Biallelic <scp><i>ZNFX1</i></scp> variants are associated with a spectrum of immuno‐hematological abnormalities

Alawbathani, Salem; Westenberger, Ana; Ordonez-Herrera, Natalia; Al-Hilali, Mariam; Hebby, H; Abbas, Fahad Al; Alhashem, Amal; Elyamany, Ghaleb; Mégarbané, André; Köse, Melis; Al‐Hashmi, Nadia; Sukaiti, Nashat Al; Al-Raqad, Mohammed; Al-Tawalbeh, Samah; Blanco, Omar Abu Adas; Alkhattabi, Fadiah; Sng, Danielle; Al‐Ali, Ruslan; Khan, Suliman; Tawamie, Hasan; Tripolszki, Kornélia; Karageorgou, Vasiliki; Trunzo, Roberta; Mutairi, Fuad Al; Reversade, Bruno; Bauer, Péter; Bertoli‐Avella, Aida M.

doi:10.1111/cge.14081

Cited by 13 publications

(20 citation statements)

References 11 publications

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“…However, the median age (in months) of a delay in obtaining a genotype was 69 for class VI, 26.5 for class V, 21.5 for class III, 14 for class IV, 13.5 for class II, and 6 for class I. Homozygosity was paramount, as 90% of all genotypes were autosomal recessive in inheritance (n = 108). In addition to the known mutations associated with the described groups of IEI, we reported three mutations in genes described to cause IEI that are not yet classified into IUIS [LIFR ( 16 ), DIAPH1 ( 17 ), ZNFX1 ( 18 )]. Additionally, there were two homozygous variants [LAT2 ( 19 ) and EBF3 ( 20 )] in genes implicated in immune function in mice that require further immunological functional studies to support a disease phenotype–genotype correlation in humans ( Table 4 ).…”

Section: Resultsmentioning

confidence: 99%

Immune Dysregulation in Monogenic Inborn Errors of Immunity in Oman: Over A Decade of Experience From a Single Tertiary Center

et al. 2022

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BackgroundInborn errors of immunity (IEIs) are being recognized as an important cause of morbidity and mortality in communities with a high frequency of consanguinity, such as Oman, and thus recessively inherited conditions. Various monogenic causes of IEI have been recently discovered; however, the disease phenotype may be variable and does not always include infection at presentation, leading to a delay in diagnosis and a poor outcome. It is now well recognized that immune dysregulation manifestations are observed in a significant proportion of patients with IEI and occasionally precede infection.MethodsHere, we retrospectively report the epidemiological, clinical, immunological, and molecular findings and outcomes from 239 patients with IEI who were diagnosed and managed at the Royal Hospital, Oman, from January 2010 to October 2021.ResultsThe estimated annual cumulative mean incidence of IEI was 25.5 per 100,000 Omani live births with a total prevalence of 15.5 per 100,000 Omani population. Both the high incidence and prevalence are attributed to the high rate of consanguinity (78.2%). Defects affecting cellular and humoral immunity including severe combined immunodeficiency (SCID), combined immunodeficiency (CID), and CID with syndromic features were the predominant defects in IEI (36%). Immune dysregulation was a prominent manifestation and occurred in approximately a third of all patients with IEI (32%), with a mean age of onset of 81 months and a mean diagnostic delay of 50.8 months. The largest percentage of patients who showed such clinical signs were in the category of diseases of immune dysregulation (41%), followed by predominantly antibody deficiency (18%). The overall mortality rate in our cohort was 25.1%, with higher death rates seen in CID including SCID and diseases of immune dysregulation.ConclusionImmune dysregulation is a frequent manifestation of Omani patients with IEI. Early detection through raising awareness of signs of IEI including those of immune dysregulation and implementation of newborn screening programs will result in early intervention and improved overall outcome.

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Section: Resultsmentioning

confidence: 99%

Immune Dysregulation in Monogenic Inborn Errors of Immunity in Oman: Over A Decade of Experience From a Single Tertiary Center

et al. 2022

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“…innate immune defects resulting in susceptibility to mycobacterial/bacterial ( TBX21 [ 55 , 56 ], IFNG [ 57 ], TLR8 [ 58 , 59 ]), viral ( NOS2 [ 60 ], SNORA31 [ 61 ], ATG4A, MAP1LC3B2 [ 62 ], ZNFX1 [ 63 – 65 ], TLR7 [ 66 – 68 ]), and/or fungal infections ( MAPK8 [ 69 ]) (Table 6 ; Supplementary Table 1 );…”

Section: Novel Inborn Errors Of Immunitymentioning

confidence: 99%

“… Total number of mutant genes in Table 6 : 74. New inborn errors of immunity: 10 ( TBX21 [ 55 ], IFNG [ 57 ], NOS2 [ 60 ], ZNFX1 [ 63 – 65 ], SNORA31 [ 61 ], ATG4A, MAP1LC3B2 [ 62 ], MAPK8 [ 69 ], TLR7 [ 66 – 68 ], TLR8 [ 58 , 59 ]) NF-κB nuclear factor kappa B, TIR Toll and interleukin 1 receptor, IFN interferon, TLR Toll-like receptor, MDC myeloid dendritic cell, CNS central nervous system, CMC chronic mucocutaneous candidiasis, HPV human papillomavirus, VZV varicella zoster virus, EBV Epstein-Barr virus …”

Section: Novel Inborn Errors Of Immunitymentioning

confidence: 99%

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Human Inborn Errors of Immunity: 2022 Update on the Classification from the International Union of Immunological Societies Expert Committee

et al. 2022

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We report the updated classification of inborn errors of immunity, compiled by the International Union of Immunological Societies Expert Committee. This report documents the key clinical and laboratory features of 55 novel monogenic gene defects, and 1 phenocopy due to autoantibodies, that have either been discovered since the previous update (published January 2020) or were characterized earlier but have since been confirmed or expanded in subsequent studies. While variants in additional genes associated with immune diseases have been reported in the literature, this update includes only those that the committee assessed that reached the necessary threshold to represent novel inborn errors of immunity. There are now a total of 485 inborn errors of immunity. These advances in discovering the genetic causes of human immune diseases continue to significantly further our understanding of molecular, cellular, and immunological mechanisms of disease pathogenesis, thereby simultaneously enhancing immunological knowledge and improving patient diagnosis and management. This report is designed to serve as a resource for immunologists and geneticists pursuing the molecular diagnosis of individuals with heritable immunological disorders and for the scientific dissection of cellular and molecular mechanisms underlying monogenic and related human immune diseases.

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“…They also revealed the extended stability of ISG mRNAs in patient-derived cells, suggesting that ZNFX1 plays an important role in a balanced interferon response for viral defense via posttranscriptional regulation of ISGs. In addition, another group recently reported 9 patients from 7 families with homozygous ZNFX1 mutations with multiorgan inflammatory disease and recurrent infections by various pathogens, including Mycobacteria and viruses [60]. Taken together, total 13 different ZNFX1 variants in 26 patients from 17 families have been reported so far.…”

Section: J O U R N a L P R E -P R O O F Ar Complete Znfx1 Deficiencymentioning

confidence: 97%

Mendelian susceptibility to mycobacterial diseases: state of the art

Noma

Mizoguchi

Tsumura

et al. 2022

Clinical Microbiology and Infection

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Biallelic ZNFX1 variants are associated with a spectrum of immuno‐hematological abnormalities

Cited by 13 publications

References 11 publications

Immune Dysregulation in Monogenic Inborn Errors of Immunity in Oman: Over A Decade of Experience From a Single Tertiary Center

Immune Dysregulation in Monogenic Inborn Errors of Immunity in Oman: Over A Decade of Experience From a Single Tertiary Center

Human Inborn Errors of Immunity: 2022 Update on the Classification from the International Union of Immunological Societies Expert Committee

Mendelian susceptibility to mycobacterial diseases: state of the art

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