Your search keyword '"Kristoffer Niss"' showing total 20 results

1. Improved leptin sensitivity and increased soluble leptin receptor concentrations may underlie the additive effects of combining PYY [1–34] and exendin-4 on body weight lowering in diet-induced obese mice

Author

Birgitte S. Wulff, Rune Ehrenreich Kuhre, Madhan Selvaraj, Jens F. Rehfeld, Kristoffer Niss, Johannes J. Fels, Secher Anna, Kirsten Raun, and Marina Kjaergaard Gerstenberg

Subjects

Appetite, Area postrema, Body weight, Exendin-4, PYY(3–36), Leptin sensitivity, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Objective: Co-treatment with long acting PYY and the GLP-1 receptor agonists has potential as an efficient obesity treatment. This study investigates whether the mechanisms behind additive reduction of food intake and weight loss depends on complementary effects in brain areas regulating food intake and if restoration of leptin sensitivity is involved. Methods: Diet-induced obese (DIO) mice were co-treated with PYY(3–36) and exendin-4 (Ex4, GLP-1R agonist) for 14 days using minipumps. Leptin responsiveness was evaluated by measuring food intake and body weight after leptin injection, and gene expression profile was investigated in various of brain regions and liver. Results: We show that weight loss associated with co-treatment of PYY(3–36) and Ex4 and Ex4 mono-treatment in DIO mice increased expression of several genes in area postrema (AP) known to be involved in appetite regulation and Cart, Pdyn, Bdnf and Klb were synergistically upregulated by the co-treatment. The upregulations were independent of weight loss, as shown by inclusion of a weight matched control. Moreover, PYY(3–36) and Ex4 co-treatment resulted in synergistically upregulated plasma concentrations of soluble leptin receptor (SLR) and improved sensitivity to exogenous leptin demonstrated by food intake lowering. Conclusion: The study results suggest that synergistic upregulation of appetite-regulating genes in AP and improved leptin sensitivity are important mediators for the additive weight loss resulting from PYY and Ex4 co-treatment.

Published

2024

2. The small and large intestine contain related mesenchymal subsets that derive from embryonic Gli1 + precursors

Author

Simone Isling Pærregaard, Line Wulff, Sophie Schussek, Kristoffer Niss, Urs Mörbe, Johan Jendholm, Kerstin Wendland, Anna T. Andrusaite, Kevin F. Brulois, Robert J. B. Nibbs, Katarzyna Sitnik, Allan McI Mowat, Eugene C. Butcher, Søren Brunak, and William W. Agace

Subjects

Science

Abstract

Abstract The intestinal lamina propria contains a diverse network of fibroblasts that provide key support functions to cells within their local environment. Despite this, our understanding of the diversity, location and ontogeny of fibroblasts within and along the length of the intestine remains incomplete. Here we show that the small and large intestinal lamina propria contain similar fibroblast subsets that locate in specific anatomical niches. Nevertheless, we find that the transcriptional profile of similar fibroblast subsets differs markedly between the small intestine and colon suggesting region specific functions. We perform in vivo transplantation and lineage-tracing experiments to demonstrate that adult intestinal fibroblast subsets, smooth muscle cells and pericytes derive from Gli1-expressing precursors present in embryonic day 12.5 intestine. Trajectory analysis of single cell RNA-seq datasets of E12.5 and adult mesenchymal cells suggest that adult smooth muscle cells and fibroblasts derive from distinct embryonic intermediates and that adult fibroblast subsets develop in a linear trajectory from CD81+ fibroblasts. Finally, we provide evidence that colonic subepithelial PDGFRαhi fibroblasts comprise several functionally distinct populations that originate from an Fgfr2-expressing fibroblast intermediate. Our results provide insights into intestinal stromal cell diversity, location, function, and ontogeny, with implications for intestinal development and homeostasis.

Published

2023

3. Type I Interferons Promote Germinal Centers Through B Cell Intrinsic Signaling and Dendritic Cell Dependent Th1 and Tfh Cell Lineages

Author

Madelene W. Dahlgren, Adam W. Plumb, Kristoffer Niss, Katharina Lahl, Søren Brunak, and Bengt Johansson-Lindbom

Subjects

Type I Interferons, germinal center (GC) B cells, IgG subclass antibodies, Tfh cells, Th1 cells, antibody responses, Immunologic diseases. Allergy, RC581-607

Abstract

Type I interferons (IFNs) are essential for antiviral immunity, appear to represent a key component of mRNA vaccine-adjuvanticity, and correlate with severity of systemic autoimmune disease. Relevant to all, type I IFNs can enhance germinal center (GC) B cell responses but underlying signaling pathways are incompletely understood. Here, we demonstrate that a succinct type I IFN response promotes GC formation and associated IgG subclass distribution primarily through signaling in cDCs and B cells. Type I IFN signaling in cDCs, distinct from cDC1, stimulates development of separable Tfh and Th1 cell subsets. However, Th cell-derived IFN-γ induces T-bet expression and IgG2c isotype switching in B cells prior to this bifurcation and has no evident effects once GCs and bona fide Tfh cells developed. This pathway acts in synergy with early B cell-intrinsic type I IFN signaling, which reinforces T-bet expression in B cells and leads to a selective amplification of the IgG2c+ GC B cell response. Despite the strong Th1 polarizing effect of type I IFNs, the Tfh cell subset develops into IL-4 producing cells that control the overall magnitude of the GCs and promote generation of IgG1+ GC B cells. Thus, type I IFNs act on B cells and cDCs to drive GC formation and to coordinate IgG subclass distribution through divergent Th1 and Tfh cell-dependent pathways.

Published

2022

4. Preclinical evaluation of a protracted GLP-1/glucagon receptor co-agonist: Translational difficulties and pitfalls

Author

Lotte Simonsen, Jesper Lau, Thomas Kruse, Tingqing Guo, Jim McGuire, Jacob Fuglsbjerg Jeppesen, Kristoffer Niss, Per Sauerberg, Kirsten Raun, and Charlotta Dornonville de la Cour

Subjects

Medicine, Science

Abstract

During recent years combining GLP-1 and glucagon receptor agonism with the purpose of achieving superior weight loss and metabolic control compared to GLP-1 alone has received much attention. The superior efficacy has been shown by several in preclinical models but has been difficult to reproduce in humans. In this paper, we present the pre-clinical evaluation of NN1177, a long-acting GLP-1/glucagon receptor co-agonist previously tested in clinical trials. To further investigate the contribution from the respective receptors, two other co-agonists (NN1151, NN1359) with different GLP-1-to-glucagon receptor ratios were evaluated in parallel. In the process of characterizing NN1177, species differences and pitfalls in traditional pre-clinical evaluation methods were identified, highlighting the translational challenges in predicting the optimal receptor balance in humans. In diet-induced obese (DIO) mice, NN1177 induced a dose-dependent body weight loss, primarily due to loss of fat mass, and improvement in glucose tolerance. In DIO rats, NN1177 induced a comparable total body weight reduction, which was in contrast mainly caused by loss of lean mass, and glucose tolerance was impaired. Furthermore, despite long half-lives of the three co-agonists, glucose control during steady state was seen to depend on compound exposure at time of evaluation. When evaluated at higher compound exposure, glucose tolerance was similarly improved for all three co-agonists, independent of receptor balance. However, at lower compound exposure, glucose tolerance was gradually impaired with higher glucagon receptor preference. In addition, glucose tolerance was found to depend on study duration where the effect of glucagon on glucose control became more evident with time. To conclude, the pharmacodynamic effects at a given GLP-1-to-glucagon ratio differs between species, depends on compound exposure and study length, complicating the identification of an optimally balanced clinical candidate. The present findings could partly explain the low number of clinical successes for this dual agonism.

Published

2022

5. Complete Topological Mapping of a Cellular Protein Interactome Reveals Bow-Tie Motifs as Ubiquitous Connectors of Protein Complexes

Author

Kristoffer Niss, Cristina Gomez-Casado, Jessica X. Hjaltelin, Thorsten Joeris, William W. Agace, Kirstine G. Belling, and Søren Brunak

Subjects

biological networks, bow-tie, knot protein, network topology, network motifs, functional organization, Biology (General), QH301-705.5

Abstract

Summary: The network topology of a protein interactome is shaped by the function of each protein, making it a resource of functional knowledge in tissues and in single cells. Today, this resource is underused, as complete network topology characterization has proved difficult for large protein interactomes. We apply a matrix visualization and decoding approach to a physical protein interactome of a dendritic cell, thereby characterizing its topology with no prior assumptions of structure. We discover 294 proteins, each forming topological motifs called “bow-ties” that tie together the majority of observed protein complexes. The central proteins of these bow-ties have unique network properties, display multifunctional capabilities, are enriched for essential proteins, and are widely expressed in other cells and tissues. Collectively, the bow-tie motifs are a pervasive and previously unnoted topological trend in cellular interactomes. As such, these results provide fundamental knowledge on how intracellular protein connectivity is organized and operates.

Published

2020

6. A Lipopolysaccharide Mouse Model Mirrors Neuroinflammatory Transcriptional Signatures of Human AD, and the Glucagon-Like Peptide-1 Receptor Agonist Semaglutide Attenuates Neuroinflammation in this Model (P1-6.007)

Author

Mette Q. Ludwig, Dylan M. Belmont-Rausch, Anna Secher, Marie A. Bentsen, Stine Normann Hansen, Anne-Mette Bjerregaard, Kristoffer Niss, Kristoffer L. Egerod, Charlotte T. Hansen, Kevin D. Dalgaard, Myrte Merkestein, Dorte Holst, Charles Pyke, Franziska Wichern, Joseph Polex-Wolf, Tune H. Pers, and Lotte B. Knudsen

Published

2023

7. The small and large intestine contain related mesenchymal subsets that derive from embryonic Gli1+ precursors

Author

Simone Isling Pærregaard, Line Wulff, Sophie Schussek, Kristoffer Niss, Urs Mörbe, Johan Jendholm, Kerstin Wendland, Anna T. Andrusaite, Kevin F. Brulois, Robert J. B. Nibbs, Katarzyna Sitnik, Allan McI Mowat, Eugene C. Butcher, Søren Brunak, and William W. Agace

Subjects

Multidisciplinary, General Physics and Astronomy, General Chemistry, General Biochemistry, Genetics and Molecular Biology

Abstract

The intestinal lamina propria contains a diverse network of fibroblasts that provide key support functions to cells within their local environment. Despite this, our understanding of the diversity, location and ontogeny of fibroblasts within and along the length of the intestine remains incomplete. Here we show that the small and large intestinal lamina propria contain similar fibroblast subsets that locate in specific anatomical niches. Nevertheless, we find that the transcriptional profile of similar fibroblast subsets differs markedly between the small intestine and colon suggesting region specific functions. We perform in vivo transplantation and lineage-tracing experiments to demonstrate that adult intestinal fibroblast subsets, smooth muscle cells and pericytes derive from Gli1-expressing precursors present in embryonic day 12.5 intestine. Trajectory analysis of single cell RNA-seq datasets of E12.5 and adult mesenchymal cells suggest that adult smooth muscle cells and fibroblasts derive from distinct embryonic intermediates and that adult fibroblast subsets develop in a linear trajectory from CD81+ fibroblasts. Finally, we provide evidence that colonic subepithelial PDGFRαhi fibroblasts comprise several functionally distinct populations that originate from an Fgfr2-expressing fibroblast intermediate. Our results provide insights into intestinal stromal cell diversity, location, function, and ontogeny, with implications for intestinal development and homeostasis.

Published

2023

8. The small and large intestine contain transcriptionally related mesenchymal stromal cell subsets that derive from embryonic Gli1+ mesothelial cells

Author

Simone Pærregaard, Sophie Schussek, Line Wulff, Kristoffer Niss, Urs Mörbe, Johan Jendholm, Kerstin Wendland, Anna Andrusaite, Kevin Brulois, Robert Nibbs, Katarzyna Sitnik, Allan Mowat, Eugene Butcher, Søren Brunak, and William Agace

Abstract

Intestinal fibroblasts (FB) play essential roles in intestinal homeostasis. Here we show that the small and large intestinal lamina propria (LP) contain similar FB subsets that locate in specific anatomical niches and express distinct arrays of epithelial support genes. However, there were tissue specific differences in the transcriptional profile of intestinal FB subsets in the two sites. All adult intestinal LP mesenchymal stromal cells (MSC), including FB, smooth muscle cells (SMC) and pericytes derive from Gli1-expressing embryonic precursors which we identify as mesothelial cells. Trajectory analysis suggested that adult SMC and FB derive from distinct embryonic intermediates, and that adult FB subsets develop in a linear trajectory from CD81+ FB. Finally, we show that colonic subepithelial PDGFRαhi FB comprise several functionally and anatomically distinct populations that originate from an Fgfr2-expressing FB intermediate. Collectively our results provide novel insights into MSC diversity, location, function and ontogeny, with implications for our understanding of intestinal development, homeostasis and disease.

Published

2021

9. The small and large intestine contain transcriptionally related mesenchymal stromal cell subsets that derive from embryonic Gli1+ mesothelial cells

Author

Katarzyna M. Sitnik, S. I. Paerregaard, Kerstin Wendland, Johan Jendholm, U. Moerbe, Robert J. B. Nibbs, Kevin Brulois, Eugene C. Butcher, L. Wulff, Anna Andrusaite, William W. Agace, Søren Brunak, Kristoffer Niss, S. Schussek, and Allan McI. Mowat

Subjects

Stromal cell, biology, GLI1, Mesenchymal stem cell, biology.protein, Embryonic stem cell, Homeostasis, Function (biology), Mesothelial Cell, CD81, Cell biology

Abstract

SummaryIntestinal fibroblasts (FB) play essential roles in intestinal homeostasis. Here we show that the small and large intestinal lamina propria (LP) contain similar FB subsets that locate in specific anatomical niches and express distinct arrays of epithelial support genes. However, there were tissue specific differences in the transcriptional profile of intestinal FB subsets in the two sites. All adult intestinal LP mesenchymal stromal cells (MSC), including FB, smooth muscle cells (SMC) and pericytes derive from Gli1-expressing embryonic precursors which we identify as mesothelial cells. Trajectory analysis suggested that adult SMC and FB derive from distinct embryonic intermediates, and that adult FB subsets develop in a linear trajectory from CD81+ FB. Finally, we show that colonic subepithelial PDGFRαhi FB comprise several functionally and anatomically distinct populations that originate from an Fgfr2-expressing FB intermediate. Collectively our results provide novel insights into MSC diversity, location, function and ontogeny, with implications for our understanding of intestinal development, homeostasis and disease.

Published

2021

10. NPFF Decreases Activity of Human Arcuate NPY Neurons: A Study in Embryonic-Stem-Cell-Derived Model

Author

Lola Torz, Kristoffer Niss, Sofia Lundh, Jens C. Rekling, Carlos Damian Quintana, Signe Emilie Dannulat Frazier, Aaron J. Mercer, Anda Cornea, Charlotte Vinther Bertelsen, Marina Kjærgaard Gerstenberg, Ann Maria Kruse Hansen, Mette Guldbrandt, Jens Lykkesfeldt, Linu Mary John, J. Carlos Villaescusa, and Natalia Petersen

Subjects

Neurons, Screening platform, Organic Chemistry, Neuropeptide FF, Arcuate Nucleus of Hypothalamus, General Medicine, Catalysis, Computer Science Applications, Neuropeptide FF receptor 2, Inorganic Chemistry, nervous system, neuropeptide FF receptor 2, neuropeptide FF, screening platform, human-arcuate-like neurons, appetite control, obesity, Appetite control, Animals, Humans, Neuropeptide Y, Obesity, Physical and Theoretical Chemistry, Oligopeptides, Molecular Biology, Human-arcuate-like neurons, Spectroscopy

Abstract

Restoring the control of food intake is the key to obesity management and prevention. The arcuate nucleus (ARC) of the hypothalamus is extensively being studied as a potential anti-obesity target. Animal studies showed that neuropeptide FF (NPFF) reduces food intake by its action in neuropeptide Y (NPY) neurons of the hypothalamic ARC, but the detailed mode of action observed in human neurons is missing, due to the lack of a human-neuron-based model for pharmacology testing. Here, we validated and utilized a human-neural-stem-cell-based (hNSC) model of ARC to test the effects of NPFF on cellular pathways and neuronal activity. We found that in the human neurons, decreased cAMP levels by NPFF resulted in a reduced rate of cytoplasmic calcium oscillations, indicating an inhibition of ARC NPY neurons. This suggests the therapeutic potential of NPFFR2 in obesity. In addition, we demonstrate the use of human-stem-cell-derived neurons in pharmacological applications and the potential of this model to address functional aspects of human hypothalamic neurons.

Published

2022

11. Type I interferons promote germinal centers through B cell intrinsic signaling and dendritic cell dependent Th1 and Tfh cell lineages

Author

Adam W Plumb, Katharina Lahl, Bengt Johansson-Lindbom, Søren Brunak, Kristoffer Niss, and Madelene W. Dahlgren

Subjects

Cell type, T Follicular Helper Cells, Cell, Biology, Subclass, SDG 3 - Good Health and Well-being, Th1 cells, medicine, Cell Lineage, B cell, Vaccines, Synthetic, Germinal center (GC) B cells, Germinal center, Dendritic Cells, Dendritic cell, Germinal Center, Type I Interferons, Cell biology, medicine.anatomical_structure, Immunoglobulin class switching, Immunoglobulin G, Interferon Type I, Antibody responses, mRNA Vaccines, Tfh cells, Signal transduction, IgG subclass antibodies

Abstract

Type I interferons (IFNs) play an essential role in antiviral immunity, correlate with severity of systemic autoimmune disease, and are likely to represent a key component of mRNA vaccine-adjuvanticity. Relevant to all, type I IFNs can enhance germinal center (GC) B cell responses but underlying signaling pathways are incompletely understood due to pleiotropic effects in multiple cell types. Here, we demonstrate that a succinct type I IFN response promotes GC formation and associated IgG subclass distribution primarily through signaling in cDCs and B cells. Type I IFN signaling in cDCs, distinct from cDC1, stimulates development of separable Tfh and Th1 cell subsets. However, Th cell-derived IFN-γ induces T-bet expression and IgG2c isotype switching prior to this bifurcation and has no evident effects once GCs andbona fideTfh cells developed. This pathway acts in synergy with early B cell-intrinsic type I IFN signaling, which reinforces T-bet expression in B cells and leads to a selective amplification of the IgG2c+GC B cell response. Despite the strong Th1 polarizing effect of type I IFNs, the Tfh cell subset develops into IL-4 producing cells that control the overall magnitude of the GCs and promote generation of IgG1+GC B cells. Thus, type I IFNs act on B cells and cDCs to drive GC formation and to coordinate IgG subclass distribution through parallel Th1 and Tfh cell-dependent pathways.

Published

2020

12. Effects of active farnesoid X receptor on GLUTag enteroendocrine L cells

Author

Jesper V. Olsen, Søren Brunak, Kristoffer Niss, Magnus E. Jakobsson, David Westergaard, and Kirstine Belling

Subjects

0301 basic medicine, Proteomics, Proteome, Enteroendocrine Cells, Receptors, Cytoplasmic and Nuclear, 030209 endocrinology & metabolism, Enteroendocrine cell, Biochemistry, Enteroendocrine L cells, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Farnesoid X receptor, Glucagon-Like Peptide 1, Gene expression, Glucose import, Data Mining, Humans, Secretion, Gene Regulatory Networks, Protein Interaction Maps, Carbohydrate-responsive element-binding protein, Molecular Biology, Psychological repression, Transcription factor, Chemistry, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Isoxazoles, Text-mining, Cell biology, Mitochondria, 030104 developmental biology, Gene Ontology, Glucose, Gene Expression Regulation, Mitochondrial repression, Transcriptome, Glycolysis

Abstract

Activated transcription factor (TF) farnesoid X receptor (FXR) represses glucagon-like peptide-1 (GLP-1) secretion in enteroendocrine L cells. This, in turn, reduces insulin secretion, which is triggered when β cells bind GLP-1. Preventing FXR activation could boost GLP-1 production and insulin secretion. Yet, FXR's broader role in L cell biology still lacks understanding. Here, we show that FXR is a multifaceted TF in L cells using proteomics and gene expression data generated on GLUTag L cells. Most striking, 252 proteins regulated upon glucose stimulation have their abundances neutralized upon FXR activation. Mitochondrial repression or glucose import block are likely mechanisms of this. Further, FXR physically targets bile acid metabolism proteins, growth factors and other TFs, regulates ChREBP, while extensive text-mining found 30 FXR-regulated proteins to be well-known in L cell biology. Taken together, this outlines FXR as a powerful TF, where GLP-1 secretion block is just one of many downstream effects.

Published

2020

13. Association is not prediction:A landscape of confused reporting in diabetes – A systematic review

Author

Pope L. Moseley, Kristoffer Niss, Tibor V. Varga, Angela C. Estampador, and Catherine Bjerre Collin

Subjects

medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Big data, 030209 endocrinology & metabolism, Translational research, computer.software_genre, Sensitivity and Specificity, Field (computer science), Association, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Discriminative model, Epidemiology, Diabetes Mellitus, Internal Medicine, Humans, Medicine, 030212 general & internal medicine, Precision Medicine, business.industry, Precision medicine, General Medicine, Predictive analytics, Personalized medicine, 3. Good health, Artificial intelligence, business, Prediction, computer, Natural language processing, Biomarkers

Abstract

Aims Appropriate analysis of big data is fundamental to precision medicine. While statistical analyses often uncover numerous associations, associations themselves do not convey predictive value. Confusion between association and prediction harms clinicians, scientists, and ultimately, the patients. We analyzed published papers in the field of diabetes that refer to “prediction” in their titles. We assessed whether these articles report metrics relevant to prediction. Methods A systematic search was undertaken using NCBI PubMed. Articles with the terms “diabetes” and “prediction” were selected. All abstracts of original research articles, within the field of diabetes epidemiology, were searched for metrics pertaining to predictive statistics. Simulated data was generated to visually convey the differences between association and prediction. Results The search-term yielded 2,182 results. After discarding non-relevant articles, 1,910 abstracts were evaluated. Of these, 39% (n = 745) reported metrics of predictive statistics, while 61% (n = 1,165) did not. The top reported metrics of prediction were ROC AUC, sensitivity and specificity. Using the simulated data, we demonstrated that biomarkers with large effect sizes and low P values can still offer poor discriminative utility. Conclusions We demonstrate a landscape of confused reporting within the field of diabetes epidemiology where the term “prediction” is often incorrectly used to refer to association statistics. We propose guidelines for future reporting, and two major routes forward in terms of main analytic procedures and research goals: the explanatory route, which contributes to precision medicine, and the prediction route which contributes to personalized medicine.

Published

2020

14. Allergen-specific IgG+ memory B cells are temporally linked to IgE memory responses

Author

Lars Harder Christensen, Ilka Hoof, Sara Herrera-de la Mata, Mohamed H. Shamji, Johanne Ahrenfeldt, Claus Lundegaard, Peter S. Andersen, Hanisah Sharif, Pandurangan Vijayanand, Björn Peters, Janice A. Layhadi, Esther Helen Steveling, Anders Lund, Jens Holm, Kristoffer Niss, Stephen R. Durham, Thomas Stranzl, Grégory Seumois, and Veronique Schulten

Subjects

0301 basic medicine, Allergy, Immunology, Somatic hypermutation, plasmablasts, medicine.disease_cause, Immunoglobulin E, 03 medical and health sciences, 0302 clinical medicine, Allergen, memory B cells, medicine, Immunology and Allergy, B cells, Sublingual Immunotherapy, biology, Germinal center, grass pollen allergy, medicine.disease, Isotype, Basophil activation, 030104 developmental biology, 1107 Immunology, biology.protein, IGe, Antibody, 030215 immunology

Abstract

BACKGROUND: Immunoglobulin E (IgE) are least abundant, tightly regulated and IgE producing B cells are rare. The cellular origin and evolution of IgE responses are poorly understood.OBJECTIVE: To investigate the cellular and clonal origin of IgE memory responses following mucosal allergen exposure by sublingual immunotherapy (SLIT).METHODS: In a randomized double-blind, placebo-controlled, time-course SLIT study, peripheral blood mononuclear cells (PBMCs) and nasal biopsies were collected from forty adults with seasonal allergic rhinitis at baseline, 4, 8, 16, 28 and 52 weeks. RNA was extracted from PBMCs, sorted B cells and nasal biopsies for VH repertoire sequencing. Moreover, monoclonal antibodies were derived from single B cell transcriptomes.RESULTS: Combining VH repertoire sequencing and single cell transcriptomics yielded direct evidence of a parallel boost of two clonally and functionally related B cell subsets of short-lived IgE+ plasmablasts and IgG+ memory B cells (termed IgGE). Mucosal grass pollen allergen exposure by SLIT resulted in highly diverse IgE and IgGE repertoires. These were extensively mutated and appeared relative stable as per heavy chain isotype, somatic hypermutations and clonal composition. Single IgGE + memory B cell and IgE+ pre-plasmablast transcriptomes encoded antibodies that were specific for major grass pollen allergens and were able to elicit basophil activation at very low allergen concentrations.CONCLUSION: For the first time, we have shown that upon mucosal allergen exposure, human IgE memory resides in allergen-specific IgG+ memory B cells. These rapidly switch isotype and expand into short-lived IgE+ plasmablasts and serve as a potential target for therapeutic intervention.

Published

2019

15. Immune Profiling of Human Gut-Associated Lymphoid Tissue Identifies a Role for Isolated Lymphoid Follicles in Priming of Region-Specific Immunity

Author

Søren Brunak, Bengt Johansson-Lindbom, Henrik Loft Jakobsen, Peter Bjørn Jørgensen, Lene Riis, Thomas M. Fenton, Ole Haagen Nielsen, Kristoffer Niss, Aida Habtezion, Samuel J S Rubin, William W. Agace, Julien Vandamme, Adam W Plumb, Clément Da Silva, and Urs M. Mörbe

Subjects

0301 basic medicine, Lymphoid Tissue, Immunology, High endothelial venules, Priming (immunology), Biology, Adaptive Immunity, Article, Immune profiling, 03 medical and health sciences, Peyer's Patches, 0302 clinical medicine, Immune system, Human gut, SDG 3 - Good Health and Well-being, Immunity, Immunology and Allergy, Animals, Humans, Lymphocytes, Intestinal Mucosa, Immunity, Mucosal, Microscopy, Confocal, Sequence Analysis, DNA, Acquired immune system, Flow Cytometry, Cell biology, Immunoglobulin A, Intestines, 030104 developmental biology, Infectious Diseases, Lymphatic system, Immunoglobulin M, Gastric Mucosa, 030220 oncology & carcinogenesis, Microscopy, Electron, Scanning

Abstract

The intestine contains some of the most diverse and complex immune compartments in the body. Here we describe a method for isolating human gut-associated lymphoid tissues (GALTs) that allows unprecedented profiling of the adaptive immune system in submucosal and mucosal isolated lymphoid follicles (SM-ILFs and M-ILFs, respectively) as well as in GALT-free intestinal lamina propria (LP). SM-ILF and M-ILF showed distinct patterns of distribution along the length of the intestine, were linked to the systemic circulation through MAdCAM-1+ high endothelial venules and efferent lymphatics, and had immune profiles consistent with immune-inductive sites. IgA sequencing analysis indicated that human ILFs are sites where intestinal adaptive immune responses are initiated in an anatomically restricted manner. Our findings position ILFs as key inductive hubs for regional immunity in the human intestine, and the methods presented will allow future assessment of these compartments in health and disease.

Published

2019

16. Allergen-specific IgG

Author

Ilka, Hoof, Veronique, Schulten, Janice A, Layhadi, Thomas, Stranzl, Lars H, Christensen, Sara, Herrera de la Mata, Grégory, Seumois, Pandurangan, Vijayanand, Claus, Lundegaard, Kristoffer, Niss, Anders, Lund, Johanne, Ahrenfeldt, Jens, Holm, Esther, Steveling, Hanisah, Sharif, Stephen R, Durham, Björn, Peters, Mohamed H, Shamji, and Peter S, Andersen

Subjects

Adult, Male, B-Lymphocytes, Double-Blind Method, Humans, Pollen, Rhinitis, Allergic, Seasonal, Female, Allergens, Immunoglobulin E, Immunologic Memory

Abstract

IgE is the least abundant immunoglobulin and tightly regulated, and IgE-producing B cells are rare. The cellular origin and evolution of IgE responses are poorly understood.The cellular and clonal origin of IgE memory responses following mucosal allergen exposure by sublingual immunotherapy (SLIT) were investigated.In a randomized double-blind, placebo-controlled, time course SLIT study, PBMCs and nasal biopsy samples were collected from 40 adults with seasonal allergic rhinitis at baseline and at 4, 8, 16, 28, and 52 weeks. RNA was extracted from PBMCs, sorted B cells, and nasal biopsy samples for heavy chain variable gene repertoire sequencing. Moreover, mAbs were derived from single B-cell transcriptomes.Combining heavy chain variable gene repertoire sequencing and single-cell transcriptomics yielded direct evidence of a parallel boost of 2 clonally and functionally related B-cell subsets of short-lived IgEFor the first time, we have shown that on mucosal allergen exposure, human IgE memory resides in allergen-specific IgG

Published

2019

17. Bow-tie motifs enable protein multifunctionality by connecting cellular processes in the interactome

Author

William W. Agace, Søren Brunak, Kirstine Belling, Jessica Xin Hu, Thorsten Joeris, Kristoffer Niss, and Cristina Gomez-Casado

Subjects

medicine.anatomical_structure, Computer science, Cell, medicine, Computational biology, Bow tie, Interactome

Abstract

(172/175 words) Cell type-specific protein interactomes are promising resources for the understanding of cell functionality and genetic perturbations in cellular states. However, while many low-and top-level aspects of interactome topology have been mapped, we still lack an understanding of the topological motifs at the intermediate level, where connectivity between cellular processes takes place. We combine conventional dendritic cell lineage 1 (cDC1)-specific expression data with a high-quality protein interactome, subsequently creating an information-rich cDC1-specifc interactome matrix that displays topological information on an unprecedented 36.7 million protein pairs at once. By dissecting the interactome-matrix, we reveal that the bow-tie motif is a major connector of cellular processes and an extremely widespread topology in the protein interactome. In aggregation, the bow-tie motifs form a scaffold within the interactome that hierarchically link cellular processes together. We further demonstrate that the bow-tie motif’s design can enable protein multifunction. Our generic approach allows a topological characterization and visualization of any large network, facilitating a more effective usage of community-produced interaction data, and is applicable to any cell type’s interactome.

Published

2018

18. Complete Topological Mapping of a Cellular Protein Interactome Reveals Bow-Tie Motifs as Ubiquitous Connectors of Protein Complexes

Author

Søren Brunak, Jessica X. Hjaltelin, Cristina Gomez-Casado, Kristoffer Niss, Thorsten Joeris, Kirstine Belling, and William W. Agace

Subjects

0301 basic medicine, Computer science, functional organization, Bow tie, Computational biology, Network topology, Models, Biological, Interactome, network topology, General Biochemistry, Genetics and Molecular Biology, Cellular protein, Mice, 03 medical and health sciences, 0302 clinical medicine, Protein Interaction Mapping, Animals, Humans, knot protein, lcsh:QH301-705.5, Topology (chemistry), bow-tie, Computational Biology, Proteins, biological networks, 030104 developmental biology, lcsh:Biology (General), network motifs, Topological mapping, Algorithms, 030217 neurology & neurosurgery, Function (biology), Biological network, Signal Transduction

Abstract

The network topology of a protein interactome is shaped by the function of each protein, making it a resource of functional knowledge in tissues and in single cells. Today, this resource is underused, as complete network topology characterization has proved difficult for large protein interactomes. We apply a matrix visualization and decoding approach to a physical protein interactome of a dendritic cell, thereby characterizing its topology with no prior assumptions of structure. We discover 294 proteins, each forming topological motifs called “bow-ties” that tie together the majority of observed protein complexes. The central proteins of these bow-ties have unique network properties, display multifunctional capabilities, are enriched for essential proteins, and are widely expressed in other cells and tissues. Collectively, the bow-tie motifs are a pervasive and previously unnoted topological trend in cellular interactomes. As such, these results provide fundamental knowledge on how intracellular protein connectivity is organized and operates. Niss et al. show that topological motifs called bow-ties create a scaffold within the cellular protein interactome that connects a majority of protein complexes. The central proteins of these motifs are found to be associated with multifunctionality and cellular essentiality, display unique network properties, and are expressed widely across cells and tissues.

Published

2020

19. Retinoic acid signaling in thymic epithelial cells regulates thymopoiesis

Author

Graham Anderson, Søren Brunak, Kerstin Wendland, Andrea J. White, Knut Kotarsky, Kristoffer Niss, William W. Agace, Katarzyna M. Sitnik, Johan Jendholm, Georg A. Holländer, Jose M. G. Izarzugaza, Aymeric Rivollier, and Nikita Y. H. Wu

Subjects

CD4-Positive T-Lymphocytes, Male, 0301 basic medicine, T cell, TEC, Immunology, education, Retinoic acid, Tretinoin, Thymus Gland, CD8-Positive T-Lymphocytes, Biology, Mice, 03 medical and health sciences, chemistry.chemical_compound, Gene expression, medicine, Animals, Homeostasis, Immunology and Allergy, Cell Lineage, Cell Proliferation, T-cell receptor, Cell Differentiation, Epithelial Cells, hemic and immune systems, Cell biology, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, chemistry, Female, Stem cell, tissues, CD8, Signal Transduction

Abstract

Despite the essential role of thymic epithelial cells (TEC) in T cell development, the signals regulating TEC differentiation and homeostasis remain incompletely understood. In this study, we show a key in vivo role for the vitamin A metabolite, retinoic acid (RA), in TEC homeostasis. In the absence of RA signaling in TEC, cortical TEC (cTEC) and CD80loMHC class IIlo medullary TEC displayed subset-specific alterations in gene expression, which in cTEC included genes involved in epithelial proliferation, development, and differentiation. Mice whose TEC were unable to respond to RA showed increased cTEC proliferation, an accumulation of stem cell Ag-1hi cTEC, and, in early life, a decrease in medullary TEC numbers. These alterations resulted in reduced thymic cellularity in early life, a reduction in CD4 single-positive and CD8 single-positive numbers in both young and adult mice, and enhanced peripheral CD8+ T cell survival upon TCR stimulation. Collectively, our results identify RA as a regulator of TEC homeostasis that is essential for TEC function and normal thymopoiesis.

Published

2018

20. Glycolytic repression and reduced GLP-1 secretion by active Farnesoid X Receptor in enteroendocrine L cells achieved via PKLR

Author

Søren Brunak and Kristoffer Niss

Subjects

medicine.anatomical_structure, Chemistry, Insulin, medicine.medical_treatment, Cell, medicine, Enteroendocrine cell, Glycolysis, Secretion, Farnesoid X receptor, Psychological repression, Pyruvate kinase, Cell biology

Abstract

SummaryRise in intestinal glucose increases GLP-1 secretion by enteroendocrine L cells. GLP-1, in turn, stimulates insulin secretion. Farnesoid X Receptor (FXR) represses this pathway by manipulating the L cell glycolysis, thus reducing insulin- and GLP-1 secretion. The mechanism by which FXR manipulates the L cell glycolysis is unclear. In this study, we construct an L cell specific protein-protein interactome and identify all significantly active protein complexes, inferred by co-expression scores, in FXR-activated and control L cells. Contrary to previous reports, we find extensive glycolytic enzyme activity in FXR-activated L cells. We present how FXR’s repression of the glycolytic enzyme, pyruvate kinase (PKLR), is causing the reduction in glycolytic activity. This mechanistic insight may aid development of drugs targeting the GLP-1 pathway.

Published

2018