Autosomal Dominant hyper-IgE Syndrome Patients Research Articles

Generation of human induced pluripotent stem cell lines (NIHTVBi011-A, NIHTVBi012-A, NIHTVBi013-A) from autosomal dominant Hyper IgE syndrome (AD-HIES) patients carrying STAT3 mutation.

Autosomal dominant Hyper IgE syndrome (AD-HIES), a rare immune deficiency affecting fewer than one per million people, is caused by heterozygous deleterious mutations in STAT3. STAT3 signaling plays crucial roles in basic cellular functions affecting broad aspects of cellular homeostasis. Accordingly, in addition to immunological deficits, patients experience severe multisystem non-immunological features. Human induced pluripotent stem cells (hiPSC) are well established as in vivo disease models for various human pathologies. We describe the generation of iPSC from three AD-HIES patients. These iPSCs express pluripotency markers, differentiate into three germ layers, have normal karyotype and similar genome identity to parental cells.

Evaluation of the Role of stat3 in Antibody and TH17-Mediated Responses to Pneumococcal Immunization and Infection by Use of a Mouse Model of Autosomal Dominant Hyper-IgE Syndrome.

Loss-of-function mutations in the signal transducer and activator of transcription 3 gene (stat3) result in autosomal dominant hyper-IgE syndrome (AD-HIES), a condition in which patients have recurrent debilitating infections, including frequent pneumococcal and staphylococcal pneumonias. stat3 mutations cause defective adaptive TH17 cellular responses, an immune mechanism believed to be critical for clearance of pneumococcal colonization and diminished antibody responses. Here we wished to evaluate the role of stat3 in the clearance of pneumococcal carriage and immunity using mice with a stat3 mutation recapitulating AD-HIES. We show here that naive AD-HIES mice have prolonged nasal carriage of pneumococcus compared to WT mice. Mutant and wild-type mice were then immunized with a pneumococcal whole-cell vaccine (WCV) that provides TH17-mediated protection against pneumococcal colonization and antibody-mediated protection against pneumonia and sepsis. WCV-immunized AD-HIES mice made significantly less pneumococcus-specific interleukin-17A (IL-17A) and antibody than WT mice. The WCV-elicited protection against colonization was abrogated in AD-HIES mice, but immunization with WCV still protected AD-HIES mice against aspiration pneumonia/sepsis. Taken together, our results suggest that impaired clearance of nasopharyngeal carriage due to poor adaptive IL-17A responses may contribute to the increased rates of pneumococcal respiratory infection in AD-HIES patients.

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

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.

Protein stabilization improves STAT3 function in autosomal dominant hyper-IgE syndrome

Autosomal dominant hyper-IgE syndrome (AD-HIES) is caused by dominant-negative mutations in STAT3; however, the molecular basis for mutant STAT3 allele dysfunction is unclear and treatment remains supportive. We hypothesized that AD-HIES mutations decrease STAT3 protein stability and that mutant STAT3 activity can be improved by agents that increase chaperone protein activity. We used computer modeling to characterize the effect of STAT3 mutations on protein stability. We measured STAT3 protein half-life (t1/2) and determined levels of STAT3 phosphorylated on tyrosine (Y) 705 (pY-STAT3) and mRNA levels of STAT3 gene targets in Epstein-Barr virus-transformed B (EBV) cells, human peripheral blood mononuclear cells (PBMCs), and mouse splenocytes incubated without or with chaperone protein modulators-HSF1A, a small-molecule TRiC modulator, or geranylgeranylacetone (GGA), a drug that upregulates heat shock protein (HSP) 70 and HSP90. Computer modeling predicted that 81% of AD-HIES mutations are destabilizing. STAT3 protein t1/2 in EBV cells from AD-HIES patients with destabilizing STAT3 mutations was markedly reduced. Treatment of EBV cells containing destabilizing STAT3 mutations with either HSF1A or GGA normalized STAT3 t1/2, increased pY-STAT3 levels, and increased mRNA levels of STAT3 target genes up to 79% of control. In addition, treatment of human PBMCs or mouse splenocytes containing destabilizing STAT3 mutations with either HSF1A or GGA increased levels of cytokine-activated pY-STAT3 within human CD4+ and CD8+ T cells and numbers of IL-17-producing CD4+ mouse splenocytes, respectively. Thus, most AD-HIES STAT3 mutations are destabilizing; agents that modulate chaperone protein function improve STAT3 stability and activity in T cells and may provide a specific treatment.

Clinical Manifestations, Gene Mutations and B-Cell Subsets Characterization of Autosomal Dominant-Hyper IgE Syndrome Patients in China

Domain-negative mutations in the STAT3 gene result in the classical multisystem form of autosomal dominant hyper IgE syndrome (AD-HIES). This study aims to provide a detailed clinical manifestations, STAT3gene mutations and the changes of B lymphocyte subsets of AD-HIES.

Deficiencies in STAT3 Signaling Confers Resistance to Histamine/PAF Induced Vascular Permeability in Autosomal Dominant-Hyper IgE Syndrome (AD-HIES)

To determine whether a reduction in STAT3 signaling due to small molecule inhibition or in STAT3mutated patient cells provides protection against enhanced vascular permeability, potentially explaining previously observed protection from anaphylaxis in AD-HIES patients and a mouse model.

B Lymphocytes from Patients with a Hypomorphic Mutation inSTAT3Resist Epstein-Barr Virus-Driven Cell Proliferation

Epstein-Barr virus (EBV) oncogenes exert potent B cell proliferative effects. EBV infection gives rise to B cell lines that readily proliferate in culture. This ability of EBV represents a powerful tool to study cell proliferation. In efforts to delineate the contribution of signal transducer and activator of transcription 3 (STAT3) toward EBV-driven cell proliferation, we have discovered that B cells from patients with autosomal dominant hyper-IgE syndrome (AD-HIES) resist such EBV oncogene-driven outgrowth of cells. Patients with AD-HIES have a dominant negative mutation in their STAT3 gene which renders most of the protein nonfunctional. Exposure of healthy subject-derived B cells to EBV resulted in early activation of STAT3, rapidly followed by increased expression of its mRNA and protein. STAT3 upregulation preceded the expression of EBNA2, temporally one of the first viral oncogenes to be expressed. We found that STAT3 was necessary for subsequent survival and for proliferation of EBV-infected cells past the S phase of the cell cycle. Consequently, B cells from AD-HIES patients were prone to dying and accumulated in the S phase, thereby accounting for impaired cell outgrowth. Of importance, we have now identified a cohort of patients with a primary immunodeficiency disorder whose B cells oppose EBV-driven proliferative signals. These findings simultaneously reveal how EBV manipulates host STAT3 even before expression of viral oncogenes to facilitate cell survival and proliferation, processes fundamental to EBV lymphomagenesis.

Lung Parenchyma Surgery in Autosomal Dominant Hyper-IgE Syndrome

Autosomal dominant hyper-IgE syndrome (AD-HIES) due to heterozygous STAT3 mutation is a primary immunodeficiency characterized by eczema, elevated serum IgE, recurrent infections, and connective tissue and skeletal findings. Healing of pneumonias is often abnormal with formation of pneumatoceles and bronchiectasis. We aimed to explore whether healing after lung surgery is also aberrant. We retrospectively analyzed the medical records of 32 patients with AD-HIES who received lung surgery for the management of pulmonary infections from 1960 to 2011. We collected information including patient demographics, STAT3 mutation status, clinical history, surgical and medical procedures performed, complications, related medical treatments, and outcomes. More than 50% of lung surgeries had associated complications, with the majority being prolonged bronchopleural fistulae. These fistulae often led to empyemas that necessitated additional interventions including prolonged antibiotics, prolonged thoracostomy tube drainage and re-operations. Lung surgery in AD-HIES patients is associated with high complication rates. STAT3 mutations likely lead to abnormalities in tissue remodelling that are further exacerbated by infection.

A Critical Role for STAT3 Transcription Factor Signaling in the Development and Maintenance of Human T Cell Memory

STAT3 transcription factor signaling in specific T helper cell differentiation has been well described, although the broader roles for STAT3 in lymphocyte memory are less clear. Patients with autosomal-dominant hyper-IgE syndrome (AD-HIES) carry dominant-negative STAT3 mutations and are susceptible to a variety of bacterial and fungal infections. We found that AD-HIES patients have a cell-intrinsic defect in the number of central memory CD4(+) and CD8(+) T cells compared to healthy controls. Naive T cells from AD-HIES patients had lower expression of memory-related transcription factors BCL6 and SOCS3, a primary proliferation defect, and they failed to acquire central memory-like surface phenotypes in vitro. AD-HIES patients showed a decreased ability to control varicella zoster virus (VZV) and Epstein-Barr virus (EBV) latency, and T cell memory to both of these viruses was compromised. These data point to a specific role for STAT3 in human central memory T cell formation and in control of certain chronic viruses.

SH2‐domain mutations in STAT3 in hyper‐IgE syndrome patients result in impairment of IL‐10 function

Autosomal-dominant hyper-IgE syndrome (AD-HIES) is a primary immunodeficiency caused by STAT3 mutations. This inherited condition is characterized by eczema, staphylococcal cold abscesses and recurrent pulmonary infections. Given that STAT3 is involved in IL-10 signaling, we examined the immunoregulatory role of IL-10 in inflammation by studying the effects of IL-10 on monocytes, neutrophils and monocyte-derived DCs from HIES subjects. Analysis of gene expression in PBMCs and neutrophils isolated from HIES patients and stimulated with LPS in the presence of IL-10 showed reduced expression of IL1RN, which encodes IL-1 receptor antagonist (IL-1ra), and SOCS3 mRNA but increased CXCL8 mRNA expression. Moreover, secretion of the anti-inflammatory protein IL-1ra was reduced in AD-HIES patients. DCs from HIES patients secreted higher levels of TNF-α, IL-6 and, to a lesser extent, IL-12 when these cells were cultured in the presence of IL-10. These results suggest that IL-10 activity is affected in myeloid cells (e.g. monocytes, DCs) of HIES patients. Impairment of IL-10 signaling in patients with AD-HIES might result in an altered balance between pro-inflammatory and anti-inflammatory signals and might lead to persistent inflammation and delayed healing after infections.