Xiaomin Yu

Loss-of-function mutations in TNFAIP3 leading to A20 haploinsufficiency cause an early-onset autoinflammatory disease

Systemic autoinflammatory diseases are driven by abnormal activation of innate immunity. Herein we describe a new disease caused by high-penetrance heterozygous germline mutations in TNFAIP3, which encodes the NF-κB regulatory protein A20, in six unrelated families with early-onset systemic inflammation. The disorder resembles Behçets disease, which is typically considered a polygenic disorder with onset in early adulthood. A20 is a potent inhibitor of the NF-κB signaling pathway. Mutant, truncated A20 proteins are likely to act through haploinsufficiency because they do not exert a dominant-negative effect in overexpression experiments. Patient-derived cells show increased degradation of IκBα and nuclear translocation of the NF-κB p65 subunit together with increased expression of NF-κB–mediated proinflammatory cytokines. A20 restricts NF-κB signals via its deubiquitinase activity. In cells expressing mutant A20 protein, there is defective removal of Lys63-linked ubiquitin from TRAF6, NEMO and RIP1 after stimulation with tumor necrosis factor (TNF). NF-κB–dependent proinflammatory cytokines are potential therapeutic targets for the patients with this disease.

Biallelic hypomorphic mutations in a linear deubiquitinase define otulipenia, an early-onset autoinflammatory disease

Significance We describe a human disease linked to mutations in the linear deubiquitinase (DUB) OTULIN, which functions as a Met1-specific DUB to remove linear polyubiquitin chains that are assembled by the linear ubiquitin assembly complex (LUBAC). OTULIN has a role in regulating Wnt and innate immune signaling complexes. Hydrolysis of Met1-linked ubiquitin chains attenuates inflammatory signals in the NF-κB and ASC-mediated pathways. OTULIN-deficient patients have excessive linear ubiquitination of target proteins, such as NEMO, RIPK1, TNFR1, and ASC, leading to severe inflammation. Cytokine inhibitors have been efficient in suppressing constitutive inflammation in these patients. This study, together with the identification of haploinsufficiency of A20 (HA20), suggests a category of human inflammatory diseases, diseases of dysregulated ubiquitination. Systemic autoinflammatory diseases are caused by mutations in genes that function in innate immunity. Here, we report an autoinflammatory disease caused by loss-of-function mutations in OTULIN (FAM105B), encoding a deubiquitinase with linear linkage specificity. We identified two missense and one frameshift mutations in one Pakistani and two Turkish families with four affected patients. Patients presented with neonatal-onset fever, neutrophilic dermatitis/panniculitis, and failure to thrive, but without obvious primary immunodeficiency. HEK293 cells transfected with mutated OTULIN had decreased enzyme activity relative to cells transfected with WT OTULIN, and showed a substantial defect in the linear deubiquitination of target molecules. Stimulated patients’ fibroblasts and peripheral blood mononuclear cells showed evidence for increased signaling in the canonical NF-κB pathway and accumulated linear ubiquitin aggregates. Levels of proinflammatory cytokines were significantly increased in the supernatants of stimulated primary cells and serum samples. This discovery adds to the emerging spectrum of human diseases caused by defects in the ubiquitin pathway and suggests a role for targeted cytokine therapies.

Elevated basal serum tryptase identifies a multisystem disorder associated with increased TPSAB1 copy number

Elevated basal serum tryptase levels are present in 4–6% of the general population, but the cause and relevance of such increases are unknown. Previously, we described subjects with dominantly inherited elevated basal serum tryptase levels associated with multisystem complaints including cutaneous flushing and pruritus, dysautonomia, functional gastrointestinal symptoms, chronic pain, and connective tissue abnormalities, including joint hypermobility. Here we report the identification of germline duplications and triplications in the TPSAB1 gene encoding α-tryptase that segregate with inherited increases in basal serum tryptase levels in 35 families presenting with associated multisystem complaints. Individuals harboring alleles encoding three copies of α-tryptase had higher basal serum levels of tryptase and were more symptomatic than those with alleles encoding two copies, suggesting a gene-dose effect. Further, we found in two additional cohorts (172 individuals) that elevated basal serum tryptase levels were exclusively associated with duplication of α-tryptase–encoding sequence in TPSAB1, and affected individuals reported symptom complexes seen in our initial familial cohort. Thus, our findings link duplications in TPSAB1 with irritable bowel syndrome, cutaneous complaints, connective tissue abnormalities, and dysautonomia.

Human syndromes of immunodeficiency and dysregulation are characterized by distinct defects in T-cell receptor repertoire development

BACKGROUND Human immunodeficiencies characterized by hypomorphic mutations in critical developmental and signaling pathway genes allow for the dissection of the role of these genes in the development of the T-cell receptor (TCR) repertoire and the correlation of alterations of the TCR repertoire with diverse clinical phenotypes. OBJECTIVE The presence of T cells in patients with Omenn syndrome (OS) and patients with atypical presentations of severe combined immunodeficiency gene mutations presents an opportunity to study the effects of the causal genes on TCR repertoires and provides a window into the clinical heterogeneity observed. METHODS We performed deep sequencing of TCRβ complementarity-determining region 3 (CDR3) regions in subjects with a series of immune dysregulatory conditions caused by mutations in recombination activating gene 1/2 (RAG 1/2), IL-2 receptor γ (IL2RG), and ζ chain-associated protein kinase 70 (ZAP70); a patient with atypical DiGeorge syndrome; and healthy control subjects. RESULTS We found that patients with OS had marked reductions in TCRβ diversity compared with control subjects, as expected. Patients with atypical presentations of RAG or IL2RG mutations associated with autoimmunity and granulomatous disease did not have altered overall diversity but instead had skewed V-J pairing and skewed CDR3 amino acid use. Although germline TCRs were more abundant and clonally expanded in patients with OS, nongermline sequences were expanded as well. TCRβ from patients with RAG mutations had less junctional diversity and smaller CDR3s than patients with OS caused by other gene mutations and healthy control subjects but relatively similar CDR3 amino acid use. CONCLUSIONS High-throughput TCR sequencing of rare immune disorders has demonstrated that quantitative TCR diversity can appear normal despite qualitative changes in repertoire and strongly suggests that in human subjects RAG enzymatic function might be necessary for normal CDR3 junctional diversity.

ERBIN deficiency links STAT3 and TGF-β pathway defects with atopy in humans

Nonimmunological connective tissue phenotypes in humans are common among some congenital and acquired allergic diseases. Several of these congenital disorders have been associated with either increased TGF-&bgr; activity or impaired STAT3 activation, suggesting that these pathways might intersect and that their disruption may contribute to atopy. In this study, we show that STAT3 negatively regulates TGF-&bgr; signaling via ERBB2-interacting protein (ERBIN), a SMAD anchor for receptor activation and SMAD2/3 binding protein. Individuals with dominant-negative STAT3 mutations (STAT3mut) or a loss-of-function mutation in ERBB2IP (ERBB2IPmut) have evidence of deregulated TGF-&bgr; signaling with increased regulatory T cells and total FOXP3 expression. These naturally occurring mutations, recapitulated in vitro, impair STAT3–ERBIN–SMAD2/3 complex formation and fail to constrain nuclear pSMAD2/3 in response to TGF-&bgr;. In turn, cell-intrinsic deregulation of TGF-&bgr; signaling is associated with increased functional IL-4R&agr; expression on naive lymphocytes and can induce expression and activation of the IL-4/IL-4R&agr;/GATA3 axis in vitro. These findings link increased TGF-&bgr; pathway activation in ERBB2IPmut and STAT3mut patient lymphocytes with increased T helper type 2 cytokine expression and elevated IgE.