AI Article Synopsis
- Chronic spontaneous urticaria (CSU) is a rare and challenging skin condition characterized by itchy hives, primarily driven by mast cell activation through the IgE receptor, with limited treatment options including antihistamines and omalizumab.
- * The study aimed to model CSU's disease mechanisms using advanced technology, incorporating systems biology and machine learning to analyze the effectiveness of current and potential therapies.
- * Results showed that different therapies, particularly anti-IgE and Bruton tyrosine kinase inhibitors, directly affect mast cell biology, while others like anti-interleukins modulate adaptive immunity, enhancing understanding of treatment strategies for CSU.
Article Abstract
Background: Chronic spontaneous urticaria (CSU) is a rare, heterogeneous, severely debilitating, and often poorly controlled skin disease resulting in an itchy eruption that can be persistent. Antihistamines and omalizumab, an anti-IgE mAb, are the only licensed therapies. Although CSU pathogenesis is not yet fully understood, mast cell activation through the IgE:high-affinity IgE receptor (FcεRI) axis appears central to the disease process.
Objective: We sought to model CSU pathophysiology and identify in silico the mechanism of action of different CSU therapeutic strategies currently in use or under development.
Methods: Therapeutic performance mapping system technology, based on systems biology and machine learning, was used to create a CSU interactome validated with gene expression data from patients with CSU and a CSU model that was used to evaluate CSU pathophysiology and the mechanism of action of different therapeutic strategies.
Results: Our models reflect the known role of mast cell activation as a central process of CSU pathophysiology, as well as recognized roles for different therapeutic strategies in this and other innate and adaptive immune processes. They also allow determining similarities and differences between them; anti-IgE and Bruton tyrosine kinase inhibitors play a more direct role in mast cell biology through abrogation of FcεRI signaling activity, whereas anti-interleukins and anti-Siglec-8 have a role in adaptive immunity modulation.
Conclusion: In silico CSU models reproduced known CSU and therapeutic strategies features. Our results could help advance understanding of therapeutic mechanisms of action and further advance treatment research by patient profile.
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| http://dx.doi.org/10.1016/j.jaci.2022.12.809 | DOI Listing |
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