Project description:Rheumatoid arthritis (RA) is a heterogeneous disease with clinical and biological polymorphisms. However, little is known about baseline molecular variations among individual RA patients. The purpose of this study was to address this issue using F2 intercross mice generated from arthritis-prone BALB/c and arthritis-resistant DBA/1 mice deficient for interleukin 1 receptor antagonist (Il1rn). Two distinct subpopulations of arthritic mice were identified in the 38 mice studied. One subgroup of diseased mice was characterized by myeloid cell dominant inflammation, whereas the other was mainly associated with increased anti-apoptotic activities of inflammatory cells. Experiment Overall Design: Thirteen F2 mice, 18 with arthritis and 18 without, were included in this study. Total RNAs were extracted from individual spleens for Affymmetrix mouse genome array analysis. Normalized data were hierarchically clustered to identify subpopulations of arthritic mice.

Project description:Rheumatoid arthritis (RA) is a heterogeneous disease with clinical and biological polymorphisms. However, little is known about baseline molecular variations among individual RA patients. The purpose of this study was to address this issue using F2 intercross mice generated from arthritis-prone BALB/c and arthritis-resistant DBA/1 mice deficient for interleukin 1 receptor antagonist (Il1rn). Two distinct subpopulations of arthritic mice were identified in the 38 mice studied. One subgroup of diseased mice was characterized by myeloid cell dominant inflammation, whereas the other was mainly associated with increased anti-apoptotic activities of inflammatory cells. Keywords: disease state analysis

Project description:IL1RN Mutations & Deficiency of Interleukin-1 Receptor Antagonist

Project description:The objective of this study was to test the novel non-steroidal mineralocorticoid receptor antagonist (MRA) finerenone as a monotherapy in a preclinical Duchenne muscular dystrophy (DMD) model. Microarray was used to detail gene expression differences in ventricular heart tissue from finerenone-treated dystrophin-deficient, utrophin-haploinsufficient Het (utrn+/−; mdx) mice versus untreated Het mice.

Project description:Interleukin-10 (IL-10) is a pleiotropic anti-inflammatory cytokine produced and sensed by most hematopoietic cells. Genome wide association studies and experimental animal models point at a central role of the IL-10 axis in Inflammatory Bowel Diseases. Here we investigated the importance of intestinal macrophage production of IL-10 and their IL-10 exposure, as well as the existence of an IL-10-based autocrine regulatory loop in the gut. Specifically, we generated mice harboring IL-10 or IL-10 receptor (IL-10R?) mutations in intestinal lamina propria-resident chemokine receptor CX3CR1hi-expressingmacrophages. We found macrophage-derived IL-10 dispensable for gut homeostasis and maintenance of colonic T regulatory cells. In contrast, loss of IL-10 receptor expression impaired the critical conditioning of these monocyte-derived macrophages, but resulted in spontaneous development of severe colitis. Collectively, our results highlight IL-10 as a critical homeostatic macrophage-conditioning factor in the colon and define intestinal CX3CR1hi macrophages as a decisive factor that determines gut health or inflammation. Microarray of resident macrophages sorted from colons of Interleukin-10 deficeint mice and macrophage-restricted interleukin-10 receptor deficient mice versus colonic resident macrophages of wild type mice

Project description:Hypothalamic neurons expressing Agouti-related peptide (AgRP) are critical for initiating food intake, but druggable biochemical pathways that control this response remain elusive. Thus, genetic ablation of insulin or leptin signaling in AgRP neurons is predicted to reduce satiety but fails to do so. FoxO1 is a shared mediator of both pathways, and its inhibition is required to induce satiety. Accordingly, FoxO1 ablation in AgRP neurons of mice results in reduced food intake, leanness, improved glucose homeostasis, and increased sensitivity to insulin and leptin. Expression profiling of flow-sorted FoxO1-deficient AgRP neurons identifies G-protein-coupled receptor Gpr17 as a FoxO1 target whose expression is regulated by nutritional status. Intracerebroventricular injection of Gpr17 agonists induces food intake, whereas Gpr17 antagonist cangrelor curtails it. These effects are absent in Agrp-Foxo1 knockouts, suggesting that pharmacological modulation of this pathway has therapeutic potential to treat obesity. We used microarrays to detail the change of gene expression in AgRP neurons after knocking out FoxO1. AgRP neurons from control and KO mice were collected by FACS. Gene expression was analyzed by microarray.

Project description:Autoimmune arthritis was induced in BALB/c mice with three consecutive PG-injections. B cells were affinity purified from arthritic and contol (adjuvant injected - non-arthritic) mice and isolated total RNA samples were analyzed on microarray platforms. Several hundred disease-associated gene expression changes were detected in B cells

Project description:We determined the global expression profile of DNAM-1+ and DNAM-1- NK cell purified by flow cytometry from 6 different groups of C57BL/6 WT mice. Natural killer (NK) cells comprise a heterogeneous population of cells important for pathogen defense and cancer surveillance. However, the functional significance of this diversity is not fully understood. Here, we demonstrate through transcriptional profiling and functional studies that the activating receptor DNAM-1 (CD226) identifies two distinct NK cell functional subsets: DNAM-1+ and DNAM-1- NK cells. DNAM-1+ NK cells have enhanced Interleukin 15 signaling, proliferate vigorously and produce high levels of inflammatory cytokines. By contrast, DNAM-1- NK cells that differentiate from DNAM-1+ NK cells, have greater expression of NK cell receptor related genes and are higher producers of chemokines. Together our findings highlight the existence of two distinct effector programs in innate lymphocytes controlled through DNAM-1 expression. NK1.1+NKp46+CD3- DNAM-1+ and DNAM-1- NK cell were purified by flow cytometry from 6 different groups of C57BL/6 WT mice and total RNA were extracted

Project description:Rheumatoid arthritis (RA), one of the most common polygenic diseases, is characterized by a chronic, progressive inflammation mainly in joints and has an unknown etiology. Numerous studies have revealed the significance of cytokines TNF and IL-1 in the onset and progression of RA. Due to the complexity of interactions among different cytokines and immune cells, little is known about the precise molecular mechanisms underlying RA. In this study, oligonucleotide microarray analysis and a mouse model of RA, IL-1 receptor antagonist deficient mice were used to address this issue. Two hundred and ninety transcripts were found to be dysregulated greater than or equal to 2-fold in the diseased mice. Phase-specific gene expression changes were identified, including early increase and late decrease of heat shock protein coding genes and Cyr61. Moreover, common gene expression changes were also observed, especially the upregulation of paired-Ig-like receptor A (Pira) in both early and late phases of arthritis. We conclude that common and distinct gene expression change patterns that were identified globally may represent novel opportunities for better control of RA through early diagnosis and development of alternative therapeutic strategies. Experiment Overall Design: Six wild-type and 6 Il1rn deficient BALB/c mice at 1 month and 4 month (3 for each time point) were used for microarray analysis of splenic gene expression profiling.

Project description:Inflammation Impacts Androgen Receptor Signaling in Basal Prostate Stem Cells Through Interleukin 1 Receptor Antagonist