Search

Your search keyword '"Rathkolb, B."' showing total 225 results
Start Over Author "Rathkolb, B."
225 results on '"Rathkolb, B."'

4. Dietary digestible carbohydrates are associated with higher prevalence of asthma in humans and with aggravated lung allergic inflammation in mice

Author

Musiol, S., Harris, C.P., Karlina, R., Gostner, J.M., Rathkolb, B., Schnautz, B., Schneider, E., Mair, L., Elorduy Vergara, E., Flexeder, C., Koletzko, S., Bauer, C.-P., Schikowski, T., Berdel, D., von Berg, A., Herberth, Gunda, Rozman, J., Hrabe de Angelis, M., Standl, M., Schmidt-Weber, C.B.., Ussar, S., Alessandrini, F., Musiol, S., Harris, C.P., Karlina, R., Gostner, J.M., Rathkolb, B., Schnautz, B., Schneider, E., Mair, L., Elorduy Vergara, E., Flexeder, C., Koletzko, S., Bauer, C.-P., Schikowski, T., Berdel, D., von Berg, A., Herberth, Gunda, Rozman, J., Hrabe de Angelis, M., Standl, M., Schmidt-Weber, C.B.., Ussar, S., and Alessandrini, F.

Abstract

Background Dietary carbohydrates and fats are intrinsically correlated within the habitual diet. We aimed to disentangle the associations of starch and sucrose from those of fat, in relation to allergic sensitization, asthma and rhinoconjuctivitis prevalence in humans, and to investigate underlying mechanisms using murine models. Methods Epidemiological data from participants of two German birth cohorts (age 15) were used in logistic regression analyses testing cross-sectional associations of starch and sucrose (and their main dietary sources) with aeroallergen sensitization, asthma and rhinoconjunctivitis, adjusting for correlated fats (saturated, monounsaturated, omega-6 and omega-3 polyunsaturated) and other covariates. For mechanistic insights, murine models of aeroallergen-induced allergic airway inflammation (AAI) fed with a low-fat-high-sucrose or -high-starch versus a high-fat diet were used to characterize and quantify disease development. Metabolic and physiologic parameters were used to track outcomes of dietary interventions and cellular and molecular responses to monitor the development of AAI. Oxidative stress biomarkers were measured in murine sera or lung homogenates. Results We demonstrate a direct association of dietary sucrose with asthma prevalence in males, while starch was associated with higher asthma prevalence in females. In mice, high-carbohydrate feeding, despite scant metabolic effects, aggravated AAI compared to high-fat in both sexes, as displayed by humoral response, mucus hypersecretion, lung inflammatory cell infiltration and TH2-TH17 profiles. Compared to high-fat, high-carbohydrate intake was associated with increased pulmonary oxidative stress, signals of metabolic switch to glycolysis and decreased systemic anti-oxidative capacity. Conclusion High consumption of digestible carbohydrates is associated with increased prevalence of asthma in humans and aggravated lung allergic inflammation in mice, involving oxidative stress-related

Published
2022

5. New C3H KitN824K/WT cancer mouse model develops late-onset malignant mammary tumors with high penetrance

Author

Klein-Rodewald, T., Micklich, K., Sanz-Moreno, A., Tost, M., Calzada-Wack, J., Adler, T., Klaften, M., Sabrautzki, S., Aigner, B., Kraiger, M.J., Gailus-Durner, V., Fuchs, H., German Mouse Clinic Consortium (Aguilar-Pimentel, J.A., Becker, L., Garrett, L., Hölter, S.M., Prehn, C., Rácz, I., Rozman, J., Puk, O., Schrewe, A., Adamski, J., Esposito, I., Wurst, W., Stöger, C.), Gründer, A., Pahl, H., Wolf, E., Hrabě de Angelis, M., and Rathkolb, B.

Subjects
Multidisciplinary
Abstract

Gastro-intestinal stromal tumors and acute myeloid leukemia induced by activating stem cell factor receptor tyrosine kinase (KIT) mutations are highly malignant. Less clear is the role of KIT mutations in the context of breast cancer. Treatment success of KIT-induced cancers is still unsatisfactory because of primary or secondary resistance to therapy. Mouse models offer essential platforms for studies on molecular disease mechanisms in basic cancer research. In the course of the Munich N-ethyl-N-nitrosourea (ENU) mutagenesis program a mouse line with inherited polycythemia was established. It carries a base-pair exchange in the Kit gene leading to an amino acid exchange at position 824 in the activation loop of KIT. This KIT variant corresponds to the N822K mutation found in human cancers, which is associated with imatinib-resistance. C3H KitN824K/WT mice develop hyperplasia of interstitial cells of Cajal and retention of ingesta in the cecum. In contrast to previous Kit-mutant models, we observe a benign course of gastrointestinal pathology associated with prolonged survival. Female mutants develop mammary carcinomas at late onset and subsequent lung metastasis. The disease model complements existing oncology research platforms. It allows for addressing the role of KIT mutations in breast cancer and identifying genetic and environmental modifiers of disease progression.

Published
2022

6. Phenotypic and pathomorphological characteristics of a novel mutant mouse model for maturity-onset diabetes of the young type 2 (MODY 2)

Author

van Burck, L., Blutke, A., Kautz, S., Rathkolb, B., Klaften, M., Wagner, S., Kemter, E., de Angelis, M. Hrabe, Wolf, E., Aigner, B., Wanke, R., and Herbach, N.

Subjects
Gene mutations -- Health aspects, Gene mutations -- Research, Pancreatic beta cells -- Physiological aspects, Pancreatic beta cells -- Research, Type 2 diabetes -- Risk factors, Type 2 diabetes -- Genetic aspects, Type 2 diabetes -- Research, Biological sciences
Abstract

Several mutant mouse models for human diseases such as diabetes mellitus have been generated in the large-scale Munich ENU (N-ethyl-N-nitrosourea) mouse mutagenesis project. The aim of this study was to identify the causal mutation of one of these strains and to characterize the resulting diabetic phenotype. Mutants exhibit a T to G transversion mutation at nt 629 in the glucokinase (Gck) gene, leading to an amino acid exchange from methionine to arginine at position 210. Adult Munich [Gck.sup.M210R] mutant mice demonstrated a significant reduction of hepatic glucokinase enzyme activity but equal glucokinase mRNA and protein abundances. While homozygous mutant mice exhibited growth retardation and died soon after birth in consequence of severe hyperglycemia, heterozygous mutant mice displayed only slightly elevated blood glucose levels, present from birth, with development of disturbed glucose tolerance and glucose-induced insulin secretion. Additionally, insulin sensitivity and fasting serum insulin levels were slightly reduced in male mutant mice from an age of 90 days onward. While [beta]-cell mass was unaltered in neonate heterozygous and homozygous mutant mice, the total islet and [beta]-cell volumes and the total volume of isolated [beta]-cells were significantly decreased in 210-day-old male, but not female heterozygous mutant mice despite undetectable apoptosis. These findings indicate that reduced total islet and [beta]-cell volumes of male mutants might emerge from disturbed postnatal islet neogenesis. Considering the lack of knowledge about the pathomorphology of maturity-onset diabetes of the young type 2 (MODY 2), this glucokinase mutant model of reduced total islet and total [beta]-cell volume provides the opportunity to elucidate the impact of a defective glucokinase on development and maintenance of [beta]-cell mass and its relevance in MODY 2 patients. glucokinase; [beta]-cell; pancreas; Munich ENU mouse mutagenesis project doi:10.1152/ajpendo.00465.2009.

Published
2010

8. Phosphorylation control of p53 DNA binding cooperativity balances tumorigensis and aging

Author

Timofeev, O., Koch, L., Niederau, C., Tscherne, A., Schneikert, J., Klimovich, M., Elmshäuser, S., Zeitlinger, M., Mernberger, M., Nist, A., Osterburg, C., Dötsch, V., Hrabě de Angelis, M., Stiewe, T., German Mouse Clinic Consortium (Aguilar-Pimentel, J.A., Schmidt-Weber, C.B., Becker, L., Klopstock, T., Cho, Y.-L., Spielmann, N., Amarie, O.V., Garrett, L., Hölter, S.M., Wurst, W., Calzada-Wack, J., Sanz-Moreno, A., Klein-Rodewald, T., Rathkolb, B., Wolf, E., Östereicher, M.A., Miller, G., Maier, H., Stöger, C., Leuchtenberger, S., Gailus-Durner, V., and Fuchs, H.)

Subjects
0301 basic medicine, Aging, Cancer Research, Carcinogenesis, DNA damage, Longevity, medicine.disease_cause, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Neoplasms, medicine, Animals, Phosphorylation, Transcription factor, Chemistry, Wild type, DNA, Cell biology, Haematopoiesis, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Tumor Suppressor Protein p53, Stem cell, DNA Damage
Abstract

Posttranslational modifications are essential for regulating the transcription factor p53, which binds DNA in a highly cooperative manner to control expression of a plethora of tumor-suppressive programs. Here we show at the biochemical, cellular, and organismal level that the cooperative nature of DNA binding is reduced by phosphorylation of highly conserved serine residues (human S183/S185, mouse S180) in the DNA-binding domain. To explore the role of this inhibitory phosphorylation in vivo, new phosphorylation-deficient p53-S180A knock-in mice were generated. Chromatin immunoprecipitation sequencing and RNA sequencing studies of S180A knock-in cells demonstrated enhanced DNA binding and increased target gene expression. In vivo, this translated into a tissue-specific vulnerability of the bone marrow that caused depletion of hematopoietic stem cells and impaired proper regeneration of hematopoiesis after DNA damage. Median lifespan was significantly reduced by 20% from 709 days in wild type to only 568 days in S180A littermates. Importantly, lifespan was reduced by a loss of general fitness and increased susceptibility to age-related diseases, not by increased cancer incidence as often seen in other p53-mutant mouse models. For example, S180A knock-in mice showed markedly reduced spontaneous tumorigenesis and increased resistance to Myc-driven lymphoma and Eml4–Alk-driven lung cancer. Preventing phosphorylation of S183/S185 in human cells boosted p53 activity and allowed tumor cells to be killed more efficiently. Together, our data identify p53 DNA-binding domain phosphorylation as a druggable mechanism that balances tumorigenesis and aging. Significance: These findings demonstrate that p53 tumor suppressor activity is reduced by DNA-binding domain phosphorylation to prevent aging and identify this phosphorylation as a potential target for cancer therapy. See related commentary by Horikawa, p. 5164

Published
2020

9. A comprehensive and comparative phenotypic analysis of the collaborative founder strains identifies new and known phenotypes

Author

Kollmus, F, Fuchs, H, Lengger, C, Haselimashhadi, H, Bogue, MA, Östereicher, MA, Horsch, M, Aguilar-Pimentel, JA, Amarie, OV, Becker, L, Beckers, J, Calzada-Wack, J, Garrett, L, Hans, W, Hölter, SM, Klein-Rodewald, T, Maier, H, Mayer-Kuckuk, P, Miller, G, Moreth, K, Neff, F, Rathkolb, B, Rácz, I, Rozman, J, Spielmann, T, Treise, I, Busch, D, Graw, J, Klopstock, T, Wolf, E, Wurst, W, Yildirim, AÖ, Mason, J, Torres, A, Mouse Phenome Database Team, Balling, Rudolf, Mehaan, T, Gailus-Durner, K, Hrabě de Angelis, M, Kollmus, F, Fuchs, H, Lengger, C, Haselimashhadi, H, Bogue, MA, Östereicher, MA, Horsch, M, Aguilar-Pimentel, JA, Amarie, OV, Becker, L, Beckers, J, Calzada-Wack, J, Garrett, L, Hans, W, Hölter, SM, Klein-Rodewald, T, Maier, H, Mayer-Kuckuk, P, Miller, G, Moreth, K, Neff, F, Rathkolb, B, Rácz, I, Rozman, J, Spielmann, T, Treise, I, Busch, D, Graw, J, Klopstock, T, Wolf, E, Wurst, W, Yildirim, AÖ, Mason, J, Torres, A, Mouse Phenome Database Team, Balling, Rudolf, Mehaan, T, Gailus-Durner, K, and Hrabě de Angelis, M

Published
2020

10. A mouse model for intellectual disability caused by mutations in the X-linked 2'‑O‑methyltransferase Ftsj1 gene

Author

Jensen, L.R., Garrett, L., Hölter, S.M., Rathkolb, B., Rácz, I., Adler, T., Prehn, C., Hans, W., Rozman, J., Becker, L., Aguilar-Pimentel, J.A., Puk, O., Moreth, K., Dopatka, M., Walther, D.J., Bohlen und Halbach, V. von, Rath, M., Delatycki, M., Bert, B., Fink, H., Blümlein, K., Ralser, M., Dijck, A. van, Kooy, F., Stark, Z., Müller, S., Scherthan, H., Gecz, J., Wurst, W., Wolf, E., Zimmer, A., Klingenspor, M., Graw, J., Klopstock, T., Busch, D., Adamski, J., Fuchs, H., Gailus-Durner, V., Hrabe de Angelis, M., Bohlen und Halbach, O. von, Ropers, H.-H., Kuss, A.W., and Publica

Abstract

Mutations in the X chromosomal tRNA 2'‑O‑methyltransferase FTSJ1 cause intellectual disability (ID). Although the gene is ubiquitously expressed affected individuals present no consistent clinical features beyond ID. In order to study the pathological mechanism involved in the aetiology of FTSJ1 deficiency-related cognitive impairment, we generated and characterized an Ftsj1 deficient mouse line based on the gene trapped stem cell line RRD143. Apart from an impaired learning capacity these mice presented with several statistically significantly altered features related to behaviour, pain sensing, bone and energy metabolism, the immune and the hormone system as well as gene expression. These findings show that Ftsj1 deficiency in mammals is not phenotypically restricted to the brain but affects various organ systems. Re-examination of ID patients with FTSJ1 mutations from two previously reported families showed that several features observed in the mouse model were recapitulated in some of the patients. Though the clinical spectrum related to Ftsj1 deficiency in mouse and man is variable, we suggest that an increased pain threshold may be more common in patients with FTSJ1 deficiency. Our findings demonstrate novel roles for Ftsj1 in maintaining proper cellular and tissue functions in a mammalian organism.

Published
2019

11. ADAMTS-7 Inhibits Re-endothelialization of Injured Arteries and Promotes Vascular Remodeling Through Cleavage of Thrombospondin-1

Author

Kessler, T., Zhang, L., Liu, Z., Yin, X., Huang, Y., Wang, Y., Fu, Y., Mayr, M., Ge, Q., Xu, Q., Zhu, Y., Wang, X., Schmidt, K.J., de Wit, C., Erdmann, J., Schunkert, H., Aherrahrou, Z, Kong, W., German Mouse Clinic Consortium (Adamski, J., Adler, T., Aguilar-Pimentel, J.A., Amarie, O.V., Becker, L., Beckers, J., Brachthäuser, L., Busch, D.H., Calzada-Wack, J., Eickelberg, O., Fuchs, H., Gailus-Durner, V., Garrett, L., Graw, J., Hans, W., Hölter, S.M., Horsch, M., Hrabě de Angelis, M., Janik, D., Klein-Rodewald, T., Klingenspor, M., Klopstock, T., Lengger, C., Leuchtenberger, S., Maier, H., Moreth, K., Neff, F., Ollert, M., Prehn, C., Puk, O., Rathkolb, B., Rozman, J., Steinkamp, R., Stöger, C., Stöger, T., Vernaleken, A., Yildirim, A.Ö., Wurst, W., and Zimprich, A.)

Subjects
Cartilage oligomeric matrix protein, Neointima, Thrombospondin, biology, Endothelium, Angiogenesis, business.industry, ADAMTS, Anatomy, Matrix metalloproteinase, medicine.anatomical_structure, Physiology (medical), Thrombospondin 1, biology.protein, Cancer research, medicine, Cardiology and Cardiovascular Medicine, business, Metalloproteinase, Reendothelialization, Vascular Remodeling
Abstract

Background— ADAMTS-7, a member of the disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS) family, was recently identified to be significantly associated genomewide with coronary artery disease. However, the mechanisms that link ADAMTS-7 and coronary artery disease risk remain elusive. We have previously demonstrated that ADAMTS-7 promotes vascular smooth muscle cell migration and postinjury neointima formation via degradation of a matrix protein cartilage oligomeric matrix protein. Because delayed endothelium repair renders neointima and atherosclerosis plaque formation after vessel injury, we examined whether ADAMTS-7 also inhibits re-endothelialization. Methods and Results— Wire injury of the carotid artery and Evans blue staining were performed in Adamts7 –/– and wild-type mice. Adamts-7 deficiency greatly promoted re-endothelialization at 3, 5, and 7 days after injury. Consequently, Adamts-7 deficiency substantially ameliorated neointima formation in mice at days 14 and 28 after injury in comparison with the wild type. In vitro studies further indicated that ADAMTS-7 inhibited both endothelial cell proliferation and migration. Surprisingly, cartilage oligomeric matrix protein deficiency did not affect endothelial cell proliferation/migration and re-endothelialization in mice. In a further examination of other potential vascular substrates of ADAMTS-7, a label-free liquid chromatography-tandem mass spectrometry secretome analysis revealed thrombospondin-1 as a potential ADAMTS-7 target. The subsequent studies showed that ADAMTS-7 was directly associated with thrombospondin-1 by its C terminus and degraded thrombospondin-1 in vivo and in vitro. The inhibitory effect of ADAMTS-7 on postinjury endothelium recovery was circumvented in Tsp1 –/– mice. Conclusions— Our study revealed a novel mechanism by which ADAMTS-7 affects neointima formation. Thus, ADAMTS-7 is a promising treatment target for postinjury vascular intima hyperplasia.

Published
2015
Full Text
View/download PDF

12. Streptozotocin-induced β-cell damage, high fat diet, and metformin administration regulate Hes3 expression in the adult mouse brain

Author

Nikolakopoulou, P. Chatzigeorgiou, A. Kourtzelis, I. Toutouna, L. Masjkur, J. Arps-Forker, C. Poser, S.W. Rozman, J. Rathkolb, B. Aguilar-Pimentel, J.A. Becker, L. Klopstock, T. Treise, I. Busch, D.H. Beckers, J. Moreth, K. Bekeredjian, R. Garrett, L. Hölter, S.M. Zimprich, A. Wurst, W. Brommage, R. Amarie, O. Graw, J. Calzada-Wack, J. Neff, F. Zimmer, A. Östereicher, M. Steinkamp, R. Lengger, C. Maier, H. Stoeger, C. Leuchtenberger, S. Wolf, E. Klingenspor, M. Ollert, M. Schmidt-Weber, C. Fuchs, H. Gailus-Durner, V. Hrabe de Angelis, M. Tsata, V. Monasor, L.S. Troullinaki, M. Witt, A. Anastasiou, V. Chrousos, G. Yi, C.-X. García-Cáceres, C. Tschöp, M.H. Bornstein, S.R. Androutsellis-Theotokis, A. German Mouse Clinic Consortium

Abstract

Diabetes mellitus is a group of disorders characterized by prolonged high levels of circulating blood glucose. Type 1 diabetes is caused by decreased insulin production in the pancreas whereas type 2 diabetes may develop due to obesity and lack of exercise; it begins with insulin resistance whereby cells fail to respond properly to insulin and it may also progress to decreased insulin levels. The brain is an important target for insulin, and there is great interest in understanding how diabetes affects the brain. In addition to the direct effects of insulin on the brain, diabetes may also impact the brain through modulation of the inflammatory system. Here we investigate how perturbation of circulating insulin levels affects the expression of Hes3, a transcription factor expressed in neural stem and progenitor cells that is involved in tissue regeneration. Our data show that streptozotocin-induced β-cell damage, high fat diet, as well as metformin, a common type 2 diabetes medication, regulate Hes3 levels in the brain. This work suggests that Hes3 is a valuable biomarker helping to monitor the state of endogenous neural stem and progenitor cells in the context of diabetes mellitus. © 2018, The Author(s).

Published
2018

13. A paternal methyl donor-rich diet altered cognitive and neural functions in offspring mice

Author

Ryan, D. P., Henzel, K. S., Pearson, B. L., Siwek, M. E., Papazoglou, A., Guo, L., Paesler, K., Yu, M., Mueller, R., Xie, K., Schroeder, S., Becker, L., Garrett, L., Hoelter, S. M., Neff, F., Racz, I., Rathkolb, B., Rozman, J., Ehninger, G., Klingenspor, M., Klopstock, T., Wolf, E., Wurst, W., Zimmer, A., Fuchs, H., Gailus-Durner, V., de Angelis, M. Hrabe, Sidiropoulou, K., Weiergraeber, M., Zhou, Y., Ehninger, D., Ryan, D. P., Henzel, K. S., Pearson, B. L., Siwek, M. E., Papazoglou, A., Guo, L., Paesler, K., Yu, M., Mueller, R., Xie, K., Schroeder, S., Becker, L., Garrett, L., Hoelter, S. M., Neff, F., Racz, I., Rathkolb, B., Rozman, J., Ehninger, G., Klingenspor, M., Klopstock, T., Wolf, E., Wurst, W., Zimmer, A., Fuchs, H., Gailus-Durner, V., de Angelis, M. Hrabe, Sidiropoulou, K., Weiergraeber, M., Zhou, Y., and Ehninger, D.

Abstract

Dietary intake of methyl donors, such as folic acid and methionine, shows considerable intra-individual variation in human populations. While it is recognized that maternal departures from the optimum of dietary methyl donor intake can increase the risk for mental health issues and neurological disorders in offspring, it has not been explored whether paternal dietary methyl donor intake influences behavioral and cognitive functions in the next generation. Here, we report that elevated paternal dietary methyl donor intake in a mouse model, transiently applied prior to mating, resulted in offspring animals (methyl donor-rich diet (MD) F1 mice) with deficits in hippocampus-dependent learning and memory, impaired hippocampal synaptic plasticity and reduced hippocampal theta oscillations. Gene expression analyses revealed altered expression of the methionine adenosyltransferase Mat2a and BK channel subunit Kcnmb2, which was associated with changes in Kcnmb2 promoter methylation in MD F1 mice. Hippocampal overexpression of Kcnmb2 in MD F1 mice ameliorated altered spatial learning and memory, supporting a role of this BK channel subunit in the MD F1 behavioral phenotype. Behavioral and gene expression changes did not extend into the F2 offspring generation. Together, our data indicate that paternal dietary factors influence cognitive and neural functions in the offspring generation.

Published
2018

15. Extensive phenotypic characterization of a new transgenic mouse reveals pleiotropic perturbations in physiology due to mesenchymal hGH minigene expression

Author

Kaklamanos, A. Rozman, J. Roulis, M. Karagianni, N. Armaka, M. Wu, M. Brachthäuser, L. Calzada-Wack, J. Horsch, M. Beckers, J. Rathkolb, B. Adler, T. Neff, F. Wolf, E. Gailus-Durner, V. Fuchs, H. De Angelis, M.H. Kollias, G.

Abstract

The human growth hormone (hGH) minigene used for transgene stabilization in mice has been recently identified to be locally expressed in the tissues where transgenes are active and associated with phenotypic alterations. Here we extend these findings by analyzing the effect of the hGH minigene in TgC6hp55 transgenic mice which express the human TNFR1 under the control of the mesenchymal cell-specific CollagenVI promoter. These mice displayed a fully penetrant phenotype characterized by growth enhancement accompanied by perturbations in metabolic, skeletal, histological and other physiological parameters. Notably, this phenotype was independent of TNF-TNFR1 signaling since the genetic ablation of either Tnf or Tradd did not rescue the phenotype. Further analyses showed that the hGH minigene was expressed in several tissues, also leading to increased hGH protein levels in the serum. Pharmacological blockade of GH signaling prevented the development of the phenotype. Our results indicate that the unplanned expression of the hGH minigene in CollagenVI expressing mesenchymal cells can lead through local and/or systemic mechanisms to enhanced somatic growth followed by a plethora of primary and/or secondary effects such as hyperphagia, hypermetabolism, disturbed glucose homeostasis, altered hematological parameters, increased bone formation and lipid accumulation in metabolically critical tissues. © 2017 The Author(s).

Published
2017

16. Clinical chemistry reference intervals for C57BL/6J, C57BL/6N, and C3HeB/FeJ mice (Mus musculus)

Author

Otto, G.P., Rathkolb, B., Oestereicher, M.A., Lengger, C., Moerth, C., Micklich, K., Fuchs, H., Gailus-Durner, V., Wolf, E., and Hrabě de Angelis, M.

Abstract

Although various mouse inbred strains are widely used to investigate disease mechanisms and to establish new therapeutic strategies, sex-specific reference intervals for laboratory diagnostic analytes that are generated from large numbers of animals have been unavailable. In this retrospective study, we screened data from more than 12,000 mice phenotyped in the German Mouse Clinic from January 2006 through June 2014 and selected animals with the genetic background of C57BL/6J, C57BL/6N, or C3HeB/FeJ. In addition, we distinguished between the C57BL/6NTac substrain and C57BL/6N mice received from other vendors. The corresponding data sets of electrolytes (sodium, potassium, calcium, chloride, inorganic phosphate), lipids (cholesterol, triglyceride), and enzyme activities (ALT, AST, ALP, α-amylase) and urea, albumin, and total protein levels were analyzed. Significant effects of age and sex on these analytes were identified, and strain- or substrain- and sex-specific reference intervals for 90- to 135-d-old mice were calculated. In addition, we include an overview of the literature that reports clinical chemistry values for wild-type mice of different strains. Our results support researchers interpreting clinical chemistry values from various mouse mutants and corresponding wild-type controls based on the examined strains and substrains.

Published
2016

17. The first Scube3 mutant mouse line with pleiotropic phenotypic alterations

Author

Fuchs, H., Sabrautzki, S., Przemeck, G.K.H., Leuchtenberger, S., Lorenz-Depiereux, B., Becker, L., Rathkolb, B., Horsch, M., Garrett, L., Östereicher, M.A., Hans, W., Abe, K., Sagawa, N., Rozman, J., Vargas Panesso, I.L., Sandholzer, M., Lisse, T.S., Adler, T., Aguilar-Pimentel, J.A., Calzada-Wack, J., Ehrhard, N., Elvert, R., Gau, C., Hölter, S.M., Micklich, K., Moreth, K., Prehn, C., Puk, O., Rácz, I., Stöger, C., Vernaleken, A., Michel, D., Diener, S., Wieland, T., Adamski, J., Bekeredjian, R., Lengger, C., Maier, H., Neff, F., Ollert, M., Stöger, T., Yildirim, A.Ö., Strom, T.M., Zimmer, A., Wolf, E., Wurst, W., Klopstock, T., Beckers, J., Gailus-Durner, V., and Hrabě de Angelis, M.

Subjects
SCUBE3, Paget disease of bone (PDB), mouse model, pleiotropy, systemic phenotype
Abstract

The vertebrate Scube (Signal peptide, CUB and EGF-like domain-containing protein) family consists of three independent members Scube1-3, which encode secreted cell surface-associated membrane glycoproteins. Limited information about the general function of this gene family is available, and their roles during adulthood. Here, we present the first Scube3 mutant mouse line (Scube3N294K/N294K) that clearly shows phenotypic alterations by carrying a missense mutation in exon 8, and thus contributes to understand SCUBE3 functions. We performed a detailed phenotypic characterization in the German Mouse Clinic (GMC). Scube3N294K/N294K mutants showed morphological abnormalities of the skeleton, alterations of parameters relevant for bone metabolism, changes in renal function and hearing impairments. These findings correlate with characteristics of the rare metabolic bone disorder Paget disease of bone (PDB), associated with the chromosomal region of human SCUBE3. In addition, alterations in energy metabolism, behavior and neurological functions were detected in Scube3N294K/N294K mice. The Scube3N294K/N294K mutant mouse line may serve as a new model for further studying the effect of impaired SCUBE3 gene function.

Published
2016

20. A paternal methyl donor-rich diet altered cognitive and neural functions in offspring mice

Author

Ryan, D P, primary, Henzel, K S, additional, Pearson, B L, additional, Siwek, M E, additional, Papazoglou, A, additional, Guo, L, additional, Paesler, K, additional, Yu, M, additional, Müller, R, additional, Xie, K, additional, Schröder, S, additional, Becker, L, additional, Garrett, L, additional, Hölter, S M, additional, Neff, F, additional, Rácz, I, additional, Rathkolb, B, additional, Rozman, J, additional, Ehninger, G, additional, Klingenspor, M, additional, Klopstock, T, additional, Wolf, E, additional, Wurst, W, additional, Zimmer, A, additional, Fuchs, H, additional, Gailus-Durner, V, additional, Hrabě de Angelis, M, additional, Sidiropoulou, K, additional, Weiergräber, M, additional, Zhou, Y, additional, and Ehninger, D, additional

Published
2017
Full Text
View/download PDF

21. Analysis of mammalian gene function through broad-based phenotypic screens across a consortium of mouse clinics

Author

Hrabe de Angelis, M. (M), Nicholson, G. (G), Selloum, M. (Mohammed), White, J. (J) K. (K), Morgan, H. (H), Ramirez-Solis, R. (R), Sorg, T. (Tania), Wells, S. (S), Fuchs, H. (H), Fray, M. (M), Adams, D. (D) J. (J), Adams, N. (N) C. (C), Adler, T. (T), Aguilar-Pimentel, A. (A), Ali-Hadji, D. (Dalila), Amann, G. (Grégory), Andre, P. (Philippe), Atkins, S. (S), Auburtin, A. (Aurélie), Ayadi, A. (Abdelkader), Becker, J. (Julien), Becker, L. (L), Bedu, E. (Elodie), Bekeredjian, R. (R), Birling, M. (Marie-Christine), Blake, A. (A), Bottomley, J. (J), Bowl, M. (M) R. (R), Brault, V. (Véronique), Busch, D. (D) H. (H), Bussell, J. (J) N. (N), Calzada-Wack, J. (J), Cater, H. (H), Champy, M. (Marie-France), Charles, P. (Philippe), Chevalier, C. (Claire), Chiani, F. (F), Codner, G. (G) F. (F), Combe, R. (R), Cox, R. (R), Dalloneau, E. (E), Dierich, A. (A), Di Fenza, A. (A), Doe, B. (B), Duchon, A. (Arnaud), Eickelberg, O. (O), Esapa, C. (C) T. (T), Fertak, L. (L) E. (E), Feigel, T. (T), Emelyanova, I. (I), Estabel, J. (J), Favor, J. (J), Flenniken, A. (A), Gambadoro, A. (A), Garrett, L. (L), Gates, H. (H), Gerdin, A. (A) K. (K), Gkoutos, G. (G), Greenaway, S. (S), Glasl, L. (L), Goetz, P. (P), Da Cruz, I. (I) G. (G), Gotz, A. (A), Graw, J. (J), Guimond, A. (Alain), Hans, W. (W), Hicks, G. (G), Holter, S. (S) M. (M), Hofler, H. (H), Hancock, J. (J) M. (M), Hoehndorf, R. (R), Hough, T. (T), Houghton, R. (R), Hurt, A. (A), Ivandic, B. (B), Jacobs, H. (Hugues), Jacquot, S. (Sylvie), Jones, N. (N), Karp, N. (N) A. (A), Katus, H. (H) A. (A), Kitchen, S. (S), Klein-Rodewald, T. (T), Klingenspor, M. (M), Klopstock, T. (T), Lalanne, V. (Valérie), Leblanc, S. (Sophie), Lengger, C. (C), le Marchand, E. (Elise), Ludwig, T. (T), Lux, A. (Aline), McKerlie, C. (C), Maier, H. (H), Mandel, J. (Jean-Louis), Marschall, S. (S), Mark, M. (Manuel), Melvin, D. (D) G. (G), Meziane, H. (Hamid), Micklich, K. (K), Mittelhauser, C. (C), Monassier, L. (Laurent), Moulaert, D. (David), Muller, S. (Stéphanie), Naton, B. (B), Neff, F. (F), Nolan, P. (P) M. (M), Nutter, L. (L) M. (M), Ollert, M. (M), Pavlovic, G. (Guillaume), Pellegata, N. (N) S. (S), Peter, E. (E), Petit-Demouliere, B. (Benoît), Pickard, A. (A), Podrini, C. (C), Potter, P. (P), Pouilly, L. (Laurent), Puk, O. (O), Richardson, D. (D), Rousseau, S. (Stéphane), Quintanilla-Fend, L. (L), Quwailid, M. (M) M. (M), Racz, I. (I), Rathkolb, B. (B), Riet, F. (Fabrice), Rossant, J. (J), Roux, M. (Michel), Rozman, J. (J), Ryder, E. (E), Salisbury, J. (J), Santos, L. (L), Schable, K. (K) H. (H), Schiller, E. (E), Schrewe, A. (A), Schulz, H. (H), Steinkamp, R. (R), Simon, M. (M), Stewart, M. (M), Stoger, C. (C), Stoger, T. (T), Sun, M. (M), Sunter, D. (D), Teboul, L. (L), Tilly, I. (I), Tocchini-Valentini, G. (G) P. (P), Tost, M. (M), Treise, I. (I), Vasseur, L. (Laurent), Velot, E. (E), Vogt-Weisenhorn, D. (D), Wagner, C. (Christel), Walling, A. (A), Wattenhofer-Donze, M. (Marie), Weber, B. (Bruno), Wendling, O. (Olivia), Westerberg, H. (H), Willershauser, M. (M), Wolf, E. (E), Wolter, A. (A), Wood, J. (J), Wurst, W. (W), Yildirim, A. (A) O. (O), Zeh, R. (R), Zimmer, A. (A), Zimprich, A. (A), Consortium, E. (Eumodic), Holmes, C. (C), Steel, K. (K) P. (P), Herault, Y. (Yann), Gailus-Durner, V. (V), Mallon, A. (A) M. (M), and Brown, S. (S) D. (D)

Subjects
Genetics, Male, Mice, Knockout, Heterozygote, Mutant, Homozygote, Aucun, Molecular Sequence Annotation, Biology, Phenotype, Mice, Inbred C57BL, Pleiotropy, ddc:570, Mutation, Animals, Humans, Human genome, Female, Allele, Gene, Gene knockout, Genetic Association Studies
Abstract

The function of the majority of genes in the mouse and human genomes remains unknown. The mouse embryonic stem cell knockout resource provides a basis for the characterization of relationships between genes and phenotypes. The EUMODIC consortium developed and validated robust methodologies for the broad-based phenotyping of knockouts through a pipeline comprising 20 disease-oriented platforms. We developed new statistical methods for pipeline design and data analysis aimed at detecting reproducible phenotypes with high power. We acquired phenotype data from 449 mutant alleles, representing 320 unique genes, of which half had no previous functional annotation. We captured data from over 27,000 mice, finding that 83% of the mutant lines are phenodeviant, with 65% demonstrating pleiotropy. Surprisingly, we found significant differences in phenotype annotation according to zygosity. New phenotypes were uncovered for many genes with previously unknown function, providing a powerful basis for hypothesis generation and further investigation in diverse systems. Comment in : Genetic differential calculus. [Nat Genet. 2015] Comment in : Scaling up phenotyping studies. [Nat Biotechnol. 2015]

Published
2015
Full Text
View/download PDF

22. Genetic characterization of a mouse line with primary aldosteronism

Author

Perez-Rivas, L G, Rhayem, Y, Sabrautzki, S, Hantel, C, Rathkolb, B, de Angelis, M Hrabě, Reincke, M, Beuschlein, Felix; https://orcid.org/0000-0001-7826-3984, Spyroglou, A, Perez-Rivas, L G, Rhayem, Y, Sabrautzki, S, Hantel, C, Rathkolb, B, de Angelis, M Hrabě, Reincke, M, Beuschlein, Felix; https://orcid.org/0000-0001-7826-3984, and Spyroglou, A

Abstract

In an attempt to define novel genetic loci involved in the pathophysiology of primary aldosteronism, a mutagenesis screen after treatment with the alkylating agent N-ethyl-N-nitrosourea was established for the parameter aldosterone. One of the generated mouse lines with hyperaldosteronism was phenotypically and genetically characterized. This mouse line had high aldosterone levels but normal creatinine and urea values. The steroidogenic enzyme expression levels in the adrenal gland did not differ significantly among phenotypically affected and unaffected mice. Upon exome sequencing, point mutations were identified in seven candidate genes (Sspo, Dguok, Hoxaas2, Clstn3, Atm, Tipin and Mapk6). Subsequently, animals were stratified into wild-type and mutated groups according to their genotype for each of these candidate genes. A correlation of their genotypes with the respective aldosterone, aldosterone-to-renin ratio (ARR), urea and creatinine values as well as steroidogenic enzyme expression levels was performed. Aldosterone values were significantly higher in animals carrying mutations in four different genes (Sspo, Dguok, Hoxaas2 and Clstn3) and associated statistically significant adrenal Cyp11b2 overexpression as well as increased ARR was present only in mice with Sspo mutation. In contrast, mutations of the remaining candidate genes (Atm, Tipin and Mapk6) were associated with lower aldosterone values and lower Hsd3b6 expression levels. In summary, these data demonstrate association between the genes Sspo, Dguok, Hoxaas2 and Clstn3 and hyperaldosteronism. Final proofs for the causative nature of the mutations have to come from knock-out and knock-in experiments.

Published
2017

24. Uromodulin retention in thick ascending limb of Henle's loop affects SCD1 in neighboring proximal tubule: Renal transcriptome studies in mouse models of uromodulin-associated kidney disease

Author

Horsch, M., Beckers, J., Fuchs, H., Gailus-Durner, V., Hrabě de Angelis, M., Rathkolb, B., Wolf, E., Aigner, B., and Kemter, E.

Abstract

Uromodulin-associated kidney disease (UAKD) is a hereditary progressive renal disease which can lead to renal failure and requires renal replacement therapy. UAKD belongs to the endoplasmic reticulum storage diseases due to maturation defect of mutant uromodulin and its retention in the enlarged endoplasmic reticulum in the cells of the thick ascending limb of Henle's loop (TALH). Dysfunction of TALH represents the key pathogenic mechanism of UAKD causing the clinical symptoms of this disease. However, the molecular alterations underlying UAKD are not well understood. In this study, transcriptome profiling of whole kidneys of two mouse models of UAKD, UmodA227T and UmodC93F, was performed. Genes differentially abundant in UAKD affected kidneys of both Umod mutant lines at different disease stages were identified and verified by RT-qPCR. Additionally, differential protein abundances of SCD1 and ANGPTL7 were validated by immunohistochemistry and Western blot analysis. ANGPTL7 expression was down-regulated in TALH cells of Umod mutant mice which is the site of the mutant uromodulin maturation defect. SCD1 was expressed selectively in the S3 segment of proximal tubule cells, and SCD1 abundance was increased in UAKD affected kidneys. This finding demonstrates that a cross talk between two functionally distinct tubular segments of the kidney, the TALH segment and the S3 segment of proximal tubule, exists.

Published
2014

25. Mouse nuclear myosin 1 knock-out shows interchangeability and redundancy of myosin isoforms in the cell nucleus

Author

Venit, T., Dzijak, R., Kalendova, A., Kahle-Stephan, M., Rohozkova, J., Schmidt, V., Rülicke, T., Rathkolb, B., Hans, W., Bohla, A., Eickelberg, O., Stöger, T., Wolf, E., Yildirim, A.Ö., Gailus-Durner, V., Fuchs, H., Hrabě de Angelis, M., and Hozak, P.

Abstract

Background: Nuclear myosin I (NM1) is a nuclear isoform of the well-known "cytoplasmic" Myosin 1c protein (Myo1c). Located on the 11th chromosome in mice, NM1 results from an alternative start of transcription of the Myo1c gene adding an extra 16 amino acids at the N-terminus. Previous studies revealed its roles in RNA Polymerase I and RNA Polymerase II transcription, chromatin remodeling, and chromosomal movements. Its nuclear localization signal is localized in the middle of the molecule and therefore directs both Myosin 1c isoforms to the nucleus. Methodology/Principal Findings: In order to trace specific functions of the NM1 isoform, we generated mice lacking the NM1 start codon without affecting the cytoplasmic Myo1c protein. Mutant mice were analyzed in a comprehensive phenotypic screen in cooperation with the German Mouse Clinic. Strikingly, no obvious phenotype related to previously described functions has been observed. However, we found minor changes in bone mineral density and the number and size of red blood cells in knock-out mice, which are most probably not related to previously described functions of NM1 in the nucleus. In Myo1c/NM1 depleted U2OS cells, the level of Pol I transcription was restored by overexpression of shRNA-resistant mouse Myo1c. Moreover, we found Myo1c interacting with Pol II. The ratio between Myo1c and NM1 proteins were similar in the nucleus and deletion of NM1 did not cause any compensatory overexpression of Myo1c protein. Conclusion/Significance: We observed that Myo1c can replace NM1 in its nuclear functions. Amount of both proteins is nearly equal and NM1 knock-out does not cause any compensatory overexpression of Myo1c. We therefore suggest that both isoforms can substitute each other in nuclear processes.

Published
2013

26. Erratum: Myoscape controls cardiac calcium cycling and contractility via regulation of L-type calcium channel surface expression

Author

Eden, M., Meder, B., Völkers, M., Poomvanicha, M., Domes, K., Branchereau, M., Marck, P., Will, R., Bernt, A., Rangrez, A., Busch, M., German Mouse Clinic Consortium (Adler, T., Aguilar-Pimentel, J.A., Becker, L., Beckers, J., Busch, D.H., Calzada-Wack, J., Fuchs, H., Gailus-Durner, V., Garrett, L., Graw, J., Götz, A., Hans, W., Hölter, S.M., Horsch, M., Klein-Rodewald, T., Lengger, C., Leuchtenberger, S., Maier, H., Neff, F., Ollert, M., Prehn, C., Puk, O., Rácz, I., Rathkolb, B., Rozman, J., Schrewe, A., Schulz, H., Stöger, C., Tost, M., Wurst, W.), Hrabě de Angelis, M., Heymes, C., Rottbauer, W., Most, P., Hofmann, F., and Frey, N.

Subjects
0301 basic medicine, Calcium metabolism, medicine.medical_specialty, Multidisciplinary, Voltage-dependent calcium channel, Calcium channel, Science, General Physics and Astronomy, chemistry.chemical_element, General Chemistry, Calcium, General Biochemistry, Genetics and Molecular Biology, Contractility, 03 medical and health sciences, 030104 developmental biology, Endocrinology, chemistry, Internal medicine, medicine, Myocyte, L-type calcium channel, Calcium signaling
Abstract

Calcium signalling plays a critical role in the pathogenesis of heart failure. Here we describe a cardiac protein named Myoscape/FAM40B/STRIP2, which directly interacts with the L-type calcium channel. Knockdown of Myoscape in cardiomyocytes decreases calcium transients associated with smaller Ca(2+) amplitudes and a lower diastolic Ca(2+) content. Likewise, L-type calcium channel currents are significantly diminished on Myoscape ablation, and downregulation of Myoscape significantly reduces contractility of cardiomyocytes. Conversely, overexpression of Myoscape increases global Ca(2+) transients and enhances L-type Ca(2+) channel currents, and is sufficient to restore decreased currents in failing cardiomyocytes. In vivo, both Myoscape-depleted morphant zebrafish and Myoscape knockout (KO) mice display impairment of cardiac function progressing to advanced heart failure. Mechanistically, Myoscape-deficient mice show reduced L-type Ca(2+)currents, cell capacity and calcium current densities as a result of diminished LTCC surface expression. Finally, Myoscape expression is reduced in hearts from patients suffering of terminal heart failure, implying a role in human disease.

Published
2016

28. A paternal methyl donor-rich diet altered cognitive and neural functions in offspring mice

Author

Ryan, D P, Henzel, K S, Pearson, B L, Siwek, M E, Papazoglou, A, Guo, L, Paesler, K, Yu, M, Müller, R, Xie, K, Schröder, S, Becker, L, Garrett, L, Hölter, S M, Neff, F, Rácz, I, Rathkolb, B, Rozman, J, Ehninger, G, Klingenspor, M, Klopstock, T, Wolf, E, Wurst, W, Zimmer, A, Fuchs, H, Gailus-Durner, V, Hrabě de Angelis, M, Sidiropoulou, K, Weiergräber, M, Zhou, Y, and Ehninger, D

Abstract

Dietary intake of methyl donors, such as folic acid and methionine, shows considerable intra-individual variation in human populations. While it is recognized that maternal departures from the optimum of dietary methyl donor intake can increase the risk for mental health issues and neurological disorders in offspring, it has not been explored whether paternal dietary methyl donor intake influences behavioral and cognitive functions in the next generation. Here, we report that elevated paternal dietary methyl donor intake in a mouse model, transiently applied prior to mating, resulted in offspring animals (methyl donor-rich diet (MD) F1 mice) with deficits in hippocampus-dependent learning and memory, impaired hippocampal synaptic plasticity and reduced hippocampal theta oscillations. Gene expression analyses revealed altered expression of the methionine adenosyltransferase Mat2a and BK channel subunit Kcnmb2, which was associated with changes in Kcnmb2 promoter methylation in MD F1 mice. Hippocampal overexpression of Kcnmb2 in MD F1 mice ameliorated altered spatial learning and memory, supporting a role of this BK channel subunit in the MD F1 behavioral phenotype. Behavioral and gene expression changes did not extend into the F2 offspring generation. Together, our data indicate that paternal dietary factors influence cognitive and neural functions in the offspring generation.

Published
2018
Full Text
View/download PDF

29. Special review series - Gene manipulation and integrative physiology

Author

Rathkolb, B., Fuchs, E., Kolb, H.-J., Renner-Müller, I., Krebs, O., Balling, R., Hrabě de Angelis, M., and Wolf, E.

Abstract

The most important tool for obtaining insight into the function of genes is the use of mutant model organisms. Homologous recombination in embryonic stem cells allows the systematic production of mouse mutants for any gene that has been cloned. Gene trap strategies have been designed to interrupt even unknown genes which are tagged by the inserted vector and can be characterised structurally and functionally. Complementary to such ‘gene-driven’ approaches, ‘phenotype-driven’ approaches are necessary to identify new genes or gene products through a search for mutants with specific defects, uncovering the function of genetic pathways in physiological and pathological processes. Mutagenesis using the alkylating agent N-ethyl-N-nitrosourea (ENU) is a powerful approach for the production of such mouse mutants. Since ENU induces mainly point mutations in premeiotic spermatogonia, this strategy allows the production of multiple alleles of a particular gene, which is pivotal for a fine tuned analysis of its function.

Published
2000

32. Modelling hepatic osteodystrophy: BALB-Abcb4 knockout mice lacking the hepatobiliary phospholipid transporter display decreased 25-OH-vitamin D3 serum levels and bone mineral contents

Author

Hochrath, K, primary, Krawczyk, M, additional, Rathkolb, B, additional, Micklich, K, additional, Hans, W, additional, Adler, T, additional, Wang, Y, additional, Fuchs, H, additional, Gailus-Durner, V, additional, Busch, DH, additional, Wolf, E, additional, Hrabé de Angelis, M, additional, and Lammert, F, additional

Published
2010
Full Text
View/download PDF

33. 1098 MODELLING HEPATIC OSTEODYSTROPHY: BALB-ABCB4 KNOCKOUT MICE LACKING THE HEPATOBILIARY PHOSPHOLIPID TRANSPORTER DISPLAY DECREASED 25-OH-VITAMIN D3 SERUM LEVELS AND BONE MINERAL CONTENTS

Author

Hochrath, K., primary, Krawczyk, M., additional, Rathkolb, B., additional, Micklich, K., additional, Hans, W., additional, Adler, T., additional, Wang, Y., additional, Fuchs, H., additional, Gailus-Durner, V., additional, Busch, D.H., additional, Wolf, E., additional, de Angelis, M. Hrabé, additional, and Lammert, F., additional

Published
2010
Full Text
View/download PDF

37. The German Mouse Clinic: A Platform for Systemic Phenotype Analysis of Mouse Models

Author

Fuchs, H., primary, Gailus-Durner, V., additional, Adler, T., additional, Aguilar Pimentel, J., additional, Becker, L., additional, Bolle, I., additional, Brielmeier, M., additional, Calzada- Wack, J., additional, Dalke, C., additional, Ehrhardt, N., additional, Fasnacht, N., additional, Ferwagner, B., additional, Frischmann, U., additional, Hans, W., additional, Holter, S., additional, Holzlwimmer, G., additional, Horsch, M., additional, Javaheri, A., additional, Kallnik, M., additional, Kling, E., additional, Lengger, C., additional, Maier, H., additional, Moβbrugger, I., additional, Morth, C., additional, Naton, B., additional, Noth, U., additional, Pasche, B., additional, Prehn, C., additional, Przemeck, G., additional, Puk, O., additional, Racz, I., additional, Rathkolb, B., additional, Rozman, J., additional, Schable, K., additional, Schreiner, R., additional, Schrewe, A., additional, Sina, C., additional, Steinkamp, R., additional, Thiele, F., additional, Willershauser, M., additional, Zeh, R., additional, Adamski, J., additional, Busch, D., additional, Beckers, J., additional, Behrendt, H., additional, Daniel, H., additional, Esposito, I., additional, Favor, J., additional, Graw, J., additional, Heldmaier, G., additional, Hofler, H., additional, Ivandic, B., additional, Katus, H., additional, Klingenspor, M., additional, Klopstock, T., additional, Lengeling, A., additional, Mempel, M., additional, Muller, W., additional, Neschen, S., additional, Ollert, M., additional, Quintanilla-Martinez, L., additional, Rosenstiel, P., additional, Schmidt, J., additional, Schreiber, S., additional, Schughart, K., additional, Schulz, H., additional, Wolf, E., additional, Wurst, W., additional, Zimmer, A., additional, and de Angelis, M., additional

Published
2009
Full Text
View/download PDF

40. Genome-wide, large-scale production of mutant mice by ENU mutagenesis.

Author

Hrabe de Angelis, M. H., Flaswinkel, H., Fuchs, H., Rathkolb, B., Soewarto, D., Marschall, S., Heffner, S., Pargent, W., Wuensch, K., Jung, M., Reis, A., Richter, T., Alessandrini, F., Jakob, T., Fuchs, E., Kolb, H., Kremmer, E., Schaeble, K., Rollinski, B., Roscher, A., Peters, C., Meitinger, T., Strom, T., Steckler, T., Holsboer, F., Klopstock, T., Gekeler, F., Schindewolf, C., Jung, T., Avraham, K., Behrendt, H., Ring, J., Zimmer, Andreas David, Schughart, K., Pfeffer, K., Wolf, E., Balling, Rudi, Hrabe de Angelis, M. H., Flaswinkel, H., Fuchs, H., Rathkolb, B., Soewarto, D., Marschall, S., Heffner, S., Pargent, W., Wuensch, K., Jung, M., Reis, A., Richter, T., Alessandrini, F., Jakob, T., Fuchs, E., Kolb, H., Kremmer, E., Schaeble, K., Rollinski, B., Roscher, A., Peters, C., Meitinger, T., Strom, T., Steckler, T., Holsboer, F., Klopstock, T., Gekeler, F., Schindewolf, C., Jung, T., Avraham, K., Behrendt, H., Ring, J., Zimmer, Andreas David, Schughart, K., Pfeffer, K., Wolf, E., and Balling, Rudi

Abstract

In the post-genome era, the mouse will have a major role as a model system for functional genome analysis. This requires a large number of mutants similar to the collections available from other model organisms such as Drosophila melanogaster and Caenorhabditis elegans. Here we report on a systematic, genome-wide, mutagenesis screen in mice. As part of the German Human Genome Project, we have undertaken a large-scale ENU-mutagenesis screen for dominant mutations and a limited screen for recessive mutations. In screening over 14,000 mice for a large number of clinically relevant parameters, we recovered 182 mouse mutants for a variety of phenotypes. In addition, 247 variant mouse mutants are currently in genetic confirmation testing and will result in additional new mutant lines. This mutagenesis screen, along with the screen described in the accompanying paper, leads to a significant increase in the number of mouse models available to the scientific community. Our mutant lines are freely accessible to non-commercial users (for information, see http://www.gsf.de/ieg/groups/enu-mouse.html).

Published
2000

41. Large-scale N-ethyl-N-nitrosourea mutagenesis of mice--from phenotypes to genes.

Author

Rathkolb, B., Fuchs, E., Kolb, H. J., Renner-Muller, I., Krebs, O., Balling, Rudi, Hrabe de Angelis, M., Wolf, E., Rathkolb, B., Fuchs, E., Kolb, H. J., Renner-Muller, I., Krebs, O., Balling, Rudi, Hrabe de Angelis, M., and Wolf, E.

Abstract

The most important tool for obtaining insight into the function of genes is the use of mutant model organisms. Homologous recombination in embryonic stem cells allows the systematic production of mouse mutants for any gene that has been cloned. Gene trap strategies have been designed to interrupt even unknown genes which are tagged by the inserted vector and can be characterised structurally and functionally. Complementary to such 'gene-driven' approaches, 'phenotype-driven' approaches are necessary to identify new genes or gene products through a search for mutants with specific defects, uncovering the function of genetic pathways in physiological and pathological processes. Mutagenesis using the alkylating agent N-ethyl-N-nitrosourea (ENU) is a powerful approach for the production of such mouse mutants. Since ENU induces mainly point mutations in premeiotic spermatogonia, this strategy allows the production of multiple alleles of a particular gene, which is pivotal for a fine tuned analysis of its function.

Published
2000
Full Text
View/download PDF

43. The large-scale Munich ENU-mouse-mutagenesis screen.

Author

Soewarto, D., Fella, C., Teubner, A., Rathkolb, B., Pargent, W., Heffner, S., Marschall, S., Wolf, E., Balling, Rudi, Hrabe de Angelis, M., Soewarto, D., Fella, C., Teubner, A., Rathkolb, B., Pargent, W., Heffner, S., Marschall, S., Wolf, E., Balling, Rudi, and Hrabe de Angelis, M.

Published
2000
Full Text
View/download PDF

46. Dominant-negative effects of a novel mutated Ins2 allele causes early-onset diabetes and severe beta-cell loss in Munich Ins2C95S mutant mice.

Author

Herbach N, Rathkolb B, Kemter E, Pichl L, Klaften M, de Angelis MH, Halban PA, Wolf E, Aigner B, and Wanke R

Abstract

The novel diabetic mouse model Munich Ins2(C95S) was discovered within the Munich N-ethyl-N-nitrosourea mouse mutagenesis screen. These mice exhibit a T-->A transversion in the insulin 2 (Ins2) gene at nucleotide position 1903 in exon 3, which leads to the amino acid exchange C95S and loss of the A6-A11 intrachain disulfide bond. From 1 month of age onwards, blood glucose levels of heterozygous Munich Ins2(C95S) mutant mice were significantly increased compared with controls. The fasted and postprandial serum insulin levels of the heterozygous mutants were indistinguishable from those of wild-type littermates. However, serum insulin levels after glucose challenge, pancreatic insulin content, and homeostasis model assessment (HOMA) beta-cell indices of heterozygous mutants were significantly lower than those of wild-type littermates. The initial blood glucose decrease during an insulin tolerance test was lower and HOMA insulin resistance indices were significantly higher in mutant mice, indicating the development of insulin resistance in mutant mice. The total islet volume, the volume density of beta-cells in the islets, and the total beta-cell volume of heterozygous male mutants was significantly reduced compared with wild-type mice. Electron microscopy of the beta-cells of male mutants showed virtually no secretory insulin granules, the endoplasmic reticulum was severely enlarged, and mitochondria appeared swollen. Thus, Munich Ins2(C95S) mutant mice are considered a valuable model to study the mechanisms of beta-cell dysfunction and death during the development of diabetes. [ABSTRACT FROM AUTHOR]

Published
2007
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results