Abstract 618: Hypoxia Inducible Factor 1a Stabilization in Autosomal Dominant Hyper IgE Syndrome Fibroblasts Rescues Impaired Ability to Support Angiogenesis

Abstract

Background: Autosomal dominant Hyper-IgE syndrome (AD-HIES) is a rare primary immunodeficiency caused by dominant negative mutations in signal transducer and activator of transcription 3 (STAT3 ) , a mediator of widespread physiological processes. It is characterized by dermatitis, recurrent infections, elevated IgE, poor post-surgical healing, and connective tissue abnormalities. How STAT3 deficiency leads to this phenotype, however, is not known. Current treatment options are limited to antimicrobials for infection control. The aim of this study was to investigate which of STAT3’s many functions are dis-regulated in AD-HIES, and where potential targets for therapy may lie. Methods: We used skin fibroblasts (SF) from 3 AD-HIES patients and 3 normal volunteers. To evaluate potentially affected pathways, we utilized RNA- Seq and subsequent Gene Set Enrichment (GSEA) and pathway analysis (Pathway Studio, GeneGo Metacore). Endothelial cell tube formation assay was used to assess ability of AD-HIES SFs to support angiogenesis. Results: GSEA and pathway analysis showed deficiencies in signaling pathways linked to wound healing, extracellular matrix remodeling and angiogenesis including targets of Hypoxia Inducible Factor 1a (HIF1a) (P values for enrichments < 0.001) . Therefore, we hypothesized that AD-HIES SFs have impaired ability to support angiogenesis due to deficient Hif1a-dependent secretion of matrix proteases and growth factors. Indeed, AD-HIES SF secreted up to 5 times less matrix metalloprotease 1, 3, and 9, placental growth factor and fibroblast growth factors 1 and 2 (Luminex Multiplex, n=3-9, P<0.05). Culture medium from AD-HIES SFs failed to fully support tube formation by endothelial cells resulting in lower number of junctions, meshes, and total tubule length (n=6, P<0.005). Stabilization of Hif1a in AD-HIES SFs by prolyl hydroxylase inhibitor dimethyl fumarate restored its transcriptional activity leading to increased number of junctions, meshes, and tubule length (n=12, P<0.05) Conclusion: AD-HIES SFs have deficiencies in pro-angiogenic signaling pathways that lead to decreased growth factor secretion and angiogenesis. Stabilization of HIF1a corrects this deficiency and is an enticing target for future therapy.