf Rabbit and Precocial Guinea Pig.

Author

Kalusa, Mirjam, Heinrich, Maren D., Sauerland, Christine, Morawski, Markus, and Fietz, Simone A.

Subjects

GUINEA pigs, NEOCORTEX, NEURAL development, DEVELOPMENTAL neurobiology, RABBITS, NEURONAL differentiation

Abstract

Mammals are born on a precocial–altricial continuum. Altricial species produce helpless neonates with closed distant organs incapable of locomotion, whereas precocial species give birth to well-developed young that possess sophisticated sensory and locomotor capabilities. Previous studies suggest that distinct patterns of cortex development differ between precocial and altricial species. This study compares patterns of neocortex neurogenesis and maturation in the precocial guinea pig and altricial dwarf rabbit, both belonging to the taxon of Glires. We show that the principal order of neurodevelopmental events is preserved in the neocortex of both species. Moreover, we show that neurogenesis starts at a later postconceptional day and takes longer in absolute gestational days in the precocial than the altricial neocortex. Intriguingly, our data indicate that the dwarf rabbit neocortex contains a higher abundance of highly proliferative basal progenitors than the guinea pig, which might underlie its higher encephalization quotient, demonstrating that the amount of neuron production is determined by complex regulation of multiple factors. Furthermore, we show that the guinea pig neocortex exhibits a higher maturation status at birth, thus providing evidence for the notions that precocial species might have acquired the morphological machinery required to attain their high functional state at birth and that brain expansion in the precocial newborn is mainly due to prenatally initiating processes of gliogenesis and neuron differentiation instead of increased neurogenesis. Together, this study reveals important insights into the timing and cellular differences that regulate mammalian brain growth and maturation and provides a better understanding of the evolution of mammalian altriciality and presociality. [ABSTRACT FROM AUTHOR]

Published

2021

41. Signs of Reduced Basal Progenitor Levels and Cortical Neurogenesis in Human Fetuses with Open Spina Bifida at 11-15 Weeks of Gestation.

Author

Fietz, Simone A., Namba, Takashi, Kirsten, Holger, Huttner, Wieland B., and Lachmann, Robert

Subjects

FIRST trimester of pregnancy, DEVELOPMENTAL neurobiology, SPINA bifida, PREGNANCY, FETUS, NEOCORTEX, FETAL anatomy

Abstract

Open spina bifida (OSB) is one of the most prevalent congenital malformations of the CNS that often leads to severe disabilities. Previous studies reported the volume and thickness of the neocortex to be altered in children and adolescents diagnosed with OSB. Until now, the onset and the underlying cause of the atypical neocortex organization in OSB patients remain largely unknown. To examine the effects of OSB on fetal neocortex development, we analyzed human fetuses of both sexes diagnosed with OSB between 11 and 15 weeks of gestation by immunofluorescence for established neuronal and neural progenitor marker proteins and compared the results with healthy controls of the same, or very similar, gestational age. Our data indicate that neocortex development in OSB fetuses is altered as early as 11 weeks of gestation. We observed a marked reduction in the radial thickness of the OSB neocortex, which appears to be attributable to a massive decrease in the number of deep- and upper-layer neurons per field, and found a marked reduction in the number of basal progenitors (BPs) per field in the OSB neocortex, consistent with an impairment of cortical neurogenesis underlying the neuronal decrease in OSB fetuses. Moreover, our data suggest that the decrease in BP number in the OSB neocortex may be associated with BPs spending a lesser proportion of their cell cycle in M-phase. T ogether, our findings expand our understanding of the pathophysiology of OSB and support the need for an early fetal therapy (i.e., in the first trimester of pregnancy). [ABSTRACT FROM AUTHOR]

Published

2020

42. Abstracts.

Subjects

SPERMATOGENESIS, MEDICAL sciences, GONADS, CALCITRIOL, SCIENTIFIC communication, ANATOMY, VETERINARY anatomy, DEVELOPMENTAL biology

Published

2019

43. Developmental horizons in the pre‐natal development of the Greater cane rat (Thryonomys swinderianus).

Author

Mustapha, Oluwaseun A., Olude, Matthew A., Ezekiel, Samuel, Seeger, Johannes, Fietz, Simone A., and Olopade, James O.

Subjects

DEVELOPMENTAL biology, WILDLIFE conservation, GUINEA pigs, RATS, DOMESTICATION of animals, TOOTH eruption, CHROMATOPHORES, HUMAN skin color

Abstract

The Greater cane rat (GCR, Thyronomys swinderianus) is a precocial rodent predominantly found within Africa. Economic and scientific interests have led to several research efforts towards the domestication and better understanding of the biology and development of this rodent. Despite these efforts, information on the pre‐natal development of this rodent is currently lacking. This study characterises distinct developmental milestones including skin pigmentation, emergence and distributions of hairs, calvarium consistency, teeth eruption, development of appendages, sensory organs and external genitalia in the pre‐natal GCR and assesses quantitative body parameters, that is body weight, body and crown–rump lengths across its entire gestation length (gestation days [GDs] 10‐140). Using these external features, we provide baseline reference ontogenetic scales for GCR embryos and fetuses, employable for stage, age and sex estimation of the pre‐natal GCR in future studies. We observed that the first evidence of an embryo was not seen before the end of the first trimester (GD50) and that the late second trimester (GD80‐GD100) marks the transition from embryogenesis to fetogenesis in the GCR. As both events occur at a much later developmental time point when compared to precocial non‐rodents including human, sheep and pig and slightly later when compared to other precocial rodents such as guinea pig, our data provide first indication that the pre‐natal GCR development might be associated with a reproductive delay. Together, this study expands our knowledge of the development and biology of the GCR, which will improve reproductive and breeding management, and native species conservation of this hystricomorph mammal. [ABSTRACT FROM AUTHOR]

Published

2019

44. Haut- und Unterhauttumoren – Teil 3: Wichtige ektodermale Tumoren bei Hund und Katze.

Author

Roes, Friedrich, Fietz, Simone A., and Seeger, Johannes

Published

2019

45. Data on Antibiotics Reported by Researchers at University of Leipzig (Evaluation of proline-rich antimicrobial peptides as potential lead structures for novel antimycotics against Cryptococcus neoformans).

Subjects

PEPTIDE antibiotics, ANTIMICROBIAL peptides, ANTIFUNGAL agents, CRYPTOCOCCUS neoformans, RESEARCH personnel, PROLINE

Abstract

A study conducted by researchers at the University of Leipzig in Germany has explored the potential use of proline-rich antimicrobial peptides (PrAMPs) as a treatment for Cryptococcus neoformans infections, which cause cryptococcosis and cryptococcal meningitis. These infections are responsible for approximately 180,000 deaths each year, primarily in developing countries. The study found that certain PrAMPs demonstrated strong antifungal activity against C. neoformans, with low toxicity and high efficacy in murine infection models. The researchers suggest that PrAMPs could be a promising alternative treatment option, although further research is needed to understand their specific mechanisms of action. [Extracted from the article]

Published

2024

46. Abstracts.

Subjects

SCANNING electron microscopy, LARVAL microbiology, VETERINARY medicine education, HEMORRHAGIC fever, SEROTONIN

Published

2018

47. Neural Progenitors in the Developing Neocortex of the Northern Tree Shrew (Tupaia belangeri) Show a Closer Relationship to Gyrencephalic Primates Than to Lissencephalic Rodents.

Author

Römer, Sebastian, Bender, Hannah, Knabe, Wolfgang, Zimmermann, Elke, Rübsamen, Rudolf, Seeger, Johannes, and Fietz, Simone A.

Subjects

NEOCORTEX, NORTHERN tree shrew, PRIMATES, NEURAL development, BRAIN physiology

Abstract

The neocortex is the most complex part of the mammalian brain and as such it has undergone tremendous expansion during evolution, especially in primates. The majority of neocortical neurons originate from distinct neural stem and progenitor cells (NPCs) located in the ventricular and subventricular zone (SVZ). Previous studies revealed that the SVZ thickness as well as the abundance and distribution of NPCs, especially that of basal radial glia (bRG), differ markedly between the lissencephalic rodent and gyrencephalic primate neocortex. The northern tree shrew (Tupaia belangeri) is a ratsized mammal with a high brain to body mass ratio, which stands phylogenetically mid-way between rodents and primates. Our study provides -- for the first time -- detailed data on the presence, abundance and distribution of bRG and other distinct NPCs in the developing neocortex of the northern tree shrew (Tupaia belangeri). We show that the developing tree shrew neocortex is characterized by an expanded SVZ, a high abundance of Pax6+ NPCs in the SVZ, and a relatively high percentage of bRG at peak of upper-layer neurogenesis. We further demonstrate that key features of tree shrew neocortex development, e.g., the presence, abundance and distribution of distinct NPCs, are closer related to those of gyrencephalic primates than to those of ferret and lissencephalic rodents. Together, our study provides novel insight into the evolution of bRG and other distinct NPCs in the neocortex development of Euarchontoglires and introduces the tree shrew as a potential novel model organism in the area of human brain development and developmental disorders. [ABSTRACT FROM AUTHOR]

Published

2018

48. Development of Deep and Upper Neuronal Layers in the Domestic Cat, Sheep and Pig Neocortex.

Author

Glatzle, M., Hoops, M., Kauffold, J., Seeger, J., and Fietz, S. A.

Subjects

NEURON development, NEOCORTEX, DEVELOPMENTAL neurobiology, NEUROLOGICAL research, PREGNANCY in mammals, SHEEP, SWINE, MAMMALS

Abstract

The neocortex plays a key role in cognition, volitional motor control and sensory perception and has undergone tremendous expansion during evolution. The mature neocortex consists of radially aligned neurons that are arranged in six layers. Layers II- VI are often split into two groups: deep and upper layers, both building up the so-called cortical plate during embryonic and foetal development. So far cortical neurogenesis, including the generation of deep and upper layers, has mostly been studied in laboratory rodents and primates. However, precise data for most companion animals are lacking. This study determined the main period of neurogenesis, specifically the timing of deep and upper layer generation, in the developing domestic cat, pig and sheep neocortex using immunohistochemistry for specific neuronal markers, that is Tbr1 and Brn2. We found that the general sequence of neural events is preserved among cat, pig, sheep and other mammalian species. However, we observed differences in the timing of the overall cortical neurogenic period and occurrence of distinct neural events when these three species were compared. Moreover, our data provide further evidence that the cortical neurogenic period and gestation length might be tightly related. Together, these data expand our current understanding of neocortex development and are important for future studies investigating neocortex development and expansion especially in companion animals. [ABSTRACT FROM AUTHOR]

Published

2017

49. Haut- und Unterhauttumoren - Wichtige mesenchymale Tumoren bei Hund und Katze.

Author

Roes, Friedrich, Fietz, Simone A., and Seeger, Johannes

Published

2017

50. Proceedings of the 31st Conference of the European Association of Veterinary Anatomists Vienna, Austria 27-30 July 2016.

Subjects

VETERINARIANS, VETERINARY medicine education, ANIMAL morphology, SKIN tests, CONFERENCES & conventions

Published

2016