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https://www.coltonconsortium.org/projects/inhibiting-netosis-with-nuclear-penetrating-antibodies/
Repurposing nuclear-penetrating autoantibodies from lupus and scleroderma patients as potent, safe inhibitors of pathogenic NETosis.
https://www.coltonconsortium.org/projects/rationally-designed-allergy-vaccines/
Designing synthetic antigens that reprogram allergic immune memory toward durable, healthy responses — moving precision allergy vaccines toward the clinic.
https://www.coltonconsortium.org/projects/small-molecule-strategies-to-induce-antigen-specific-b-cell-tolerance/
Developing novel multivalent small molecules that selectively silence or eliminate the autoantibody-producing B cells driving autoimmune disease.
https://www.coltonconsortium.org/projects/ai-simulated-in-silico-humans-a-new-paradigm-for-modeling-autoimmunity/
Building AI-powered digital avatars that simulate each patient's immune system to predict therapy response and accelerate precision immunotherapy development.
https://www.coltonconsortium.org/projects/understanding-the-therapeutic-potential-of-a-novel-ige-receptor/
Characterizing a newly discovered IgE receptor to develop it into a drug that clears circulating IgE and treats allergic diseases.
https://www.coltonconsortium.org/projects/development-of-therapeutic-bispecific-antibodies-for-tuft-cell-associated-allergic-disease/
Developing T cell-redirecting bispecific antibodies to selectively eliminate tuft cells and break the cycle of Type 2 inflammation in CRSwNP.
https://www.coltonconsortium.org/projects/defining-endotypes-in-hidradenitis-suppurativa-to-improve-treatment/
Using spatial transcriptomics to map distinct HS disease endotypes and identify targeted therapeutic strategies for this underserved inflammatory skin disease.
https://www.coltonconsortium.org/projects/developing-a-non-invasive-biomarker-test-to-classify-lupus-nephritis/
Identifying DNA methylation signatures in blood and urine as non-invasive biomarkers to classify lupus nephritis and guide treatment without repeated biopsies.
https://www.coltonconsortium.org/projects/creating-insulin-producing-beta-cells-that-resist-autoimmune-destruction/
Engineering TET2-deficient beta cells that resist autoimmune attack to create replacement cell therapies for type 1 diabetes.
https://www.coltonconsortium.org/projects/developing-a-molecular-microscope-for-celiac-disease/
Developing an IFNγ-based molecular microscope to assess celiac disease activity and response to treatment without relying solely on diagnostic biopsies.