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Translation of cytoplasmic UBA1 contributes to VEXAS syndrome pathogenesis
Ferrada, Marcela A; Savic, Sinisa; Ospina Cardona, Daniela; Collins, Jason Charles; Alessi, Hugh; Gutierrez-Rodrigues, Fernanda; Uthaya Kumar, Dinesh Babu; Wilson, Lorena; Goodspeed, Wendy; Topilow, James S; Paik, Julie J; Poulter, James A; Kermani, Tanaz A; Koster, Matthew J; Warrington, Kenneth; Cargo, Catherine A; Tattersall, Rachel S; Duncan, Christopher Ja; Cantor, Anna; Hoffmann, Patrycja; Payne, Elspeth M; Bonnekoh, Hanna; Krause, Karoline; Cowen, Edward W; Calvo, Katherine R; Patel, Bhavisha A; Ombrello, Amanda K; Kastner, Daniel L; Young, Neal S; Werner, Achim; Grayson, Peter C; Beck, David B
Somatic mutations in UBA1 cause VEXAS (Vacuoles, E1 ubiquitin activating enzyme, X-linked, Autoinflammatory Somatic) syndrome, an adult-onset inflammatory disease with an overlap of hematologic manifestations. VEXAS syndrome is characterized by a high mortality rate and significant clinical heterogeneity. We sought to determine independent predictors of survival in VEXAS and to understand the mechanistic basis for these factors. We analyzed 83 patients with somatic pathogenic variants in UBA1 at p.Met41 (p.Met41Leu/Thr/Val), the start codon for translation of the cytoplasmic isoform of UBA1 (UBA1b). Patients with the p.Met41Val genotype were most likely to have an undifferentiated inflammatory syndrome. Multivariate analysis showed ear chondritis was associated with increased survival, while transfusion dependence and the p.Met41Val variant were independently associated with decreased survival. Using in vitro models and patient-derived cells, we demonstrate that p.Met41Val variant supports less UBA1b translation than either p.Met41Leu or p.Met41Thr, providing a molecular rationale for decreased survival. In addition, we show that these three canonical VEXAS variants produce more UBA1b than any of the six other possible single nucleotide variants within this codon. Finally, we report a patient, clinically diagnosed with VEXAS syndrome, with two novel mutations in UBA1 occurring in cis on the same allele. One mutation (c.121 A>T; p.Met41Leu) caused severely reduced translation of UBA1b in a reporter assay, but co-expression with the second mutation (c.119 G>C; p.Gly40Ala) rescued UBA1b levels to those of canonical mutations. We conclude that regulation of residual UBA1b translation is fundamental to the pathogenesis of VEXAS syndrome and contributes to disease prognosis.
PMID: 35793467
ISSN: 1528-0020
CID: 5268432
Disorders of ubiquitylation: unchained inflammation
Beck, David B; Werner, Achim; Kastner, Daniel L; Aksentijevich, Ivona
Ubiquitylation is an essential post-translational modification that regulates intracellular signalling networks by triggering proteasomal substrate degradation, changing the activity of substrates or mediating changes in proteins that interact with substrates. Hundreds of enzymes participate in reversible ubiquitylation of proteins, some acting globally and others targeting specific proteins. Ubiquitylation is essential for innate immune responses, as it facilitates rapid regulation of inflammatory pathways, thereby ensuring sufficient but not excessive responses. A growing number of inborn errors of immunity are attributed to dysregulated ubiquitylation. These genetic disorders exhibit broad clinical manifestations, ranging from susceptibility to infection to autoinflammatory and/or autoimmune features, lymphoproliferation and propensity to malignancy. Many autoinflammatory disorders result from disruption of components of the ubiquitylation machinery and lead to overactivation of innate immune cells. An understanding of the disorders of ubiquitylation in autoinflammatory diseases could enable the development of novel management strategies.
PMCID:9075716
PMID: 35523963
ISSN: 1759-4804
CID: 5216652
VEXAS syndrome with systemic lupus erythematosus- expanding the spectrum of associated conditions [Letter]
Sharma, Aman; Naidu, Gsrsnk; Deo, Prateek; Beck, David B
Vacuoles, E1 enzyme, X-linked, autoinflammatory, somatic (VEXAS) syndrome was recently identified by genotype-driven approach. This syndrome is characterised by the presence of somatic mutations affecting methionine-41 (p.Met41) in UBA1 gene. All the identified patients were adult males who had recurrent fevers, cytopenias, dysplastic bone marrow with vacuoles in myeloid and erythroid precursors, neutrophilic skin and lung tissue inflammation and often had treatment refractory and fatal disease course. The various phenotypes reported with VEXAS syndrome include relapsing polychondritis, giant cell arteritis, polyarteritis nodosa, Sweet's syndrome, myelodysplastic syndrome and multiple myeloma.
PMID: 34463053
ISSN: 2326-5205
CID: 5007032
Adult-onset autoinflammation caused by somatic mutations in UBA1: AÂ Dutch case series of patients with VEXAS
van der Made, Caspar I; Potjewijd, Judith; Hoogstins, Annemiek; Willems, Huub P J; Kwakernaak, Arjan J; de Sevaux, Ruud G L; van Daele, Paul L A; Simons, Annet; Heijstek, Marloes; Beck, David B; Netea, Mihai G; van Paassen, Pieter; Elizabeth Hak, A; van der Veken, Lars T; van Gijn, Marielle E; Hoischen, Alexander; van de Veerdonk, Frank L; Leavis, Helen L; Rutgers, Abraham
BACKGROUND:A novel autoinflammatory syndrome was recently described in male patients who harbored somatic mutations in the X-chromosomal UBA1 gene. These patients were characterized by adult-onset, treatment-refractory inflammation with fever, cytopenia, dysplastic bone marrow, vacuoles in myeloid and erythroid progenitor cells, cutaneous and pulmonary inflammation, chondritis, and vasculitis, which is abbreviated as VEXAS. OBJECTIVE:This study aimed to (retrospectively) diagnose VEXAS in patients who had previously been registered as having unclassified autoinflammation. We furthermore aimed to describe clinical experiences with this multifaceted, complex disease. METHODS:A systematic reanalysis of whole-exome sequencing data from a cohort of undiagnosed patients with autoinflammation from academic hospitals in The Netherlands was performed. When no sequencing data were available, targeted Sanger sequencing was applied in cases with high clinical suspicion of VEXAS. RESULTS:A total of 12 male patients who carried mutations in UBA1 were identified. These patients presented with adult-onset (mean age 67 years, range 47-79 years) autoinflammation with systemic symptoms, elevated inflammatory parameters, and multiorgan involvement, most typically involving the skin and bone marrow. Novel features of VEXAS included interstitial nephritis, cardiac involvement, stroke, and intestinal perforation related to treatment with tocilizumab. Although many types of treatment were initiated, most patients became treatment-refractory, with a high mortality rate of 50%. CONCLUSION/CONCLUSIONS:VEXAS should be considered in the differential diagnosis of males with adult-onset autoinflammation characterized by systemic symptoms and multiorgan involvement. Early diagnosis can prevent unnecessary diagnostic procedures and provide better prognostic information and more suitable treatment options, including stem cell transplantation.
PMID: 34048852
ISSN: 1097-6825
CID: 5006982
Deubiquitylases in developmental ubiquitin signaling and congenital diseases
Basar, Mohammed A; Beck, David B; Werner, Achim
Metazoan development from a one-cell zygote to a fully formed organism requires complex cellular differentiation and communication pathways. To coordinate these processes, embryos frequently encode signaling information with the small protein modifier ubiquitin, which is typically attached to lysine residues within substrates. During ubiquitin signaling, a three-step enzymatic cascade modifies specific substrates with topologically unique ubiquitin modifications, which mediate changes in the substrate's stability, activity, localization, or interacting proteins. Ubiquitin signaling is critically regulated by deubiquitylases (DUBs), a class of ~100 human enzymes that oppose the conjugation of ubiquitin. DUBs control many essential cellular functions and various aspects of human physiology and development. Recent genetic studies have identified mutations in several DUBs that cause developmental disorders. Here we review principles controlling DUB activity and substrate recruitment that allow these enzymes to regulate ubiquitin signaling during development. We summarize key mechanisms of how DUBs control embryonic and postnatal differentiation processes, highlight developmental disorders that are caused by mutations in particular DUB members, and describe our current understanding of how these mutations disrupt development. Finally, we discuss how emerging tools from human disease genetics will enable the identification and study of novel congenital disease-causing DUBs.
PMCID:7862630
PMID: 33335288
ISSN: 1476-5403
CID: 5006932
Linkage-specific deubiquitylation by OTUD5 defines an embryonic pathway intolerant to genomic variation
Beck, David B; Basar, Mohammed A; Asmar, Anthony J; Thompson, Joyce J; Oda, Hirotsugu; Uehara, Daniela T; Saida, Ken; Pajusalu, Sander; Talvik, Inga; D'Souza, Precilla; Bodurtha, Joann; Mu, Weiyi; Barañano, Kristin W; Miyake, Noriko; Wang, Raymond; Kempers, Marlies; Tamada, Tomoko; Nishimura, Yutaka; Okada, Satoshi; Kosho, Tomoki; Dale, Ryan; Mitra, Apratim; Macnamara, Ellen; Matsumoto, Naomichi; Inazawa, Johji; Walkiewicz, Magdalena; Õunap, Katrin; Tifft, Cynthia J; Aksentijevich, Ivona; Kastner, Daniel L; Rocha, Pedro P; Werner, Achim
Reversible modification of proteins with linkage-specific ubiquitin chains is critical for intracellular signaling. Information on physiological roles and underlying mechanisms of particular ubiquitin linkages during human development are limited. Here, relying on genomic constraint scores, we identify 10 patients with multiple congenital anomalies caused by hemizygous variants in OTUD5, encoding a K48/K63 linkage-specific deubiquitylase. By studying these mutations, we find that OTUD5 controls neuroectodermal differentiation through cleaving K48-linked ubiquitin chains to counteract degradation of select chromatin regulators (e.g., ARID1A/B, histone deacetylase 2, and HCF1), mutations of which underlie diseases that exhibit phenotypic overlap with OTUD5 patients. Loss of OTUD5 during differentiation leads to less accessible chromatin at neuroectodermal enhancers and aberrant gene expression. Our study describes a previously unidentified disorder we name LINKED (LINKage-specific deubiquitylation deficiency-induced Embryonic Defects) syndrome and reveals linkage-specific ubiquitin cleavage from chromatin remodelers as an essential signaling mode that coordinates chromatin remodeling during embryogenesis.
PMCID:7817106
PMID: 33523931
ISSN: 2375-2548
CID: 5006952
Somatic Mutations in UBA1 Define a Distinct Subset of Relapsing Polychondritis Patients With VEXAS
Ferrada, Marcela A; Sikora, Keith A; Luo, Yiming; Wells, Kristina V; Patel, Bhavisha; Groarke, Emma M; Ospina Cardona, Daniela; Rominger, Emily; Hoffmann, Patrycja; Le, Mimi T; Deng, Zuoming; Quinn, Kaitlin A; Rose, Emily; Tsai, Wanxia L; Wigerblad, Gustaf; Goodspeed, Wendy; Jones, Anne; Wilson, Lorena; Schnappauf, Oskar; Laird, Ryan S; Kim, Jeff; Allen, Clint; Sirajuddin, Arlene; Chen, Marcus; Gadina, Massimo; Calvo, Katherine R; Kaplan, Mariana J; Colbert, Robert A; Aksentijevich, Ivona; Young, Neal S; Savic, Sinisa; Kastner, Daniel L; Ombrello, Amanda K; Beck, David B; Grayson, Peter C
OBJECTIVE:Somatic mutations in UBA1 cause a newly defined syndrome known as VEXAS (vacuoles, E1 enzyme, X-linked, autoinflammatory, somatic syndrome). More than 50% of patients currently identified as having VEXAS met diagnostic criteria for relapsing polychondritis (RP), but clinical features that characterize VEXAS within a cohort of patients with RP have not been defined. We undertook this study to define the prevalence of somatic mutations in UBA1 in patients with RP and to create an algorithm to identify patients with genetically confirmed VEXAS among those with RP. METHODS:Exome and targeted sequencing of UBA1 was performed in a prospective observational cohort of patients with RP. Clinical and immunologic characteristics of patients with RP were compared based on the presence or absence of UBA1 mutations. The random forest method was used to derive a clinical algorithm to identify patients with UBA1 mutations. RESULTS:/μl differentiated VEXAS-RP from RP with 100% sensitivity and 96% specificity. CONCLUSION/CONCLUSIONS:Mutations in UBA1 were causal for disease in a subset of patients with RP. This subset of patients was defined by disease onset in the fifth decade of life or later, male sex, ear/nose chondritis, and hematologic abnormalities. Early identification is important in VEXAS given the associated high mortality rate.
PMID: 33779074
ISSN: 2326-5205
CID: 5006972
Vacuoles, E1 enzyme, X-linked, autoinflammatory, somatic (VEXAS) syndrome: fevers, myalgia, arthralgia, auricular chondritis, and erythema nodosum [Case Report]
Dehghan, Natasha; Marcon, Krista M; Sedlic, Tony; Beck, David B; Dutz, Jan P; Chen, Luke Y C
PMID: 34391501
ISSN: 1474-547x
CID: 5007012
Phenotypic expansion of the BPTF-related neurodevelopmental disorder with dysmorphic facies and distal limb anomalies
Glinton, Kevin E; Hurst, Anna C E; Bowling, Kevin M; Cristian, Ingrid; Haynes, Devon; Adstamongkonkul, Dusit; Schnappauf, Oskar; Beck, David B; Brewer, Carole; Parikh, Aditi Shah; Shinde, Deepali N; Donaldson, Alan; Brautbar, Ariel; Koene, Saskia; van Haeringen, Arie; Piton, Amélie; Capri, Yline; Furlan, Margherita; Gardella, Elena; Møller, Rikke Steensbjerre; van de Beek, Irma; Zuurbier, Linda; Lakeman, Phillis; Bayat, Allan; Martinez, Julian; Signer, Rebecca; Torring, Pernille M; Engelund, Morten Buch; Gripp, Karen W; Amlie-Wolf, Louise; Henderson, Lindsay B; Midro, Alina T; Tarasów, Eugeniusz; Stasiewicz-Jarocka, Beata; Moskal-Jasinska, Diana; Vos, Paul; Boschann, Felix; Stoltenburg, Corinna; Puk, Oliver; Mero, Inger-Lise; Lossius, Kristine; Mignot, Cyril; Keren, Boris; Acosta Guio, Johanna C; Briceño, Ignacio; Gomez, Alberto; Yang, Yaping; Stankiewicz, Pawel
Neurodevelopmental disorder with dysmorphic facies and distal limb anomalies (NEDDFL), defined primarily by developmental delay/intellectual disability, speech delay, postnatal microcephaly, and dysmorphic features, is a syndrome resulting from heterozygous variants in the dosage-sensitive bromodomain PHD finger chromatin remodeler transcription factor BPTF gene. To date, only 11 individuals with NEDDFL due to de novo BPTF variants have been described. To expand the NEDDFL phenotypic spectrum, we describe the clinical features in 25 novel individuals with 20 distinct, clinically relevant variants in BPTF, including four individuals with inherited changes in BPTF. In addition to the previously described features, individuals in this cohort exhibited mild brain abnormalities, seizures, scoliosis, and a variety of ophthalmologic complications. These results further support the broad and multi-faceted complications due to haploinsufficiency of BPTF.
PMCID:8048530
PMID: 33522091
ISSN: 1552-4833
CID: 5006942
Mutant UBA1 and Severe Adult-Onset Autoinflammatory Disease. Reply [Comment]
Beck, David B; Grayson, Peter C; Kastner, Daniel L
PMID: 34077654
ISSN: 1533-4406
CID: 5006992