Dominant negative OTULIN Related Autoinflammatory Syndrome

Biallelic loss of function mutations in the linear chain specific deubiquitinase (DUB) OTULIN (OTU Deubiquitinase With Linear Linkage Specificity) result in OTULIN Related Autoinflammatory Syndrome (ORAS). To date all reported ORAS patients have had homozygous or compound heterozygous loss of function mutations, however we identified a patient with a monoallelic heterozygous mutation p.Cys129Ser. Consistent with the ORAS phenotype, we observed accumulation of linear ubiquitin chains, increased sensitivity to


Introduction
Ubiquitination is the reversible post-translational covalent modification in which ubiquitin (Ub) is conjugated to target proteins to modulate their function.Ubiquitin itself can be ubiquitinated to generate poly ubiquitin chains by attachment of the incoming ubiquitin to any of seven different lysine residues (K6, K11, K27, K29, K33, K48, K63) or in a linear manner using the N-terminal methionine (M1).Linear or Met1-linked Ub chains are particularly important for innate immune receptor signalling and control pro-inflammatory signalling through nuclear factor-κB (NF-κB) or mitogen-activated protein kinases (MAPK), and for the inhibition of cell death (Swatek and Komander, 2016;Jahan et al., 2021).
Similar to patients with loss of function mutations in LUBAC, patients harbouring biallelic loss-of-function mutations in OTULIN develop a severe auto-inflammatory disease with skin involvement, termed ORAS (OTULIN-related auto-inflammatory syndrome, also known as Otulipenia, OMIM # 617099) (Damgaard et al., 2016;Zhou et al., 2016;Tao et al., 2021;Zinngrebe et al., 2022).Furthermore, mice deficient for OTULIN or expressing a catalytically inactive OTULIN mutant (C129A) die mid-gestation due to angiogenic deficits and aberrant cell death mediated by TNFR1 signalling and receptor-interacting protein kinase 1 (RIPK1) kinase activity (Rivkin et al., 2013;Damgaard et al., 2016).To date all reported ORASassociated variants have been biallelic loss of function, while heterozygous loss of function variants can compromise patient immune response to certain pathogens such as Staphylococcus aureus (S. aureus) with the potential to result in severe necrotising disease (Spaan et al., 2022).Herein we describe the first heterozygous, dominant negative variant in OTULIN to cause ORAS.This unexpected result demonstrates the importance of understanding the functional consequences of specific mutations, expanding our understanding of mutations causing ORAS and OTULIN biology. .

Patient Phenotype
The patient is a male, born to non-consanguineous parents.Born at weeks of gestation by emergency caesarean section for maternal eclampsia and required mechanical ventilation for after birth.At days old he developed peri-umbilical erythema and was diagnosed with a presumed abscess, which was refractory to broad spectrum antibiotics.Surgery was performed and significant inflammation was observed around a urachal remnant, with high numbers of neutrophils seen on histopathological examination, yet no bacteria was cultured from the site.The surgical closure dehisced and he was left with an abdominal wound that failed to close (Figure 1a).Across the period of healing of months, the only positive culture was a light growth of methicillin sensitive S. aureus.
At weeks of age, the patient suffered an acute respiratory deterioration (Figure 1b) associated with extensive body edema, hypotension and presumed pulmonary edema.High ventilation pressures were required to maintain lung oxygenation.Again, no organisms were isolated other than a rhinovirus in nasopharyngeal aspirate.Interestingly, corticosteroids were initiated as a supportive measure and the lungs immediately improved.Furthermore, the initiation of corticosteroid treatment correlated with the abdominal wound beginning to heal.This has continued, although he developed a spontaneous cutaneous stoma from his duodenum (Figure 1a).In addition to steroids he was treated with TNF-blockade (Adalimumab) which seemed to improve the rate of healing allowing for a reduced steroid dose, and JAK inhibition (Ruxolitinib).Furthermore, the rate of healing was noted to be remarkably better when he was covered with broad spectrum antibiotic prophylaxis, initially with timentin, and subsequently intravenous and then nasogastric co-trimoxazole.During this time the patient also developed a systolic murmur associated with a 1.2x1.6mmechogenic focus on the tricuspid valve, and was treated for infective endocarditis, but again with no causative organism identified on repeated culture.
Throughout his intensive care unit admission of many months, he developed repeated areas of swelling and erythema consistent with panniculitis, and additionally developed lesions that were believed to represent pathergy, with sterile pustular abscesses forming at the sight of prior trauma, including injection and cannula sites at the ankle and thigh (Figure 1c).Consistent with the abdominal wound healing, these lesions were responsive to corticosteroids.
Investigations demonstrated raised inflammatory markers (CRP 100-200mg/L) and elevated neutrophils (30-50x10 9 /L), monocytes (2-10x10 9 /L), eosinophilia (1-3x10 9 /L) and a persistent thrombocytopaenia (below 100x10 9 /L), which continued until inflammation was controlled with corticosteroids (Figure 1d).The patient also demonstrated an initial hypogammaglobulinemia (IgG =0.59g/L, IgA < 0.07g/L), although this may have related to prematurity.In contrast to the elevated myeloid populations, lymphocyte subsets were largely normal (data not shown).With time he has begun to develop antibodies normally (IgA = 0.31g/L, IgM = 0.61g/L) with IgG still replaced.Biopsy of perilesional skin from the abdominal wound showed heavy acute inflammatory exudate with diffuse suppuration and areas of necrosis.Persistent inflammation and evidence of cell death were considered consistent with an autoinflammatory disease caused by an inborn genetic error.

Genetic studies
Trio exome sequencing identified a de novo variant in OTULIN, ENST00000284274.5:c.386G>C,resulting in a missense change from cysteine to serine at .position 129 (p.Cys129Ser).This variant was previously unreported and absent from databases of normal variation, including gnomAD (v2.1.1 and v3.1.2).In silico pathogenicity prediction tools were equivocal with 11 out of 22 queried by the Varsome website consistent with a deleterious effect, a Combined Annotation Dependent Depletion (CADD) score of 24.6, and a moderate physiochemical change (Grantham score = 112).Cysteine 129 is part of the OTULIN catalytic domain and is essential for OTULIN enzymatic activity (Keusekotten et al., 2013;Rivkin et al., 2013).The amino acid change from cysteine to serine renders the catalytic site inactive, leading to a loss of OTULIN activity.Indeed, a mouse model of a similar variant, C129A OTULIN has been shown to drive an autoinflammatory disease phenotype characterised by aberrant cell death and dysregulation of TNF and the type I interferon (IFNab) signalling pathways (Heger et al., 2018).We hypothesised that the C129S variant likewise drives autoinflammatory disease.However, as all reported ORAS patient variants result in almost complete loss of OTULIN function, this heterozygous C129S variant may act in a dominant negative fashion to drive disease.
Heterozygous C129S mutation of OTULIN does not alter protein stability but affects deubiquitinase activity.
The OTULIN C129S mutant showed similar protein stability with similar melting temperature to wild type (WT) OTULIN in a Tycho NT.6 assay (Figure 2a), and as expected, OTULIN C129S or C129A variants are devoid of catalytic activity (Supp Fig. 1a).We did not observe a consistent difference in OTULIN transcription or protein expression in patient fibroblasts (Figure 2b,c, Supp Fig. 1b).OTULIN deficiency in certain cell types of ORAS patients can lead to loss of LUBAC components (Damgaard et al., 2016), however we did not observe a consistent decrease in any LUBAC component in patient fibroblasts at either the transcript or protein level (Figure 2b,c, Supp Fig. 1b).
Whist the C129S mutation did not alter OTULIN protein stability this mutation did affect OTULIN enzymatic activity.A chemically enhanced, linear di-ubiquitin activity based probe (ABP) used to covalently and specifically modify OTULIN in cell lysates (Weber et al., 2017) confirmed that in patient fibroblasts, both active and inactive forms of OTULIN are coexpressed, in seemingly equal amounts (Figure 2d).C129S mutant OTULIN drives the accumulation of linear ubiquitin chains in the presence of wild type OTULIN.
While we did not observe changes in OTULIN or LUBAC protein levels in patient cells we did observe accumulation of linear ubiquitin chains as assessed by GST-NEMO Linear Tandem Ubiquitin Binding Entity (TUBE) pull down (Figure 3a).Linear ubiquitin chain levels were notably higher in patient fibroblasts compared to what was observed healthy donor samples (Figure 3a).Moreover, similar results were observed when we transiently transfected HEK 293T cells with WT or C129S OTULIN (Figure 3b).Importantly, as we performed this experiment in wild type HEK 293T cells, mutant OTULIN drove accumulation of Met-1 chains despite the presence of endogenous OTULIN.Thus, overexpressed C129S OTULIN has a dominant negative effect over endogenous WT OTULIN, demonstrating that this mutation may cause autoinflammatory disease even in a heterozygous context.
Collectively, these results are strikingly different to a distinct, homozygous OTULIN:pGly281Arg mutant, which destabilises OTULIN and leads to loss of LUBAC components HOIP and SHARPIN in patient fibroblasts (Damgaard et al., 2019). .

OTULIN C129S mutation associates with increased sensitivity to TNF induced cell death and spontaneous inflammatory signalling
A recent study by Spaan et al demonstrated that heterozygous OTULIN loss of function variants confer a predisposition to sporadic severe necrosis of the skin and lungs, typically, but not exclusively, after infection with S. aureus (Spaan et al., 2022).Our patient's phenotype was more pervasive but his wound has been exacerbated by microbial infection.Along with corticosteroid treatment, antibiotics were essential to wound recovery, consistent with bacterial invasion contributing to his phenotype.Given that this patient has a heterozygous variant, we wanted to determine if the patient is suffering from ORAS or OTULIN haploinsufficiency.One of the key cellular differences between OTULIN haploinsufficiency and ORAS, is sensitivity to TNF induced cell death.OTULIN haploinsufficient fibroblasts are not sensitive to TNF induced cell death while fibroblasts from ORAS patients exhibit enhanced cell death via increased complex II formation (Damgaard et al., 2019;Spaan et al., 2022).
We investigated viability of OTULIN C129S patient fibroblast compared to healthy donor fibroblasts upon treatment with TNF in combination with the protein synthesis inhibitor cycloheximide (CHX).C129S OTULIN patient fibroblasts died at a significantly higher rate compared to healthy donor cells, as assessed by cellular inclusion of propidium iodide dye (Figure 3c).Treatment with the pan caspase inhibitor, QVD significantly reduced TNF-CHX induced cell death, while the RIPK1 kinase inhibitor, necrostatin-1 (Nec-1) only slightly inhibited cell death.Combination treatment of QVD and Nec-1 entirely blocked TNF-CHX induced cell death of patient fibroblasts (Figure 3c).Thus, OTULIN C129S patient fibroblasts die primarily by apoptosis and, to a lesser extent, by necroptosis in response to TNF+CHX stimulation.This matches previous observations made in fibroblasts derived from ORAS patients, despite our patient having different LUBAC/OTULIN levels (as mentioned above), and does not match observations made in OTULIN haploinsufficient individuals (Damgaard et al., 2019;Spaan et al., 2022).
In contrast to ORAS, patients with heterozygous loss of function mutations in OTULIN do not exhibit spontaneous autoinflammatory disease, and investigation of specific cell types did not reveal any subclinical inflammatory disturbances in these individuals (Spaan et al., 2022).Despite our patient having a heterozygous OTULIN variant, we observed a marked increase in transcription of the proinflammatory cytokines, IFNB1 and IL6 and to a lesser extent, TNF in our patient's peripheral blood mononuclear cells (PBMCs) (Figure 3d).Along with elevated transcription of IFNB1, we also observed increased basal secretion of IL-6 from OTULIN C129S patient fibroblasts compared to healthy donor lines (Figure 3e,f).
IFNB1 is a member of the type I IFN family, this master cytokine family triggers transcription of hundreds of genes collectively known as Interferon stimulated genes (ISGs).Consistent with elevated IFNB1 in patient cells, we also observed elevated expression of the ISGs IRF7, MX1, ISG15, USP18, IFIT1, IFI27 and IFI44l in patient fibroblasts, compared to two healthy donors (Figure 3e).Similarly, transcription of IRF7 was elevated in patient PBMCs compared to healthy donors.However due to material limitations we could not analyse a full panel of ISGs (Figure 3d).Again, this elevated inflammatory gene transcription is consistent with the ORAS phenotype, in which Tao et al recently reported an elevated type I IFN gene signature in the blood of ORAS patients, with loss of OTULIN resulting in accumulation of Ub chains on proteasomal subunits inhibiting proteasome function (Tao et al., 2021).In contrast, expression of ISGs in PBMCs from OTULIN haploinsufficient patients were not elevated (Spaan et al., 2022).Finally, a similar inflammatory gene signature was observed in THP-1 cells stably .expressing the C129S OTULIN mutation compared to THP-1 cells expressing WT OTULIN and the parental cell line (Figure 3g).
Collectively this data demonstrates that the OTULIN C129S variant, although heterozygous, drives the autoinflammatory disease, ORAS.To this point, treatment with a TNF blocking therapy, adalimumab has allowed the patient to begin weaning off corticosteroids.Blockade of TNF signalling dramatically reduced CRP levels and promoted a decrease in numbers of circulating myeloid cells (Figure 1d).Furthermore, adalimumab therapy supported abdominal wound healing, likely due to inhibition of TNF induced cell death.The patient is now 2 months post-op following closure of the wound.A Gore-Tex patch was used to recreate his abdominal wall (Figure 1a) and is currently re-established on full feeds.
It is important to note that this patient continues to exhibit increased susceptibility to bacterial infection.For this reason, he is maintained on co-trimoxazole as an antimicrobial prophylaxis.Discontinuation of antibiotics at various points during the patient's treatment correlated with a deterioration of abdominal wall healing while re-initiation of antibiotics greatly aided healing.These observations are consistent with there being a microbial contribution to patient pathology, however despite repeated testing, we did not consistently identify a causative pathogen.Decreased or complete loss of OTULIN causes the dysregulation of ubiquitination of caveolin-1, a scaffolding protein which promotes cell surface retention of S. aureus's α-toxin receptor, A Disintegrin and Metalloproteinase 10 (ADAM10).Greater cell surface expression of ADAM10 enhanced α-toxin cytotoxicity leading to cell death (Spaan et al., 2022).To date, severe necrotising disease has only been reported in OTULIN haploinsufficient patients, however Spaan et al demonstrated that this dysregulation of caveolin-1 and ADAM10 was common to patients with both heterozygous and homozygous loss of function variants in OTULIN (Spaan et al., 2022).The increased sensitivity to TNF induced cell death and increased inflammatory gene transcription in OTULIN C129S patient cells, as well as the transfer of these features into OTULIN sufficient cell lines by over expression of the OTULIN C129S mutant (Figure 3c) demonstrate that we are reporting the first case of ORAS caused by a heterozygous mutation.Moreover, study of this patient and his necrotising wound demonstrate that microbes may enhance ORAS disease pathology and addition of antibiotics to the treatment regime may prove beneficial, particularly in the context of treatment with therapeutics which block the key antimicrobial cytokine, TNF.
To counter inflammatory signalling driven by elevated type I IFNs observed in patient cells the JAK inhibitor ruxolitinib was also trialled in this patient.However, the discontinuous bowel wound may impede absorption and so the exact benefit of this drug is currently unknown.Given that ORAS patients have been demonstrated to have an ISG signature and the high success of JAK inhibitor treatment in other autoinflammatory diseases which have an ISG signature (Sanchez et al., 2018) it would be of interest to determine if ruxolitinib therapy could support complete cessation of steroids.

C129S OTULIN mutation allows for accumulation of Met-1 ubiquitin chains on LUBAC
The data above establish that a heterozygous C129S mutation in OTULIN is drives an ORAS phenotype.In contrast to other ORAS variants which lead to loss or substantial decrease in OTULIN protein levels, C129S OTULIN has comparable stability to WT OTULIN and total OTULIN protein levels in patient fibroblasts are similar to the levels observed in healthy donors (Figure 2a,c).We observed similar levels of OTULIN pulled down in the TUBE assay in HEK cells transiently over-expressing both WT and C129S OTULIN (Figure 3b), implying that C129S OTULIN can bind to linear ubiquitin chains; yet as Supp Figure 1a shows, C129S OTULIN cannot cleave linear ubiquitin chains.Thus, the C129S mutant OTULIN is likely to be acting in a dominant negative manner to inhibit WT OTULIN function and driving inflammatory disease.
We hypothesised that OTULIN C129S was binding to Met-1 Ub chains and protecting these chains from hydrolysis by wild type OTULIN.OTULIN C129A is the highest affinity Met1diubiquitin receptor described to date with a binding constant of 112 nM (Keusekotten et al., 2013) and OTULIN C129S likely similarly binds, yet cannot cleave Met1-linked Ub chains.However, even at a 5:1 molar ratio of OTULIN C129S to WT, all di-Ub was cleaved in vitro, likely reflecting the dynamic nature of the interaction (Figure 4a).Interestingly, these in vitro results are in contrast with conditions in patient cells in which Met1-linked chains do accumulate in the heterozygous 1:1 setting.
To understand where the stabilised ubiquitin chains are located, we investigated some of the known OTULIN substrates.OTULIN binds to LUBAC itself and inhibits autoubiquitination of the complex (Elliott et al., 2014;Schaeffer et al., 2014); with inactive OTULIN, ubiquitinated LUBAC components are readily observed.To test whether this observation holds true in a heterozygous setting, we tested for increased autoubiquitination of LUBAC components, which may lead to inhibition of LUBAC function (Heger et al., 2018).
We assessed OTULIN binding to the LUBAC complex in patient and healthy donor fibroblasts by immunoprecipitation (IP) of SHARPIN and observed increased interaction of OTULIN and LUBAC in patient fibroblasts (Figure 4b).Consistent with these results, IP of FLAG tagged OTULIN C129S and WT stably expressed in HEK cells revealed that SHARPIN and to a lesser extent, HOIP, immunoprecipitated with OTULIN C129S were more heavily ubiquitinated compared to the HOIP and SHARPIN pulled down by WT OTULIN (Figure 4c).It is interesting that in this context, active wild type OTULIN which is also present in HEK cells, is unable to revert SHARPIN polyubiquitination status.Additionally, the overall amount of Met-1 ubiquitin chains immunoprecipitated by OTULIN C129S was elevated compared to OTULIN WT (Figure 4c).Thus, the C129S OTULIN heterozygosity leads to accumulation of Met-1 ubiquitin chains on LUBAC complexes, which may drive ORAS in patients.The accumulation of Met1-linked polyubiquitin on LUBAC and other substrates acts as an inflammation trigger and increases sensitivity to drive TNF induced cell death and uncontrolled autoinflammatory signalling.

Conclusion
We have demonstrated the mechanism by which a heterozygous variant in OTULIN can act in a dominant negative manner to cause ORAS.Considering the recently published phenotype of OTULIN haploinsufficient patients it is surprising that this patient suffers from ORAS.Our patient's phenotype is likely due to the unique mutation in the catalytic domain of OTULIN, which changes OTULIN into an inactive, Met1-linkage specific ubiquitin receptor without affecting its stability, cellular levels or the OTULIN/LUBAC interaction.In contrast, individuals with a different variant in the OTULIN catalytic triad, N341D, do not present with ORAS, but have OTULIN haploinsufficiency related complications or no phenotype (Spaan et al., 2022).The N341D mutation decreases OTULIN affinity to negatively charged proteins such as Ub (Keusekotten et al., 2013).It is likely that this decreased affinity results in a loss of function OTULIN rather than a dominant negative OTULIN, as observed with the C129S mutation.
. This is the first report of classical ORAS caused by a heterozygous variant.Importantly, understanding the disease-causing effects of this mutation resulted in patient diagnosis and effective, lifesaving treatment.Our study demonstrates the importance of understanding the functional implications of a variant for clinical diagnosis and expands our understanding of variants causing ORAS and OTULIN biology. .

Patient samples
Patient PBMC samples and fibroblast cell line were generated from a peripheral blood sample and skin biopsy from the patient at after obtaining consent HREC/15/MonH/31 and HREC/15/SCHN/346.Some aspects of patient data have been redacted from this manuscript, if required, please contact the corresponding author to request access to those data.The HD#1 fibroblast line was generated from a skin biopsy at the National Institutes of Health (NIH), NIH Institutional Review Board-approved natural human history study (www.clinicaltrials.gov/ct2/show/NCT02974595)NIH #17-I-0016 "Studies of the natural history, pathogenesis, and outcome of autoinflammatory diseases".HD#2 and HD#3 fibroblast lines were purchased from the American Type Culture Collection and Lonza respectively.HD#4 and HD#5 PBMC samples were generated from blood draws conducted on adults participating in the Volunteer Blood Donor Registry (VBDR) at WEHI, Human ethics number: HREC ID 18/07.PBMCs were isolated from whole blood using Ficoll (GE Healthcare), frozen in FCS with 10% DMSO, and stored in liquid nitrogen (long term) or −80°C (short term) until use.Fibroblasts were cultured in 10% FCS DMEM at 37°C in a humidified atmosphere with 5% CO2.All participants, or their legal representatives, consented to take part in this study and to have the results of this research published.

Plasmid mutagenesis
We purchased a custom pLV plasmid expressing N terminal FLAG tagged OTULIN and mCherry reporter from Vector Builder.A C129S OTULIN plasmid was obtained via site-directed mutagenesis of the pLV FLAG-OTULIN plasmid using the QuikChange Lightning Kit (Agilent Technologies) using the following mutagenesis primers: FWD: AGTCCGTGGTGATAATTACTCTGCACTGAGGGCC and REV: GGCCCTCAGTGCAGAGTAATTATCACCACGGACT, designed using the Agilent Primer Design Program, synthesised by Integrated DNA technologies.Successful mutagenesis of TGT>TCT was confirmed via Sanger Sequencing.

Stable expression of OTULIN and C129S OTULIN in cell lines
Third generation lentiviral constructs (pLV) for wild type OTULIN (VectorBuilder) and C129S OTULIN (see plasmid mutagenesis) were used to generate lentivirus as described previously (Balka et al., 2020).Breifly, 1.5x10 6 HEK293T cells were seeded into a 10cm 2 dish (Corning), after confirmation of cell adherence, HEK293T cells were transiently transfected with pLV OTULIN plasmids, pMDL (packaging), RSV-REV (packaging) and VSVg (envelope) using LipoFectMax (ABP biosciences), diluted in OptiMEM, to generate lentiviral particles.The cell culture supernatant was replaced 24hrs later with appropriate media (i.e.: 10% FCS RPMI for THP-1 cells or 10% FCS DMEM for HEK293T cells).Supernatant was collected a further 24 hours later and filtered through a 0.45µm filter prior to transduction of cell lines.For transduction of THP-1 and HEK293T cells 0.5-3x10 6 cells were centrifuged with the lentivirus in the presence of polybrene (Sigma-Aldrich) at 839 x g for 3 hours at 32°C and cultured at 37°C overnight.Cells were washed x3 with media to remove all lentivirus.Effectively transduced cells were subsequently selected for by fluorescence activated sorting of mCherry positive cells to generate stable cell lines carrying FLAG tagged OTULIN or FLAG tagged C129S OTULIN.

Tycho Measurement for Inflection Temperature
The proteins were diluted to 1.0 μM in Tris buffer (20 mM Tris-HCl (pH 7.4), 150 mM NaCl, and 1 mM DTT).Thermal shift assays were performed using Tycho NT.6 (NanoTemper Technologies).The inflection temperatures of each protein were calculated by the tycho NT.6 software.
Real-time qPCR for cell lines 5x10 6 PBMCs, 0.5-1x10 6 THP-1 cells or confluent wells of fibroblasts were lysed using TRIzol reagent (Invitrogen) for 5 minutes at room temperature.Samples were either stored at -80oC or immediately processed.RNA extraction were performed as per the manufacturers' instructions.cDNA was generated from 0.3 to 1 μg of total RNA using the Invitrogen SuperScript III First-Strand Synthesis System for reverse transcription PCR (RT-PCR) (Invitrogen).qPCR was performed using SYBR Green/ROX qPCR Master Mix (Thermo Fisher Scientific) on a ViiA 7 Real-Time PCR system (Thermo Fisher Scientific).Primers for genes of interest and housekeeping genes were used as described previously (Davidson et al., 2022) or listed in Table 1.Each sample was run in duplicate, and samples were normalized using the housekeeping gene ACTIN.Results were analysed using the ΔΔCt method and represented as fold change of the average of HD samples from the same experiment.Immunoblotting 0.3x10e5 fibroblasts were seeded in 6 well plates (corning) and cultured for 18-24 hours prior to lysis.Fibroblasts were lysed in 1× radioimmunoprecipitation assay (RIPA) buffer [1% Triton X-100, 20 mM tris-HCl (pH 7.4), 150 mM NaCl, 1 mM EDTA, 0.5% sodium deoxycholate, 3.5 mM SDS, 10% glycerol, 10 mM NaPPi, 5 mM NaF, and 1 mM Na3VO4] supplemented with 1 mM phenylmethylsulfonyl fluoride and cOmplete protease inhibitors (Roche Biochemicals) .

Assessment of OTULIN activity using ABP
Fibroblast samples were lysed in lysis buffer (25 mM HEPES pH 7.5, 150 mM NaCl, 0.2% NP-40, 10% glycerol, 1 mM DTT) supplemented with PhosSTOP phosphatase inhibitor (Roche) and without protease inhibitor cocktail.Lysates were divided into aliquots (20-50μL) reaction.20µg/ml or stated concentrations of OTULIN ABP were added to the samples and incubated at room temperature for 30 min.Reactions were stopped by boiling in reducing sample buffer and analysed by as per described in immunoblotting section.Band densitometry was assessed using ImageJ2, version 2.9.0/1.53tsoftware.

TUBE pull down
Endogenous polyUb conjugates were assessed in fibroblast lines using TUBE affinity reagents.Briefly, TUBE lysis buffer (20 mM Na2HPO4, 20 mM NaH2PO4, 1% NP-40, 2 mM EDTA) was supplemented with 1 mM DTT, cOmplete protease inhibitors (Roche Biochemicals), and 50 μg/ml of GST-TUBE1 (Lifesensors, Malvern, PA).HD and patient fibroblasts were plated in 15cm 2 dishes at 4x10 6 cells/dish and cultured for 48 hours.Fibroblasts were lysed in 1ml of ice-cold TUBE lysis buffer and processed as described previously (Hjerpe et al., 2009).After isolation, WCL and TUBE pull down samples were boiled in reducing sample buffer and analysed by as per described in immunoblotting section.

Analysis of cell death
To measure cell death levels, fibroblast cell lines were seeded at 2x104 cells per well in a 48well flat-bottomed plate.18-24 hours later, cells were treated with either one single treatment or one combination treatment.Single treatments were 100 ng/ml TNF, 50 μg/ml CHX, 20 μM QVD, 20 μM DMSO and 10 μM Nec-1.Combination treatment were TNF+CHX, TNF+CHX+QVD, TNF+CHX+QVD+Nec-1, and TNF+CHX+Nec-1.PI was added to cell media and cells were imaged using an Incucyte, every hour over 24 hours.Cell death was graphed as PI Object Count / Phase Object Count (%). .

Cytokine measurements
To measure protein levels of IL-6 fibroblast cell lines were seeded at 5x10 3 cells per well in 96-well flat bottomed plate.18-24 hours later, culture supernatants were collected, and IL-6 concentration were measured by ELISA using the Human IL-6 Quantikine ELISA Kit, R&D Systems, as per the manufactures' instructions.

Generation of recombinant OTULIN proteins
The full-length OTULIN construct (WT and C129A mutant) has been described previously (Keusekotten et al, 2013).OTULIN mutant (C129A and C129S) was generated in pOPINB by site-directed mutagenesis using In-Fusion HD Cloning system with inverse PCR.OTULIN constructs were expressed in Rosetta2 (DE3) pLacI cells.Cells were grown at 37 °C in 2xYT medium with 50 μg/ml kanamycin and 34 μg/ml chroramphenicol to an OD600 of 0.6.The cultures were cooled to 18 °C before overnight induction with 200 μM of IPTG.Cells were resuspended in lysis buffer (50 mM Tris-HCl (pH 7.4), 150 mM NaCl, 2 mM β-mercaptoethanol, DNase I, lysozyme, and protease inhibitor cocktail) and lysed by sonication.Lysates were clarified by centrifugation at 19,500 rpm for 30 min, and applied to Cobalt resin for gravity flow purification.The His6 tag was cleaved overnight with His-3C protease during dialysis (20 mM Tris-HCl (pH 8.0), 50 mM NaCl, and 2 mM β-mercaptoethanol).Cleaved proteins were reapplied to cobalt resin, and flow-through was collected.The proteins were further purified by anion exchange chromatography (Resource Q, GE Healthcare).Eluted proteins were subjected to size exclusion chromatography (HiLoad 16/600 Superdex 75, GE Healthcare) in SEC buffer (20 mM Tris-HCl (pH 7.4), 150 mM NaCl, 4 mM DTT).Purified proteins were concentrated and flash-frozen prior to storage at -80°C.

Ubiquitin chain cleavage assay
Qualitative DUB assays were performed as previously described (Keusekotten et al, 2013).Briefly, OTULIN WT and mutants (C129A and C129S) were diluted to a 2x stock concentration in 20 mM Tris-HCl (pH 7.4), 150 mM NaCl, and 10 mM DTT, and incubated with 1 μM of Met1-diUb in the buffer (50 mM Tris-HCl (pH 7.4), 50 mM NaCl, and 5 mM DTT) at 37 °C.The samples were taken at different time points and mixed with 4x LDS sample buffer to stop the reaction.The samples were resolved by SDS-PAGE and visualised by Coomassie staining.For competitive cleavage assays, the indicated concentration of OTULIN (C129A) was preincubated with 5 μM of Met1-diUb for 5 min on ice, and 0.5 nM of WT OTULIN was added to the reaction.

Immunoprecipitation
For Endogenous SHARPIN IP, HD and patient fibroblasts were plated in 15cm 2 dishes at 4x10 6 cells/dish and cultured for 48 hours.5 µg of polyclonal SHARPIN antibody (Proteintech, 14626-1-AP) was bound to 50 µl Dynabeads (Thermo Fisher Scientific) per sample by incubating for 2 hours at 4°C on rotator.Beads were washed x3 with PBS and resuspended in 500 µL PBS.To crosslink antibody to beads, 5 mM of BS3 (Thermo Fisher Scientific) was added and incubated for 30 min at room temperature on a rotator.Crosslink reaction was halted by addition of 1M Tris-HCl and beads were incubated for a further 15 min at room temp on rotator.Beads were washed x3 with DISC buffer (20 mM Tris-HCl, 150 mM NaCl, 2 mM EDTA, 1% Triton X-100 and 10% Glycerol) supplemented with protease inhibitor cocktail tablet (Roche) and Phos-STOP phosphatase inhibitor tablet (Roche).Cells were lysed in DISC lysis buffer for 30 minutes on ice.Insoluble material was removed by centrifugation at 13,000 rpm .at 4°C for 30 min.50 μl of each sample was kept for WCL and processed as per immunoblot samples.SHARPIN antibody conjugated beads was added per 1 ml of lysate and incubated at 4°C overnight on a rotator.Samples were washed 3× with DISC buffer and resuspended in 30 μl of sample buffer.Samples were then boiled for 5 min and subjected to immunoblotting (as per the "Immunoblotting" section).

Figure 1 .Figure 2 .
Figure 1.Patient with heterozygous C129S variant in OTULIN exhibits features consistent with ORAS.(A) Photographs detailing surgical wound progression.(B) Acute respiratory deterioration.(C) Sterile pustular abscesses at sites of previous trauma, e.g.: injection site on ankle.(D) Frequencies of platelets (PLT), neutrophils, monocytes and eosinophils and concentration of C Reactive Protein (CRP) in patient blood measured weekly.Red dotted lines indicate normal range and red arrow indicates commencement of adalimumab treatment.(A-C) Please contact the corresponding author to request access to data.weeksobservation Figure2A

Figure 3 .
Figure 3. C129S OTULIN mutant protein associates with elevated inflammation.(A,B) TUBE (tandem ubiquitin binding entity) reagent was used to pull-down polyubiquitin in cell lysates.Linear ubiquitin chains were then specifically probed for in TUBE pull down and whole cell lysate (WCL) samples.Equal loading was confirmed by blotting for actin in the WCL.This was performed in (A) lysates from HD#1, HD#2 and patient fibroblasts and in (B) lysates from HEK293T cells transiently transfected with either WT or C129S OTULIN.(C) HD#1, HD#2 and patient fibroblasts were treated with TNF (100 ng/ml), CHX (50 µg/ml), Q-VD-OPh (10 µM) and Nec-1 (10 µM) or a combination thereof, as indicated.Cell death was measured over a period of 24 hours by cellular inclusion of propidium iodide dye.(D,E,G) Transcription of inflammatory genes including: IFNB1, IRF7, IL6, TNF, MX1, ISG15, USP18, IFIT1, IFI27 and IFI44L was assessed by qPCR in (D) patient and healthy donor PBMCs, (E) patient and healthy donor fibroblast lines and (G) THP-1 cells stably expressing WT or C129S OTULIN or non-

.
Supp Figure 1.C129S variant renders OTULIN catalytically inactive.(A) Recombinant WT OTULIN and C129A and C129S mutant OTULIN proteins were incubated at stated concentrations with Met1-linked di-Ub chains.Cleavage capacity was assessed from 0 to 180 minutes.Arrows indicate uncleaved Met-1 di-Ub and cleaved Ub. (B) Fibroblast lysates from HD#1, HD#2 and patient lines assessed for protein levels of OTULIN, HOIP, HOIL-1, SHARPIN and Actin (loading control) were assessed by immunoblot.Densitometry analysis protein expression was performed and graphed as a function of actin loading control.Data are pooled from at least three experiments, means +/-SEM, and statistical significance was assessed by one way ANOVA

Table 1 :
qPCR primer sequences used in this study to assess transcription of OTULIN and LUBAC components.