No full-text available
To read the full-text of this research,
you can request a copy directly from the authors.
TH17 Cells in STAT3 Related Hyper-IgE Syndrome
Abstract
Objectives
To assess the utility of T helper17 (TH17) cell enumeration vis-à-vis National Institutes of Health (NIH) scoring in Hyper IgE syndrome (HIES).
Methods
Clinical phenotypes of Hyper IgE syndrome patients with and without STAT3 mutation were analysed and correlated with absolute eosinophil count, serum IgE levels and TH17 cell numbers in 19 patients with clinically suspected HIES and compared with healthy controls (n = 20).
Results
The difference in serum IgE between patients with and without STAT3 mutation and healthy controls was statistically significant (p < 0.05). Six patients had NIH score > 40; of which 4 were positive for STAT3 pathogenic variants, whereas two patients in the group with no identifiable STAT3 pathogenic variant had NIH score > 40. NIH score had sensitivity of 80 % and specificity of 87.5 % to detect cases with STAT3 pathogenic variants. TH17 cells were markedly low in all cases with STAT3 pathogenic variants. Among patients without STAT3 pathogenic variants, none had low TH17 cell numbers.
Conclusions
Low TH17 cell numbers together with NIH scores can be a better indicator for presence of STAT3 mutations.
... It is a rare immunological disorder with two types of HIES have been reported, autosomal dominant and recessive forms [13,15]. Autosomal dominant HIES, caused by mutations in the Signal Transduction And Activation Of Transcription 3 gene (STAT3) identifi ed in 2007 presents with skeletal, connective tissue, and pulmonary abnormalities [13,16,17]. Autosomal recessive HIES, caused by mutations In Dedicator of Cytokinesis 8 (DOCK8) gene identifi ed in 2009 manifests as severe eczema, recurrent bacterial and viral skin infections [15,7]. ...
Hemophagocytic syndrome is a rare and life-threatening disease. It is characterized by the combination of clinical features, (fever, hepatosplenomegaly
and lymphadenopathy), biological abnormalities (cytopenias, liver cytolysis, high plasma triglycerids, and coagulopathy) and hemophagocytosis involving
numerous organs preferentially bone marrow, caused by a dysregulation in cytokine secretion and benign proliferation of lymphocytes or histiocytes.
This case report presents a 2 month-old girl who presented with Hemophagocytic syndrome and concurrent Cytomegalovirus infection, and was
subsequently diagnosed with Hyper IgE syndrome.
To our literature review, this is the fi rst case of Hemophagocytic syndrome and CMV infection in the setting of Hyper IgE syndrome. Although this
association is likely to be entirely coincidental, clinicians should be aware of this rare clinicopathologic entity. Complementary investigations and accurate
diagnosis are important strategies to confi rm this association urgently for initiate appropriate treatment.
Keywords: Cytomegalovirus; Hyper-IgE syndrome; Hemophagocytic syndrome; Immunodefi ciency
... This was followed by another case report with a novel variant in 2017 (22). Publications in the form of original research papers followed from the center at Chandigarh subsequently (23,24). More research is currently being undertaken at this center with funding from Indian Council of Medical Research, New Delhi, and Jeffrey Modell Foundation, USA, but there has been a stark silence from any other center in the country except for a case report by Govindaraj et al. (25) in 2018. ...
Introduction: Hyper-IgE Syndrome (HIES) is a rare inborn error of immunity (IEI) characterized by a constellation of symptoms related to susceptibility to Staphylococcal skin and pulmonary infections, eczema, raised serum IgE (>2,000 IU/ml), craniofacial anomalies, and recurrent bone fractures. Data on HIES from the Indian subcontinent is scarce and restricted to small case series and case reports. This is the first compilation of national data on HIES.
Materials and Methods: A total 103 cases clinically diagnosed and treated as HIES were analyzed from nine centers. Cases with clinical and/or molecular diagnosis of DOCK8 deficiency were not included. Patients were divided into two groups: group I for whom a heterozygous rare variant of STAT3 was identified, and group II, with clinical features similar to those of AD STAT3 deficiency, but without any genetic diagnosis.
Results: Genetic diagnosis was available in 27 patients (26.2%) and all harbored rare variants in the STAT3 gene. Majority of these STAT3 HIES patients presented with recurrent skin abscesses (77.7%) or pneumonia (62.9%) or both (59.2%). Other features included eczema (37%), candidiasis (55.5%), facial dysmorphism (55.5%), recurrent fractures (11.1%), and retained primary teeth (7.4%). Mycobacterial infections were seen in a significant 18.5%. Mortality was seen in three subjects (11.1%). A similar trend in the clinical presentation was observed when all the 103 patients were analyzed together. Twenty percent of patients without a rare variant in the STAT3 gene had an NIH score of ≥40, whereas, 51.9% of STAT3 HIES subjects had scores below the cut off of ≥40. TH17 cell numbers were low in 10/11 (90.9%) STAT3 HIES tested. Rare variants observed were 8 in exon 21; 8 in exon 13; 3 in exon 10; 2 in exon 15, and one each in exon 6, 16, 17, 19, 22, and splice site downstream of exon 12. Seven variants were novel and included F174S, N567D, L404Sfs * 8, G419 =, M329K, T714I, R518X, and a splice site variant downstream of exon 12.
Conclusions: The report includes seven novel STAT3 variants, including a rare linker domain nonsense variant and a CC domain variant. Mycobacterial diseases were more frequent, compared to western literature.
... [14][15][16][17][18][19] The Th17 cell percentage is low in patients with STAT3 mutations, as cooperation of this molecule with RORγ t is necessary for generation of Th17 cells and their cytokines in normal condition. 13,20 Autoimmune polyglandular syndrome type-1 syndrome evolves by mutations in the autoimmune regulator gene AIRE, a transcription factor in medullary thymic epithelial cells, leading to production of neutralizing autoantibodies against Th17 cytokines. 21 Mutations in different types of IL-17 receptors or in their downstream signaling molecule ACT1, and AR CARD9 deficiency (Autosomal recessive caspase-associated recruitment domain 9) can lead to CMC disease. ...
Candidiasis is characterized by susceptibility to recurrent or persistent infections caused by Candida spp., typically Candida albicans, of cutaneous and mucosal surfaces. In this report, function and frequency of Th17 cells as well as genetics of patients susceptible to mucocutaneous candidiasis were studied. For patients, T-cell proliferation tests in response to Candida antigen, Th17 cell proportions, and STAT1 phosphorylation were evaluated through flow cytometry. Expression of IL17A, IL17F and IL22 genes were measured by real-time quantitative PCR. At the same time, whole exome sequencing was performed for all patients. We identified two heterozygous substitutions, one: c.821G > A (p. R274Q) was found in a multiplex family with three individuals affected, the second one: c.812A > C (p. Q271P) was found in a sporadic case. Both mutations are located in the coiled-coil domain (CCD) of STAT1. The frequency of Th17 cells, IL17A, IL17F, and IL22 gene expression in patients' peripheral blood mononuclear cells (PBMCs), and T-cell proliferation to Candida antigens were significantly reduced in the patients as compared to healthy controls. An increased STAT1 phosphorylation was observed in patients' PBMCs upon interferon (IFN)-γ stimulation as compared to healthy controls. We report two different but neighboring heterozygous mutations, located in exon 10 of the STAT1 gene, in four Iranian patients with CMC, one of whom also had hypothyroidism. These mutations were associated with impaired T cell proliferation to Candida antigen, low Th17 cell proportions, and increased STAT1 phosphorylation upon IFN-γ. We suggest that interfering with STAT1 phosphorylation might be a promising way for potential therapeutic measurements for such patients.
... HIES patients often have decreased numbers of IL-17 produc- ing T cells (TH17 cells) that may be detected by intracellular cy- tokine staining. While not diagnostic of HIES, decreased TH17 cells may support the diagnosis when relevant clinical features are present.124 | G ROUP III: PREDOMINANTLY ANTIBODY DEFICIEN CIE SAntibody deficiencies are the most common of the PIDs and are characterized by repeated infections due to disrupted B-cell devel- opment, differentiation, or function. ...
Primary immunodeficiencies (PID) or inborn errors of immunity affect phenotype and/or function of one or more components of the immune system. The exponential growth of genetic analysis has enabled identification of known and novel mutations. However, genetic analysis continues to be expensive and is not easily accessible. Flow cytometry, on the other hand, has been well established for many years in clinical laboratories and its use for the analysis of immunodeficiencies is expanding. Surface, intracellular, and intranuclear proteins can easily be evaluated by flow cytometry, enabling both phenotypic and functional identification of specific cell populations and therefore facilitating the identification of a variety of PIDs. While genetic analysis provides a definitive diagnosis for PIDs, flow cytometry is necessary to confirm or establish the immune phenotype of a gene mutation. Furthermore, flow cytometry provides a rapid means to identify an immunological defect at a relatively low cost.
... Представляет интерес тот факт, что стафилококковая инфекция, развившаяся на фоне или после острой инфекции, вызванной вирусом гриппа А (influenza A virus -IAV), сопровождается низкой активностью рекрутирования нейтрофилов в очаг поражения легких [7,109]. ...
... As an Bexperiment of nature,^HIES patients have helped to reveal numerous critical physiological and functional roles of the STAT3 gene. For instance, several studies revealed that AD-HIES caused by STAT3 mutations had impaired the ability to generate IL-17A-and IL-22-producing T cells and circulating memory B cells [15][16][17][18]. Besides, defective response to multiple cytokines, such as IL-6, IL-17, IL-21, and IL-22, was also reported in AD-HIES patients [19][20][21]. ...
Purpose:
Autosomal dominant hyper-IgE syndrome (AD-HIES) is a rare complicated primary immunodeficiency disease (PID). Signal transducer and activator of transcription 3 (STAT3) gene mutation is found to cause AD-HIES. The distribution of AD-HIES patients with STAT3 deficiency in the Chinese population is not clear. Herein, we retrospectively report 17 AD-HIES patients with STAT3 deficiency and demonstrate their clinical, immunological, and genetic features.
Methods:
Patients' clinical data were collected from their medical records. Routine laboratory testing results included lymphocyte subset analysis and immunoglobulin quantification. STAT3 mutations were investigated by sequencing of genomic DNA.
Results:
Among 575 patients with PID, 28 (4.87%) were clinically diagnosed as HIES. Among them, 17 (2.96%) were confirmed as STAT3 mutant AD-HIES. The ratio of male to female patients was 8:9. All of the 17 patients had NIH scores over 40 points. The mean ages at onset and diagnosis were 1.05 and 10.35 years, respectively. Three patients (17.65%, 3/17) died with a mean age of 13.33 years. Eczema, recurrent skin infection, and respiratory tract infection were the most common clinical symptoms and are present in all of the 17 patients in this study. Six patients (37.5%, 6/16) suffered complication from BCG vaccination. Noninfection symptoms are characteristic facial features in 17 patients (100%, 17/17), retention of primary teeth in 10 patients (90.91%, 10/11), and abnormal bone fractures in 7 patients (41.18%, 7/17). Eleven types of STAT3 mutations were identified in 17 patients, including 1 novel mutation.
Conclusions:
We here retrospectively report the largest Chinese cohort of AD-HIES patients with STAT3 mutation. Unique features, when compared to existing literature reports, include (1) later age of diagnosis, (2) significantly higher rate of BCG complications, and (3) lower rate of candidiasis and chronic otitis media.
Several signal transduction pathways regulate the development of craniofacial structures during embryogenesis in a complex spatiotemporal manner. Among them, cytokine signaling mediated by signal transducer and activation of transcription 3 (STAT3) plays a key role in maintaining the capacity of stem cells for self-renewal and the ossification of the cranial bones. Mutations in the DNA-binding domain and SH2 (Src homology 2) domain of STAT3 transcription factor have been identified in patients with hyperimmunoglobulin-E syndrome, an autosomal dominant disorder characterized by immunodeficiency associated with craniofacial malformation and craniosynostosis, also known as Job’s syndrome. In this chapter, a brief overview of signal pathways involved in pattern formation in human craniofacial development is given with a particular focus on the cytokine-driven transcription factor STAT3.
Although Hyper-IgE Syndrome (HIES) is a rare immunodeficiency disorder, presenting symptoms may be as common as lung and skin infections. Symptoms are usually nonspecific such as recurrent abscesses, folliculitis, and pneumonias along with skeletal abnormalities. Careful history of susceptibility to skin and lung infections, thorough family history, and findings on physical exam can guide towards the diagnosis of this often-eluded condition. Early optimization of therapy with prophylactic antibiotics can prevent recurrent infections and future complications and improve quality of life and longevity of survival. We present a case of a young female with Hyper-IgE Syndrome with a novel mutation in STAT 3 gene who initially presented with long standing history of intractable skin abscesses being managed as Hidradenitis Suppurativa.
Hyper IgE syndrome (HIES) is a rare primary immunodeficiency disorder characterized by the triad of elevated IgE and eosinophilia, eczema and recurrent skin and pulmonary infections. Mutation in the STAT3 gene accounts for majority of the autosomal dominant and sporadic forms of HIES.
To report clinical and molecular analyses of patients with Hyper IgE syndrome from a single tertiary care center in India.
Four patients with suspected HIES were studied. Flowcytometry for TH17 cell numbers and phosphoSTAT3, and STAT3 gene sequencing were performed.
TH17 cells were significantly reduced. Mutations were found in the DNA-binding domain in three and a mutation in the transactivation domain in one patient. One of the mutations detected was a novel mutation (g54792 c.1018A> C p.K340Q) in the DNA binding domain. Mycobacterial infection, which is usually not commonly associated with HIES was found in two of our cases, one with a cutaneous abscess in the shoulder, and the other with BCG site reactivation.
A novel mutation in the STAT3 is reported. Mycobacterial infections can be seen in the spectrum of HIES related infections.
The genetic etiologies of the hyper-IgE syndromes are diverse. Approximately 60% to 70% of patients with hyper-IgE syndrome have dominant mutations in STAT3, and a single patient was reported to have a homozygous TYK2 mutation. In the remaining patients with hyper-IgE syndrome, the genetic etiology has not yet been identified.
We aimed to identify a gene that is mutated or deleted in autosomal recessive hyper-IgE syndrome.
We performed genome-wide single nucleotide polymorphism analysis for 9 patients with autosomal-recessive hyper-IgE syndrome to locate copy number variations and homozygous haplotypes. Homozygosity mapping was performed with 12 patients from 7 additional families. The candidate gene was analyzed by genomic and cDNA sequencing to identify causative alleles in a total of 27 patients with autosomal-recessive hyper-IgE syndrome.
Subtelomeric biallelic microdeletions were identified in 5 patients at the terminus of chromosome 9p. In all 5 patients, the deleted interval involved dedicator of cytokinesis 8 (DOCK8), encoding a protein implicated in the regulation of the actin cytoskeleton. Sequencing of patients without large deletions revealed 16 patients from 9 unrelated families with distinct homozygous mutations in DOCK8 causing premature termination, frameshift, splice site disruption, and single exon deletions and microdeletions. DOCK8 deficiency was associated with impaired activation of CD4+ and CD8+T cells.
Autosomal-recessive mutations in DOCK8 are responsible for many, although not all, cases of autosomal-recessive hyper-IgE syndrome. DOCK8 disruption is associated with a phenotype of severe cellular immunodeficiency characterized by susceptibility to viral infections, atopic eczema, defective T-cell activation and T(h)17 cell differentiation, and impaired eosinophil homeostasis and dysregulation of IgE.
Recurrent sinopulmonary and cutaneous viral infections with elevated serum levels of IgE are features of some variants of combined immunodeficiency. The genetic causes of these variants are unknown.
We collected longitudinal clinical data on 11 patients from eight families who had recurrent sinopulmonary and cutaneous viral infections. We performed comparative genomic hybridization arrays and targeted gene sequencing. Variants with predicted loss-of-expression mutations were confirmed by means of a quantitative reverse-transcriptase-polymerase-chain-reaction assay and immunoblotting. We evaluated the number and function of lymphocytes with the use of in vitro assays and flow cytometry.
Patients had recurrent otitis media, sinusitis, and pneumonias; recurrent Staphylococcus aureus skin infections with otitis externa; recurrent, severe herpes simplex virus or herpes zoster infections; extensive and persistent infections with molluscum contagiosum; and human papillomavirus infections. Most patients had severe atopy with anaphylaxis; several had squamous-cell carcinomas, and one had T-cell lymphoma-leukemia. Elevated serum IgE levels, hypereosinophilia, low numbers of T cells and B cells, low serum IgM levels, and variable IgG antibody responses were common. Expansion in vitro of activated CD8 T cells was impaired. Novel homozygous or compound heterozygous deletions and point mutations in the gene encoding the dedicator of cytokinesis 8 protein (DOCK8) led to the absence of DOCK8 protein in lymphocytes.
Autosomal recessive DOCK8 deficiency is associated with a novel variant of combined immunodeficiency.
Hyper-immunoglobulin E syndrome (HIES) is a compound primary immunodeficiency characterized by a highly elevated serum IgE, recurrent staphylococcal skin abscesses and cyst-forming pneumonia, with disproportionately milder inflammatory responses, referred to as cold abscesses, and skeletal abnormalities. Although some cases of familial HIES with autosomal dominant or recessive inheritance have been reported, most cases of HIES are sporadic, and their pathogenesis has remained mysterious for a long time. Here we show that dominant-negative mutations in the human signal transducer and activator of transcription 3 (STAT3) gene result in the classical multisystem HIES. We found that eight out of fifteen unrelated non-familial HIES patients had heterozygous STAT3 mutations, but their parents and siblings did not have the mutant STAT3 alleles, suggesting that these were de novo mutations. Five different mutations were found, all of which were located in the STAT3 DNA-binding domain. The patients' peripheral blood cells showed defective responses to cytokines, including interleukin (IL)-6 and IL-10, and the DNA-binding ability of STAT3 in these cells was greatly diminished. All five mutants were non-functional by themselves and showed dominant-negative effects when co-expressed with wild-type STAT3. These results highlight the multiple roles played by STAT3 in humans, and underline the critical involvement of multiple cytokine pathways in the pathogenesis of HIES.
The hyper-IgE syndrome (or Job's syndrome) is a rare disorder of immunity and connective tissue characterized by dermatitis, boils, cyst-forming pneumonias, elevated serum IgE levels, retained primary dentition, and bone abnormalities. Inheritance is autosomal dominant; sporadic cases are also found.
We collected longitudinal clinical data on patients with the hyper-IgE syndrome and their families and assayed the levels of cytokines secreted by stimulated leukocytes and the gene expression in resting and stimulated cells. These data implicated the signal transducer and activator of transcription 3 gene (STAT3) as a candidate gene, which we then sequenced.
We found increased levels of proinflammatory gene transcripts in unstimulated peripheral-blood neutrophils and mononuclear cells from patients with the hyper-IgE syndrome, as compared with levels in control cells. In vitro cultures of mononuclear cells from patients that were stimulated with lipopolysaccharide, with or without interferon-gamma, had higher tumor necrosis factor alpha levels than did identically treated cells from unaffected persons (P=0.003). In contrast, the cells from patients with the hyper-IgE syndrome generated lower levels of monocyte chemoattractant protein 1 in response to the presence of interleukin-6 (P=0.03), suggesting a defect in interleukin-6 signaling through its downstream mediators, one of which is STAT3. We identified missense mutations and single-codon in-frame deletions in STAT3 in 50 familial and sporadic cases of the hyper-IgE syndrome. Eighteen discrete mutations, five of which were hot spots, were predicted to directly affect the DNA-binding and SRC homology 2 (SH2) domains.
Mutations in STAT3 underlie sporadic and dominant forms of the hyper-IgE syndrome, an immunodeficiency syndrome involving increased innate immune response, recurrent infections, and complex somatic features.
The critical role of IL-17 has recently been reported in a variety of conditions. Since IL-17 deeply participates in the pathogenesis of psoriasis and keratinocyte production of certain cytokines, the involvement of T helper cell 17 (Th17) in atopic dermatitis (AD) is an issue to be elucidated. To evaluate the participation of Th17 cells in AD, we successfully detected circulating lymphocytes intracellularly positive for IL-17 by flow cytometry, and the IL-17+ cell population was found exclusively in CD3+CD4+ T cells. The percentage of Th17 cells was increased in peripheral blood of AD patients and associated with severity of AD. There was a significant correlation between the percentages of IL-17+ and IFN-gamma+ cells, although percentage of Th17 cells was not closely related to Th1/Th2 balance. Immunohistochemically, IL-17+ cells infiltrated in the papillary dermis of atopic eczema more markedly in the acute than chronic lesions. Finally, IL-17 stimulated keratinocytes to produce GM-CSF, TNF-alpha, IL-8, CXCL10, and VEGF. A marked synergistic effect between IL-17 and IL-22 was observed on IL-8 production. The number of Th17 cells is increased in the peripheral blood and acute lesional skin of AD. Th17 cells may exaggerate atopic eczema.
Hyper-IgE syndrome (HIES) is a rare, autosomal-dominant immunodeficiency characterized by eczema, Staphylococcus aureus skin abscesses, pneumonia with pneumatocele formation, Candida infections, and skeletal/connective tissue abnormalities. Recently it was shown that heterozygous signal transducer and activator of transcription 3 (STAT3) mutations cause autosomal-dominant HIES.
To determine the spectrum and functional consequences of heterozygous STAT3 mutations in a cohort of patients with HIES.
We sequenced the STAT3 gene in 38 patients with HIES (National Institutes of Health score >40 points) from 35 families, quantified T(H)17 cells in peripheral blood, and evaluated tyrosine phosphorylation of STAT3.
Most STAT3 mutations in our cohort were in the DNA-binding domain (DBD; 22/35 families) or Src homology 2 (SH2) domain (10/35) and were missense mutations. We identified 2 intronic mutations resulting in exon skipping and in-frame deletions within the DBD. In addition, we identified 2 mutations located in the transactivation domain downstream of the SH2 domain: a 10-amino acid deletion and an amino acid substitution. In 1 patient, we were unable to identify a STAT3 mutation. T(H)17 cells were absent or low in the peripheral blood of all patients who were evaluated (n = 17). IL-6-induced STAT3-phosphorylation was consistently reduced in patients with SH2 domain mutations but comparable to normal controls in patients with mutations in the DBD.
Heterozygous STAT3 mutations were identified in 34 of 35 unrelated HIES families. Patients had impaired T(H)17 cell development, and those with SH2 domain mutations had reduced STAT3 phosphorylation.
Background:
Autosomal dominant hyper-IgE syndrome (AD-HIES) is caused by mutations in signal transducer and activator of transcription 3 (STAT3). We describe 2 subjects in whom somatic mosaicism was associated with intermediate phenotypes.
Objective:
Somatic mosaics might shed light on the pathogenesis of dominant STAT3 mutations and the mechanisms behind the immunologic and nonimmunologic features of the disease.
Methods:
Clinical evaluations were conducted. Mutant STAT3 was amplified from different tissues and sequenced, and the percentage of mosaicism in various cell types was calculated. Flow cytometry was performed to determine percentages of IL-17(+) cells, IL-22(+) cells, or both. Suction blisters were induced in 1 subject, and exudate fluid was analyzed for whether emigrating neutrophils were STAT3 mutant or wild-type; neutrophils from peripheral blood were simultaneously examined.
Results:
The 2 subjects with STAT3 somatic mosaicism had intermediate phenotypes and were found to have preserved TH17 cell compartments and apparently normal CD8 cells. However, they still had infections, including mucocutaneous candidiasis. The percentage of STAT3 mutant neutrophils migrating into blisters at 16 hours was the same as in peripheral blood, suggesting normal chemotaxis.
Conclusion:
STAT3 mosaicism accounts for a milder phenotype and allows for further investigation into the pathogenesis of AD-HIES. Despite having a preserved TH17 cell compartment, both subjects with mosaicism had chronic mucocutaneous candidiasis, suggesting that candidiasis in subjects with AD-HIES is not driven solely by low TH17 cell numbers. The percentage of STAT3 mutant neutrophils emigrating into a suction blister at 16 hours was the same as the percentage in peripheral blood, suggesting that early chemotaxis of STAT3 neutrophils is normal in vivo.
Hyper-IgE syndromes (HIES) are primary immunodeficiency disorders characterized by Staphylococcus aureus abscesses, recurrent pneumonia, increased serum IgE levels, and eczema. The association of heterozygous signal transducer and activator of transcription 3 (STAT3) mutations with autosomal dominant (AD)-HIES allows the differentiation of AD-HIES from disorders associated with eczema and increased serum IgE levels, such as other primary immunodeficiencies and atopic dermatitis.
To facilitate early diagnosis of AD-HIES to initiate appropriate therapy.
The clinical phenotype (suggested by a National Institutes of Health [NIH] score of >or=40 points), STAT3 genotype, and T(H)17 cell counts were compared in a cohort of 78 patients suspected of having HIES.
Heterozygous STAT3 missense mutations and in-frame deletions were identified in 48 patients, all but 2 with an NIH score >or=40 points. Patients with STAT3 mutations with HIES showed significantly lower T(H)17 cell counts compared with patients with wild-type STAT3 and control subjects. Only 1 patient with wild-type STAT3 had both an NIH score >or=40 points and abnormal T(H)17 cell counts (<or=0.2% of CD4(+) cells), with this exception being identified with a homozygous dedicator of cytogenesis 8 protein (DOCK8) mutation. Pathologic shedding of primary teeth was present in 3 patients with wild-type STAT3 and 33 patients with STAT3 mutations. Internal abscesses and severe infections were exclusively seen in patients with STAT3 mutations, who also had increased pneumatocele formation and skeletal or connective tissue manifestations compared with patients with wild-type STAT3.
We expanded the number of STAT3 mutations and validated that the NIH score sensitively identifies patients with HIES. Based on our patient cohort, we propose key findings that, when combined with T(H)17 cell numbers, predict patients with AD-HIES with STAT3 mutations, supporting early diagnosis of AD-HIES.
The hyper-IgE syndrome (HIES) is a primary immunodeficiency characterized by infections of the lung and skin, elevated serum IgE, and involvement of the soft and bony tissues. Recently, HIES has been associated with heterozygous dominant-negative mutations in the signal transducer and activator of transcription 3 (STAT3) and severe reductions of T(H)17 cells.
To determine whether there is a correlation between the genotype and the phenotype of patients with HIES and to establish diagnostic criteria to distinguish between STAT3 mutated and STAT3 wild-type patients.
We collected clinical data, determined T(H)17 cell numbers, and sequenced STAT3 in 100 patients with a strong clinical suspicion of HIES and serum IgE >1000 IU/mL. We explored diagnostic criteria by using a machine-learning approach to identify which features best predict a STAT3 mutation.
In 64 patients, we identified 31 different STAT3 mutations, 18 of which were novel. These included mutations at splice sites and outside the previously implicated DNA-binding and Src homology 2 domains. A combination of 5 clinical features predicted STAT3 mutations with 85% accuracy. T(H)17 cells were profoundly reduced in patients harboring STAT3 mutations, whereas 10 of 13 patients without mutations had low (<1%) T(H)17 cells but were distinct by markedly reduced IFN-gamma-producing CD4(+)T cells.
We propose the following diagnostic guidelines for STAT3-deficient HIES. Possible: IgE >1000IU/mL plus a weighted score of clinical features >30 based on recurrent pneumonia, newborn rash, pathologic bone fractures, characteristic face, and high palate. Probable: These characteristics plus lack of T(H)17 cells or a family history for definitive HIES. Definitive: These characteristics plus a dominant-negative heterozygous mutation in STAT3.
Dominant-negative mutations in STAT-3 have recently been found in the majority of patients with sporadic or autosomal-dominant hyper IgE syndrome (HIES). Since STAT-3 plays a role in B cell development and differentiation, we analyzed memory B cells in 20 patients with HIES, 17 of which had STAT-3 mutations. All but four patients had reduced non-switched and/or class-switched memory B cells. No reduction in these B cell populations was found in 16 atopic dermatitis patients with IgE levels above 1000 KU/L. There was no correlation between the reduction of memory B cells and the ability to produce specific antibodies. Moreover, there was no correlation between the percentage of memory B cells and the infection history. Analysis of memory B cells can be useful in distinguishing patients with suspected HIES from patients with atopic disease, but probably fails to identify patients who are at high risk of infection.
The hyper-IgE syndrome (HIES) is a rare primary immunodeficiency characterized by recurrent skin abscesses, pneumonia, and highly elevated levels of serum IgE. HIES is now recognized as a multisystem disorder, with nonimmunologic abnormalities of the dentition, bones, and connective tissue. HIES can be transmitted as an autosomal dominant trait with variable expressivity. Nineteen kindreds with multiple cases of HIES were scored for clinical and laboratory findings and were genotyped with polymorphic markers in a candidate region on human chromosome 4. Linkage analysis showed a maximum two-point LOD score of 3.61 at recombination fraction of 0 with marker D4S428. Multipoint analysis and simulation testing confirmed that the proximal 4q region contains a disease locus for HIES.
The autosomal-dominant form of the hyperimmunoglobulin E syndrome (AD-HIES) has been described as a multisystem disorder including immune, skeletal, and dental abnormalities. Variants of AD-HIES are known but not well defined.
We evaluated 13 human immunodeficiency virus-seronegative patients from six consanguineous families with an autosomal-recessive form of hyperimmunoglobulin E syndrome (AR-HIES) and 68 of their relatives.
Persons affected with AR-HIES presented with the classical immunologic findings of hyperimmunoglobulin E syndrome, including recurrent staphylococcal infections of the skin and respiratory tract, eczema, elevated serum immunoglobulin E, and hypereosinophilia. In addition, severe recurrent fungal and viral infections with molluscum contagiosum, herpes zoster, and herpes simplex were noted. Autoimmunity was seen in two patients. Central nervous system sequelae, including hemiplegia, ischemic infarction, and subarachnoid hemorrhages, were common and contributed to high mortality. Notably, patients with AR-HIES did not have skeletal or dental abnormalities and did not develop pneumatoceles, as seen in AD-HIES. In lymphocyte proliferation assays, patients' cells responded poorly to mitogens and failed to proliferate in response to antigens, despite the presence of normal numbers of lymphocyte subpopulations.
The autosomal-recessive form of hyperimmunoglobulin E syndrome is a primary immunodeficiency with elevated immunoglobulin E, eosinophilia, vasculitis, autoimmunity, central nervous system symptoms, and high mortality. AR-HIES lacks several of the key findings of AD-HIES and therefore represents a different, previously unrecognized disease entity.
The hyper-immunoglobulin E (IgE) syndromes (HIES) are primary immunodeficiencies characterized by the clinical triad of recurrent staphylococcal abscesses, recurrent cyst-forming pneumonia, and an elevated serum IgE level of >2000 IU/ml. Most cases are sporadic; however, multiplex families displaying autosomal dominant (AD) and autosomal recessive (AR) inheritance have been described. In most sporadic and AD cases, the HIES clinical triad is part of a multisystem disorder including abnormalities of the soft tissue, skeletal, and dental systems. In contrast, those with AR-HIES have severe molluscum contagiosum and other viral infections and may develop severe neurological complications. Unlike patients with sporadic HIES and AD-HIES, those with AR-HIES lack skeletal or dental involvement and do not develop lung cysts. Additional variants of HIES are discussed in this review. The etiology of HIES is still unresolved. Recent research points toward a skewed T helper 1 (Th1) cell/Th2 cell ratio and the involvement of chemokines. Therapy for HIES is directed at prevention and management of infections by using sustained systemic antibiotics and antifungals along with topical therapy for eczema and drainage of abscesses. Anti-staphylococcal antibiotic prophylaxis is useful. Interferons, immunoglobulin supplementation, or low-dose cyclosporine A have been reported to benefit selected patients, but they are not generally indicated.
Tyrosine kinase 2 (Tyk2) is a nonreceptor tyrosine kinase that belongs to the Janus kinase (Jak) family. Here we identified a homozygous Tyk2 mutation in a patient who had been clinically diagnosed with hyper-IgE syndrome. This patient showed unusual susceptibility to various microorganisms including virus, fungi, and mycobacteria and suffered from atopic dermatitis with elevated serum IgE. The patient's cells displayed defects in multiple cytokine signaling pathways including those for type I interferon (IFN), interleukin (IL)-6, IL-10, IL-12, and IL-23. The cytokine signals were successfully restored by transducing the intact Tyk2 gene. Thus, the Tyk2 deficiency is likely to account for the patient's complex clinical manifestations, including the phenotype of impaired T helper 1 (Th1) differentiation and accelerated Th2 differentiation. This study identifies human Tyk2 deficiency and demonstrates that Tyk2 plays obligatory roles in multiple cytokine signals involved in innate and acquired immunity of humans, which differs substantially from Tyk2 function in mice.