Abstract
Objective. An upregulation of type I interferon (IFN) stimulated genes [IFN score (IS)] was described in patients with adenosine deaminase 2 deficiency (DADA2). We describe the clinical course of 5 such patients and the role of IS as a marker of disease activity and severity.
Methods. Expression levels of IS were determined by quantitative real-time PCR.
Results. Five white patients were identified as carrying CECR1 mutations. The IS before treatment was elevated in 4 out of 5 patients and decreased after treatment.
Conclusion. Our data confirm the high variability of DADA2 and suggest type I IS as a biomarker of disease activity.
- INTERFERON
- ADA2 DEFICIENCY
- DISEASE BIOMARKER
Adenosine deaminase 2 deficiency (DADA2) is an autosomal recessive autoinflammatory disease1,2 caused by mutations in CECR1 (cat eye syndrome chromosome region 1). In some patients, the disease is mild and limited to skin; in others it is severe, with multiorgan involvement including ischemic/hemorrhagic strokes1,3.
An upregulation of type I interferon (IFN) stimulated genes, the so-called type I IFN score (IS), was first described in patients affected by Aicardi-Goutières syndrome (AGS)4 and in other disorders, including some patients with DADA25.
We report the association of the type I IS with disease activity and severity in 5 patients with genetically confirmed DADA2.
MATERIALS AND METHODS
Characteristics of the patients
The clinical and laboratory features of the patients are described in Table 1. Patients 1 to 4 have been included in the case series by Caorsi, et al3.
Patient 1
A 12-year-old girl had presented since 3 years of age with recurrent episodes of fever and persistent livedo reticularis of trunk and limbs. An increase in inflammatory markers was observed also during periods of well-being. A skin biopsy showed lymphocytic vasculitis. She was given glucocorticoids (GC), subsequently associated with thalidomide, with recurrence of symptoms following GC tapering. At 9 years, because of persistent recurrent fevers and biochemical inflammation, anakinra and cyclosporine were started but withdrawn because of inefficacy. She developed episodes of arthralgia and chest and abdominal pain, in addition to livedo reticularis.
Patient 2
An 8-year-old girl had presented since she was 6 with recurrent febrile episodes associated with abdominal pain and arthralgia/myalgia, characterized by marked increase of inflammatory measures. Subsequently, livedo developed.
Patient 3
A 13-year-old boy presented at age 1 with recurrent fever, arthralgia, and gastrointestinal symptoms. A colon biopsy revealed nonspecific inflammation. In the subsequent years, he developed arthritis and livedo reticularis of limbs. Increased inflammatory markers were observed also during periods of well-being. At the age of 8 years, GC therapy was started. He presented with seizures, neurosensorial hearing loss, and severe hypertension (HTN). Brain magnetic resonance imaging showed posterior reversible encephalopathy. A kidney computed tomography scan showed a typical triangular area compatible with kidney infarction that explained severe HTN. Further, he developed psoriasis, recurrent episodes of episcleritis, and behavioral disorder.
Patient 4
The younger brother of patient 3, although carrying the same mutations, showed a very mild phenotype characterized by a single episode of prolonged fever with abdominal pain and arthralgia that was resolved with a short cycle of GC therapy.
Patient 5
The patient was evaluated at the age of 18 years. She had presented since 10 years of age with persistent severe livedo reticularis of the limbs. She never presented with other signs or symptoms. Laboratory findings revealed normal inflammatory markers.
Genetic analysis
DNA was extracted from peripheral blood and DNA concentration and purity were quantified by ND-1000 spectrophotometer (NanoDrop; FL×800 Fluorescence Reader, BioTek). The CECR1 gene (NM_001282225.1) was sequenced through Sanger sequencing (patients 1, 2, 5) or targeted resequencing (patients 3 and 4) using a customized panel, and analyzed with the NextSeq platform (Illumina). Variants identified by next-generation sequencing have been validated by Sanger. Confirmatory segregation studies were performed on parents.
Gene expression studies
Total RNA was extracted from the blood of patients and of 10 healthy donors (HD) with a PAXgene (PreAnalytix) RNA isolation kit. Using a Superscript VILO cDNA synthesis Kit (Invitrogen), 2.5 µg of total RNA was reverse-transcribed. The type I IFN signature was defined by expression levels of 6 IFN-regulated genes (IFI27, IFI44L, IFIT1, ISG15, RSAD2, and SIGLEC1), measured by quantitative real-time PCR (qRT-PCR), using Taqman universal Master Mix (Applied Biosystems). Expression data were normalized using GAPDH (Applied Biosystems). Expression levels were calculated as 2−ΔCt. The type I IS was calculated as previously described by Rice and colleagues4,5. We considered as positive scores higher than 1.42 (Figure 1).
The study was performed after approval from the ethics committee of the Ospedale Pediatrico Bambino Gesù with the ethics approval number 1486/2017. Signed informed consent was obtained.
RESULTS
Mutations
Patient 1 carried 2 mutations in the CECR1 gene: a novel frameshift variant, c.144de1G, p.Arg49Glyfs*4, leading to a premature stop, and a missense mutation, c.1078A>G, p. Thr360Ala (rs775440641), already described in DADA23. Patient 2 is homozygous for c.1358A>G mutation, p.Tyr453Cys (rs376785840), already described in DADA2 deficiency1,3.
Siblings 3 and 4 carried 2 missense mutations: c.746T>C and c.1031C>T, in a compound heterozygous status. These variants have not been reported in other patients. Both p.Leu249Pro (rs757520466), and p.Pro344Leu reside in conserved positions and are predicted to be pathogenic by 2 Insilico software (Insilico Biotechnology) out of 3.
Patient 5 carries 2 missense mutations: the above-mentioned c.1358A>G, p.Tyr453Cys and a c.133C>T, p.Arg45Trp (rs777683953) variant. This has not been previously described, to our knowledge. It is predicted to be pathogenic by 2 Insilico software out of 3.
Type I IS
Four out of 5 patients had a positive IS (Figure 1B). Patient 4, with normal IS, had only 1 episode of prolonged fever and normal erythrocyte sedimentation rate and C-reactive protein (CRP). The other 4 patients all had chronic/recurrent symptoms. Patients 1 and 3 (with the highest IS) had more severe and persistent inflammatory features. We correlated the type I IS of each patient with levels of CRP at disease onset and after treatment, finding a significant correlation between the type I IS and CRP (r = 0.73, p < 0.05; data not shown). We have also analyzed the type I IS in other rheumatic disorders (Figure 1B).
All patients were treated with etanercept (ETN), with prompt and complete response. The type I IS decreased markedly in all patients and returned to normal in 2 out of the 4 patients with high IS (Figure 1C). To confirm an activation of type I IFN pathway, we measured plasma levels of CXCL9 and CXCL10, 2 chemokines induced by IFN-γ (type II IFN)6, in HD and in DADA2 patients before treatment with ETN. Plasma levels of CXCL9 and CXCL10 were comparable between HD and DADA2 patients, indicating that type II IFN signature is not activated in this cohort of patients (Figure 1D).
DISCUSSION
DADA2 is a monogenic autoinflammatory disease, characterized by heterogeneous signs and symptoms. Most patients present vasculopathy-related manifestations, such as livedoid skin and ischemic events. Mild autoimmunity and immunodeficiency have been observed in some patients1,3,7,8,9. Pure red cell aplasia and myositis were also described at onset10,11. A severe clinical picture with prominent cytopenia and lymphoproliferation has also been reported12. Recently DADA2 was diagnosed also in patients presenting with immunodeficiency of the B cell compartment13. On the other hand, asymptomatic subjects have also been described14.
Our patients confirm the phenotypic variability of DADA2. We observed a range of disease severity: from a limited cutaneous vasculitis without systemic inflammation (Patient 5), to severe multisystemic vasculitis in the older of the 2 described brothers (Patient 3). The latter presented with multiorgan involvement, including persistent systemic inflammation, deafness, neurological involvement, and malignant HTN, secondary to multiple renal infarctions. Kidney infarctions have never been described in DADA2, to our knowledge. Observation of HTN in a patient with definitive or suspected DADA2 should lead to imaging investigations of the kidneys. Further confirming the wide range of severity, his younger brother, albeit carrying the same genotype, showed a much milder phenotype, with a single episode of prolonged fever, abdominal pain, and arthralgia. However, he is the only patient in this cohort to show a mild hypogammaglobulinemia.
Enhanced IS is present in several diseases such as AGS, systemic lupus erythematosus, and juvenile dermatomyositis5,15,16, in which the activation of the type I IFN pathway has been shown to correlate with disease activity. Recently, an elevated IS was reported in 2 DADA2 patients17. In agreement with this observation, we found an increased IS in 4 out of 5 patients. In DADA2, the mechanism leading to the activation of the type I IFN pathway has not been clarified.
The disease shows complete response to tumor necrosis factor (TNF) inhibition3. The mechanistic relationship between deficiency of ADA2 and hyperproduction of TNF has not been clarified, and neither has the relationship between TNF and an elevated IS. A cross-regulation between type I IFN and TNF has been hypothesized in some autoimmune disorders18.
Whatever the mechanistic relationship might be, it is interesting to note that we found some degree of correlation between disease severity and the degree of elevation of the IS in our patients, suggesting that IS is related to disease severity. Indeed, a normal IS was found only in the patient with a very mild clinical phenotype. In 2 out of 4 patients with positive IS, the score rapidly normalized after treatment (patients 1 and 2), while in the other 2 patients (patients 3 and 5), it decreased.
Our data confirm the high variability of DADA2 regarding age of onset, severity, and organ involvement, even within the same family and among patients with the same mutations. This implies a role for other genetic and epigenetic modifiers, and possibly environmental factors in the disease expression19. Further, these data suggest that IS might represent a biomarker of disease activity, severity, and response to treatment in DADA2.
- Accepted for publication September 13, 2018.
REFERENCES
- 1.
- 2.
- 3.
- 4.
- 5.
- 6.
- 7.
- 8.
- 9.
- 10.
- 11.
- 12.
- 13.
- 14.
- 15.
- 16.
- 17.
- 18.
- 19.