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1. Intermittent PI3Kδ inhibition sustains anti-tumour immunity and curbs irAEs.

Author

Eschweiler, Simon, Ramírez-Suástegui, Ciro, Li, Yingcong, King, Emma, Chudley, Lindsey, Thomas, Jaya, Wood, Oliver, von Witzleben, Adrian, Jeffrey, Danielle, McCann, Katy, Simon, Hayley, Mondal, Monalisa, Wang, Alice, Dicker, Martina, Lopez-Guadamillas, Elena, Chou, Ting-Fang, Dobbs, Nicola, Essame, Louisa, Acton, Gary, Kelly, Fiona, Halbert, Gavin, Sacco, Joseph, Schache, Andrew, Shaw, Richard, McCaul, James, Paterson, Claire, Davies, Joseph, Brennan, Peter, Singh, Rabindra, Loadman, Paul, Wilson, William, Hackshaw, Allan, Seumois, Gregory, Okkenhaug, Klaus, Thomas, Gareth, Jones, Terry, Ay, Ferhat, Friberg, Greg, Vanhaesebroeck, Bart, Vijayanand, Pandurangan, Ottensmeier, Christian, and Kronenberg, Mitchell

Subjects
Adenosine, Animals, Antineoplastic Agents, Disease Models, Animal, Head and Neck Neoplasms, Humans, Immunotherapy, Mice, Phosphatidylinositol 3-Kinases, Quinolines, T-Lymphocytes, Regulatory
Abstract

Phosphoinositide 3-kinase δ (PI3Kδ) has a key role in lymphocytes, and inhibitors that target this PI3K have been approved for treatment of B cell malignancies1-3. Although studies in mouse models of solid tumours have demonstrated that PI3Kδ inhibitors (PI3Kδi) can induce anti-tumour immunity4,5, its effect on solid tumours in humans remains unclear. Here we assessed the effects of the PI3Kδi AMG319 in human patients with head and neck cancer in a neoadjuvant, double-blind, placebo-controlled randomized phase II trial (EudraCT no. 2014-004388-20). PI3Kδ inhibition decreased the number of tumour-infiltrating regulatory T (Treg) cells and enhanced the cytotoxic potential of tumour-infiltrating T cells. At the tested doses of AMG319, immune-related adverse events (irAEs) required treatment to be discontinued in 12 out of 21 of patients treated with AMG319, suggestive of systemic effects on Treg cells. Accordingly, in mouse models, PI3Kδi decreased the number of Treg cells systemically and caused colitis. Single-cell RNA-sequencing analysis revealed a PI3Kδi-driven loss of tissue-resident colonic ST2 Treg cells, accompanied by expansion of pathogenic T helper 17 (TH17) and type 17 CD8+ T (TC17) cells, which probably contributed to toxicity; this points towards a specific mode of action for the emergence of irAEs. A modified treatment regimen with intermittent dosing of PI3Kδi in mouse models led to a significant decrease in tumour growth without inducing pathogenic T cells in colonic tissue, indicating that alternative dosing regimens might limit toxicity.

Published
2022

2. Metabolic activation and colitis pathogenesis is prevented by lymphotoxin β receptor expression in neutrophils.

Author

Riffelmacher, Thomas, Giles, Daniel, Zahner, Sonja, Dicker, Martina, Andreyev, Alexander, McArdle, Sara, Perez-Jeldres, Tamara, van der Gracht, Esmé, Murray, Mallory, Hartmann, Nadine, Tumanov, Alexei, and Kronenberg, Mitchell

Subjects
Activation, Metabolic, Animals, Colitis, Dextran Sulfate, Disease Models, Animal, Disease Progression, Humans, Inflammatory Bowel Diseases, Lymphotoxin beta Receptor, Mice, Mice, Inbred C57BL, Mice, Knockout, Mitochondria, Neutrophils, Tumor Necrosis Factor Ligand Superfamily Member 14
Abstract

Inflammatory bowel disease is characterized by an exacerbated intestinal immune response, but the critical mechanisms regulating immune activation remain incompletely understood. We previously reported that the TNF-superfamily molecule TNFSF14 (LIGHT) is required for preventing severe disease in mouse models of colitis. In addition, deletion of lymphotoxin beta receptor (LTβR), which binds LIGHT, also led to aggravated colitis pathogenesis. Here, we aimed to determine the cell type(s) requiring LTβR and the mechanism critical for exacerbation of colitis. Specific deletion of LTβR in neutrophils (LTβRΔN), but not in several other cell types, was sufficient to induce aggravated colitis and colonic neutrophil accumulation. Mechanistically, RNA-Seq analysis revealed LIGHT-induced suppression of cellular metabolism, and mitochondrial function, that was dependent on LTβR. Functional studies confirmed increased mitochondrial mass and activity, associated with excessive mitochondrial ROS production and elevated glycolysis at steady-state and during colitis. Targeting these metabolic changes rescued exacerbated disease severity. Our results demonstrate that LIGHT signals to LTβR on neutrophils to suppress metabolic activation and thereby prevents exacerbated immune pathogenesis during colitis.

Published
2021

3. Bio-active lipids protect against immune-related adverse events due to immune checkpoint blockade therapy

Author

Saminathan, Priyanka, primary, Mathews, Ian T, additional, Henglin, Mir, additional, Liu, Mingyue, additional, Mercader, Kysha, additional, Chee, Serena J.D.W, additional, Campbell, Allison, additional, Tiwari, Saumya, additional, Watrous, Jeramie, additional, Dicker, Martina, additional, Dao, Khoi, additional, Najhawan, Mahan, additional, Quach, Lily, additional, Nguyen, Thien-Tu Catherine, additional, Nadig, Namratha, additional, Fang, Camille, additional, Vijayanand, Pandurangan, additional, Joosten, Leo A.B., additional, Decker, Roy, additional, Patel, Abijit, additional, Netea, Mihai, additional, Long, Tao, additional, Zheng, Pan, additional, Kronenburg, Mitchell, additional, Patel, Sandip Pravin, additional, Ottensmeier, Christian, additional, Kaech, Susan M, additional, Cheng, Susan, additional, Jain, Mohit, additional, and Sharma, Sonia, additional

Published
2023
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6. CD4+-mediated colitis in mice is independent of the GPR183 and GPR18 pathways.

Author

Dicker, Martina, Yingcong Li, Giles, Daniel A., Verstichel, Greet, Castelan, Viankail Cedillo, Ascui-Gac, Gabriel, Ting-Fang Chou, Perez-Jeldres, Tamara, Cheroutre, Hilde, and Kronenberg, Mitchell

Subjects
HYDROXYCHOLESTEROLS, COLITIS, INFLAMMATORY bowel diseases, GENOME-wide association studies, G protein coupled receptors, CROHN'S disease, INTESTINAL ischemia, ISCHEMIC colitis
Abstract

Colitis is characterized by an exacerbated intestinal immune response, but the genetic and other mechanisms regulating immune activation remain incompletely understood. In order to identify new pathways leading to colitis, we sought to identify genes with increased expression in the colons of patients that also are near loci identified by genome wide association studies (GWAS) associated with IBD risk. One such SNP, rs9557195 was of particular interest because it is within an intron of G-protein-coupled receptor (GPR) 183, known to be important for lymphocyte migration. Furthermore, this SNP is in close proximity to the gene encoding another G-protein coupled receptor, GPR18. Analyzing publicly available datasets, we found transcripts of GPR183 and GPR18 to be increased in colon biopsies from ulcerative colitis and Crohn’s disease patients, and GPR183 was even more increased in patients resistant to TNF treatment. Expression of both genes also was increased in mouse models of colitis. Therefore, our aim was to understand if increased expression of these GPRs in the intestine is related to disease severity in colitis models. Here we investigated the role of these receptors in the T cell transfer model and the dextran sulfate sodium model. In the T cell transfer model, GPR183 expression on donor T cells, as well as on other cell types in the Rag-/- recipients, was not essential for severe colitis induction. Furthermore, deficiency in Rag-/- mice for the enzyme that synthesizes a cholesterol metabolite that is a major ligand for GPR183 also did not affect disease. Similarly, lack of GPR18 expression in T cells or other cell types did not affect colitis pathogenesis in the T cell transfer or in the dextran sulfate sodium model. Therefore, despite increased expression of transcripts for these genes in the intestine during inflammation in humans and mice, they are not required for disease severity in mouse models of colitis induced by chemical injury or T cell cytokines, perhaps due to redundancy in mechanisms important for homing and survival of lymphocytes to the inflamed intestine. [ABSTRACT FROM AUTHOR]

Published
2022
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7. A context-independent N-glycan signal targets the misfolded extracellular domain of Arabidopsis STRUBBELIG to endoplasmic-reticulum-associated degradation

Author

Hüttner, Silvia, Veit, Christiane, Vavra, Ulrike, Schoberer, Jennifer, Dicker, Martina, Maresch, Daniel, Altmann, Friedrich, and Strasser, Richard

Subjects
glycoprotein, Proteasome Endopeptidase Complex, Protein Folding, SUB, STRUBBELIG, glycosylation, Endo H, endoglycosidase H, PDI, protein disulfide isomerase, PNGase, peptide-N-glycosidase, Arabidopsis, ΔXTFT, Nicotiana benthamiana glycosylation mutant deficient in β1,2-xylosyltransferase and core α1,3-fucosyltransferase, endoplasmic-reticulum-associated degradation (ERAD), CNX/CRT, calnexin/calreticulin, Protein Sorting Signals, RIPA, radio immunoprecipitation assay, BRI1, brassinosteroid insensitive 1, ERAD, ER-associated degradation, ER, endoplasmic reticulum, MS, Murashige and Skoog, ERQC, ER quality control, Alkaloids, glycobiology, Polysaccharides, cell biology, protein misfolding, mRFP, monomeric RFP, MRH, mannose 6-phosphate receptor homology, Arabidopsis Proteins, Receptor Protein-Tyrosine Kinases, CPY*, mutant variant of yeast carboxypeptidase Y, Endoplasmic Reticulum-Associated Degradation, PGC, porous graphitic carbon, Plants, Genetically Modified, Protein Structure, Tertiary, endoplasmic reticulum, Carbohydrate Sequence, protein degradation, Research Article, SUBEX, STRUBBELIG extracellular domain
Abstract

N-glycosylation of proteins plays an important role in the determination of the fate of newly synthesized glycoproteins in the endoplasmic reticulum (ER). Specific oligosaccharide structures recruit molecular chaperones that promote folding or mannose-binding lectins that assist in the clearance of improperly-folded glycoproteins by delivery to ER-associated degradation (ERAD). In plants, the mechanisms and factors that recognize non-native proteins and sort them to ERAD are poorly understood. In the present study, we provide evidence that a misfolded variant of the STRUBBELIG (SUB) extracellular domain (SUBEX-C57Y) is degraded in a glycan-dependent manner in plants. SUBEX-C57Y is an ER-retained glycoprotein with three N-glycans that is stabilized in the presence of kifunensine, a potent inhibitor of α-mannosidases. Stable expression in Arabidopsis thaliana knockout mutants revealed that SUBEX-C57Y degradation is dependent on the ER lectin OS9 and its associated ERAD factor SEL1L. SUBEX-C57Y was also stabilized in plants lacking the α-mannosidases MNS4 and MNS5 that generate a terminal α1,6-linked mannose on the C-branch of N-glycans. Notably, the glycan signal for degradation is not constrained to a specific position within SUBEX-C57Y. Structural analysis revealed that SUBEX-C57Y harbours considerable amounts of Glc1Man7GlcNAc2 N-glycans suggesting that the ER-quality control processes involving calnexin/calreticulin (CNX/CRT) and ERAD are tightly interconnected to promote protein folding or disposal by termination of futile folding attempts., The misfolded extracellular domain of a specific leucine-rich repeat receptor-like kinase from Arabidopsis thaliana serves as a novel plant ERAD substrate that is degraded in a glycan-dependent way by the OS9–SEL1L–HRD1 complex.

Published
2014

8. Transient glyco-engineering to produce recombinant IgA1 with defined N-and O-glycans in plants

Author

Dicker, Martina, Tschofen, Marc, Maresch, Daniel, König, Julia, Juarez, Paloma, Orzaez, Diego, Altmann, Friedrich, Steinkellner, Herta, and Strasser, Richard

Subjects
O-glycosylation, Plant-made pharmaceuticals, Monomeric IgA, Recombinant glycoprotein, fungi, Protein glycosylation, BIOQUIMICA Y BIOLOGIA MOLECULAR, food and beverages, Plant Science, N-glycosylation, Antibody, Original Research, Glyco-engineering
Abstract

[EN] The production of therapeutic antibodies to combat pathogens and treat diseases, such as cancer is of great interest for the biotechnology industry. The recent development of plant-based expression systems has demonstrated that plants are well-suited for the production of recombinant monoclonal antibodies with defined glycosylation. Compared to immunoglobulin G (IgG), less effort has been undertaken to express immunoglobulin A (IgA), which is the most prevalent antibody class at mucosal sites and a promising candidate for novel recombinant biopharmaceuticals with enhanced anti-tumor activity. Here, we transiently expressed recombinant human IgA1 against the VP8* rotavirus antigen in glyco-engineered XT/FT Nicotiana benthamiana plants. Mass spectrometric analysis of IgA1 glycopeptides revealed the presence of complex biantennary N-glycans with terminal N-acetylglucosamine present on the N-glycosylation site of the CH2 domain in the IgA1 alpha chain. Analysis of the peptide carrying nine potential O-glycosylation sites in the IgA1 alpha chain hinge region showed the presence of plant-specific modifications including hydroxyproline formation and the attachment of pentoses. By co-expression of enzymes required for initiation and elongation of human O-glycosylation it was possible to generate disialylated mucin-type core 1 O-glycans on plant-produced IgA1. Our data demonstrate that XT/FT N. benthamiana plants can be engineered toward the production of recombinant IgA1 with defined human-type Nand O-linked glycans., This work was supported by a grant from the Austrian Federal Ministry of Transport, Innovation and Technology (bmvit) and Austrian Science Fund (FWF): TRP 242-B20 and by the Austrian Research Promotion Agency (Laura Bassi Center of Expertise "Plant produced Bio-Pharmaceuticals" Grant Nr. 822757).

Published
2016

9. Transient glyco-engineering to produce recombinant IgA1 with defined N-and O-glycans in plants

Author

Universitat Politècnica de València. Instituto Universitario Mixto de Biología Molecular y Celular de Plantas - Institut Universitari Mixt de Biologia Molecular i Cel·lular de Plantes, Bundesministerium für Verkehr, Innovation und Technologie, Austria, Austrian Science Fund, Österreichische Forschungsförderungsgesellschaft, Dicker, Martina, Tschofen, Marc, Maresch, Daniel, Koenig, Julia, Juarez, Paloma, Orzáez Calatayud, Diego Vicente, Altmann, Friedrich, Steinkellner, Herta, Strasser, Richard, Universitat Politècnica de València. Instituto Universitario Mixto de Biología Molecular y Celular de Plantas - Institut Universitari Mixt de Biologia Molecular i Cel·lular de Plantes, Bundesministerium für Verkehr, Innovation und Technologie, Austria, Austrian Science Fund, Österreichische Forschungsförderungsgesellschaft, Dicker, Martina, Tschofen, Marc, Maresch, Daniel, Koenig, Julia, Juarez, Paloma, Orzáez Calatayud, Diego Vicente, Altmann, Friedrich, Steinkellner, Herta, and Strasser, Richard

Abstract

[EN] The production of therapeutic antibodies to combat pathogens and treat diseases, such as cancer is of great interest for the biotechnology industry. The recent development of plant-based expression systems has demonstrated that plants are well-suited for the production of recombinant monoclonal antibodies with defined glycosylation. Compared to immunoglobulin G (IgG), less effort has been undertaken to express immunoglobulin A (IgA), which is the most prevalent antibody class at mucosal sites and a promising candidate for novel recombinant biopharmaceuticals with enhanced anti-tumor activity. Here, we transiently expressed recombinant human IgA1 against the VP8* rotavirus antigen in glyco-engineered XT/FT Nicotiana benthamiana plants. Mass spectrometric analysis of IgA1 glycopeptides revealed the presence of complex biantennary N-glycans with terminal N-acetylglucosamine present on the N-glycosylation site of the CH2 domain in the IgA1 alpha chain. Analysis of the peptide carrying nine potential O-glycosylation sites in the IgA1 alpha chain hinge region showed the presence of plant-specific modifications including hydroxyproline formation and the attachment of pentoses. By co-expression of enzymes required for initiation and elongation of human O-glycosylation it was possible to generate disialylated mucin-type core 1 O-glycans on plant-produced IgA1. Our data demonstrate that XT/FT N. benthamiana plants can be engineered toward the production of recombinant IgA1 with defined human-type Nand O-linked glycans.

Published
2016

13. Impact of the grapevine-shoot extract vineatrol®30 and its constituents on human topoisomerases and DNA integrity

Author

Dicker, Martina

Abstract

Resveratrol (3, 4`, 5-Trihydroxystilben) wirkt präventiv in unterschiedlichen Stadien der Karzinogenese. Der Weinrebensprösslingsextrakt Vineatrol®30, der bereits als Nahrungsergänzungsmittel zugelassen ist, besteht zu einem Großteil aus Resveratrol sowie Resveratrol Oligo-und Polymeren. In einer aktuellen Studie wurde gezeigt, dass Resveratrol sowohl DNA-Doppelstrangbrüche induziert, als auch die katalytische Aktivität der humanen Topoisomerase IIα hemmt (Leone et al., 2010). Ziel der vorliegenden Arbeit war es, die Wirkung von Resveratrol auf humane Topoisomerase IIα sowie auf die Integrität der DNA zu bestätigen. Außerdem sollte untersucht werden, ob der Extrakt Vineatrol®30 die katalytische Aktivität der humanen Topoisomerase IIα hemmt, oder ob dieser die Bildung von ternären Komplexen mit dem Enzym und der DNA induziert, und somit als Topoisomerase-Gift wirkt. Des Weiteren sollten die bioaktiven Inhaltsstoffe bezüglich des Effekts auf Topoisomerase II in Vineatrol®30 identifiziert werden. Mittels Comet Assay konnte gezeigt werden, dass Resveratrol in den Konzentrationen von 0,1 bis 200 µM mit einer Inkubationszeit von einer Stunde keine DNA-Strangbrüche in der humanen Vulvakarzinomzelllinie A-431 induziert, obwohl die Tendenz dazu in der höchsten Testkonzentration feststellbar war. Des Weiteren hemmte Resveratrol die katalytische Aktivität der humanen Topoisomerase IIα mit einer minimalen Inhibierungskonzentration (MIC) von 50 µM, wie mit dem zellfreien Dekatenierungsassay gezeigt werden konnte. Der Extrakt Vineatrol®30 hemmte die katalytische Aktivität der humanen Topoisomerase IIα mit einer MIC von 5 µg/ml. Ausgewählte Inhaltsstoffe des Extrakts (Hopeaphenol, r-2-Viniferin und ε-Viniferin) hemmten die katalytische Aktivität des Enzyms in einem MIC-Bereich von 10 bis 25 µM, wobei sich r-2-Viniferin als die potenteste Testsubstanz in einem zellfreien System herausstellte. Außerdem wirkt Vineatrol®30 wohl nicht als Topoisomerase II-Gift in A-431-Zellen, da keine ternären Enzym/DNA/ Vineatrol®30 - Komplexe mittels ICE-Bioassays nachgewiesen werden konnten. Abschließend konnte gezeigt werden, dass Resveratrol wohl keine signifikanten DNA- Strangbrüche in den getesteten Konzentrationen induziert, aber die die katalytische Aktivität der humanen Topoisomerase IIα durch diese Substanz gehemmt wird. Der Weinrebensprösslingsextrakt Vineatrol®30 wirkt als starker Inhibitor des Enzyms, obwohl keine enzymvermittelte DNA-Schädigung, als Folge der Bildung permanenter anstatt transienter DNA-Doppelstrangbrüche, der Topoisomerase-Giftung, festgestellt werden konnte, wie es bei den stärksten Topoisomerase II-Krebstherapeutika der Fall ist., Resveratrol (3, 4`, 5-trihydroxystilbene) has shown to exhibit beneficial effects in the prevention of different stages of carcinogenesis. The grapevine-shoot extract vineatrol®30, admitted as a dietary supplement, contains a high amount of resveratrol as well as resveratrol oligomers and –polymers. Recently, it was shown that resveratrol induces DNA double strand breaks and inhibits the catalytic activity of human topoisomerase IIα (Leone et al., 2010). The aim of the current study was firstly to confirm the effect of resveratrol on human topoisomerase IIα and DNA integrity. Secondly, it should be determined whether the extract vineatrol®30 acts as an inhibitor of the catalytic activity of human topoisomerase II, or as a poison by the generation of ternary complexes with the enzyme and DNA. Thirdly, the bioactive constituents in vineatrol®30 concerning the effect on topoisomerase II should be identified. Using the Comet assay, it was shown that resveratrol exposure (0.1-200 µM) for one hour might not be capable of inducing DNA strand breaks in the human vulva carcinoma cell line A 431 although the tendency is observed with the highest tested concentration. Furthermore, resveratrol inhibits the catalytic activity of human topoisomerase IIα with a minimal inhibition concentration (MIC) of 50 µM as tested with the cell-free Decatenation assay. The extract vineatrol®30 was shown to inhibit the catalytic activity of topoisomerase IIα with a MIC of 5 µg/ml. Selected extract-constituents (hopeaphenol, r-2-viniferin and ε-viniferin) inhibited the catalytic activity of the enzyme within the range of MICs between 10 and 25 µM with r-2-viniferin as the most potent test-substance in a cell-free system. Furthermore, it was concluded that vineatrol®30 does not poison human topoisomerase IIα and IIβ in A 431 cells as no ternary enzyme/DNA/vineatrol®30-complexes were detected using the ICE-bioassay. In conclusion, it was shown that resveratrol might not be capable of significantly inducing DNA strand breaks in the tested concentrations, but inhibits the catalytic activity of human topoisomerase IIα. The grapevine-shoot extract vineatrol®30 acts as strong inhibitor of the enzyme, but might not induce enzyme-mediated DNA-damage by the generation of permanent instead of transient DNA double strand breaks, topoisomerase-poisoning, as performed by the most effective topoisomerase II-targeting drugs applied for cancer therapy.

Published
2012
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15. Reduced paucimannosidic N-glycan formation by suppression of a specific β-hexosaminidase from Nicotiana benthamiana.

Author

Shin, Yun‐Ji, Castilho, Alexandra, Dicker, Martina, Sádio, Flavio, Vavra, Ulrike, Grünwald‐Gruber, Clemens, Kwon, Tae‐Ho, Altmann, Friedrich, Steinkellner, Herta, and Strasser, Richard

Subjects
GLYCANS, HEXOSAMINIDASE, NICOTIANA benthamiana, PLANT proteins, GLYCOPROTEINS
Abstract

Plants are attractive hosts for the production of recombinant glycoproteins for therapeutic use. Recent advances in glyco-engineering facilitate the elimination of nonmammalian-type glycosylation and introduction of missing pathways for customized N-glycan formation. However, some therapeutically relevant recombinant glycoproteins exhibit unwanted truncated (paucimannosidic) N-glycans that lack Glc NAc residues at the nonreducing terminal end. These paucimannosidic N-glycans increase product heterogeneity and may affect the biological function of the recombinant drugs. Here, we identified two enzymes, β-hexosaminidases ( HEXOs) that account for the formation of paucimannosidic N-glycans in Nicotiana benthamiana, a widely used expression host for recombinant proteins. Subcellular localization studies showed that HEXO1 is a vacuolar protein and HEXO3 is mainly located at the plasma membrane in N. benthamiana leaf epidermal cells. Both enzymes are functional and can complement the corresponding HEXO-deficient Arabidopsis thaliana mutants. In planta expression of HEXO3 demonstrated that core α1,3-fucose enhances the trimming of Glc NAc residues from the Fc domain of human IgG. Finally, using RNA interference, we show that suppression of HEXO3 expression can be applied to increase the amounts of complex N-glycans on plant-produced human α1-antitrypsin. [ABSTRACT FROM AUTHOR]

Published
2017
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16. The transmembrane domain of N –acetylglucosaminyltransferase I is the key determinant for its Golgi subcompartmentation

Author

Schoberer, Jennifer, primary, Liebminger, Eva, additional, Vavra, Ulrike, additional, Veit, Christiane, additional, Castilho, Alexandra, additional, Dicker, Martina, additional, Maresch, Daniel, additional, Altmann, Friedrich, additional, Hawes, Chris, additional, Botchway, Stanley W., additional, and Strasser, Richard, additional

Published
2014
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19. Linoleoyl-lysophosphatidylcholine suppresses immune-related adverse events due to immune checkpoint blockade.

Author

Mathews IT, Saminathan P, Henglin M, Liu M, Nadig N, Fang C, Mercader K, Chee SJ, Campbell AM, Patel AA, Tiwari S, Watrous JD, Ramesh K, Dicker M, Dao K, Meyer MA, Jousilahti P, Havulinna AS, Niiranen T, Salomaa V, Joosten LAB, Netea MG, Zheng P, Kronenberg M, Patel SP, Gutkind JS, Ottensmeier C, Long T, Kaech SM, Hedrick CC, Cheng S, Jain M, and Sharma S

Abstract

Immune related adverse events (irAEs) after immune checkpoint blockade (ICB) therapy occur in a significant proportion of cancer patients. To date, the circulating mediators of ICB-irAEs remain poorly understood. Using non-targeted mass spectrometry, here we identify the circulating bio-active lipid linoleoyl-lysophosphatidylcholine (LPC 18:2) as a modulator of ICB-irAEs. In three independent human studies of ICB treatment for solid tumor, loss of circulating LPC 18:2 preceded the development of severe irAEs across multiple organ systems. In both healthy humans and severe ICB-irAE patients, low LPC 18:2 was found to correlate with high blood neutrophilia. Reduced LPC 18:2 biosynthesis was confirmed in preclinical ICB-irAE models, and LPC 18:2 supplementation in vivo suppressed neutrophilia and tissue inflammation without impacting ICB anti-tumor response. Results indicate that circulating LPC 18:2 suppresses human ICB-irAEs, and LPC 18:2 supplementation may improve ICB outcomes by preventing severe inflammation while maintaining anti-tumor immunity.

Published
2024
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20. CD4 + -mediated colitis in mice is independent of the GPR183 and GPR18 pathways.

Author

Dicker M, Li Y, Giles DA, Verstichel G, Castelan VC, Ascui-Gac G, Chou TF, Perez-Jeldres T, Cheroutre H, and Kronenberg M

Subjects
Mice, Humans, Animals, Dextran Sulfate adverse effects, Mice, Inbred C57BL, Disease Models, Animal, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, CD4-Positive T-Lymphocytes metabolism, Genome-Wide Association Study, Colitis chemically induced, Colitis genetics
Abstract

Colitis is characterized by an exacerbated intestinal immune response, but the genetic and other mechanisms regulating immune activation remain incompletely understood. In order to identify new pathways leading to colitis, we sought to identify genes with increased expression in the colons of patients that also are near loci identified by genome wide association studies (GWAS) associated with IBD risk. One such SNP, rs9557195 was of particular interest because it is within an intron of G-protein-coupled receptor (GPR) 183 , known to be important for lymphocyte migration. Furthermore, this SNP is in close proximity to the gene encoding another G-protein coupled receptor, GPR18 . Analyzing publicly available datasets, we found transcripts of GPR183 and GPR18 to be increased in colon biopsies from ulcerative colitis and Crohn's disease patients, and GPR183 was even more increased in patients resistant to TNF treatment. Expression of both genes also was increased in mouse models of colitis. Therefore, our aim was to understand if increased expression of these GPRs in the intestine is related to disease severity in colitis models. Here we investigated the role of these receptors in the T cell transfer model and the dextran sulfate sodium model. In the T cell transfer model, GPR183 expression on donor T cells, as well as on other cell types in the Rag -/- recipients, was not essential for severe colitis induction. Furthermore, deficiency in Rag -/- mice for the enzyme that synthesizes a cholesterol metabolite that is a major ligand for GPR183 also did not affect disease. Similarly, lack of GPR18 expression in T cells or other cell types did not affect colitis pathogenesis in the T cell transfer or in the dextran sulfate sodium model. Therefore, despite increased expression of transcripts for these genes in the intestine during inflammation in humans and mice, they are not required for disease severity in mouse models of colitis induced by chemical injury or T cell cytokines, perhaps due to redundancy in mechanisms important for homing and survival of lymphocytes to the inflamed intestine., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Dicker, Li, Giles, Verstichel, Castelan, Ascui-Gac, Chou, Perez-Jeldres, Cheroutre and Kronenberg.)

Published
2022
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