Macular atrophy and focal choroidal excavation in a patient with JAG1- related alagille syndrome.

INTRODUCTION: Alagille syndrome (AGS) is a genetic disease with multisystemic affection, including ocular manifestations. Recently, a high frequency of posterior segment findings, including macular changes, has been reported. This publication aims to report an unusual finding of macular atrophy and a focal choroidal excavation in a patient with JAG1 related AGS. METHODS: Case report. RESULTS: This publication describes an atypical presentation of focal choroidal excavation (FCE) and unilateral macular atrophy in a 7-year-old male with Alagille syndrome (AGS). Genetic analysis revealed a pathogenic variant in the JAG1 gene. Ophthalmological examination and imaging findings demonstrated characteristic ocular manifestations of AGS, including posterior embryotoxon, chorioretinal atrophy, and thinning of the choroid. CONCLUSION: The presence of FCE in AGS is uncommon, and the underlying mechanisms remain unclear. Further exploration of similar cases is necessary to better understand the evolution and visual prognosis in patients with AGS and FCE.

This case report highlights the presence of focal choroidal excavation and unilateral macular atrophy in a patient with Alagille syndrome. The genetic analysis identified a pathogenic variant in the JAG1 gene.

Dysgerminoma Probably Due to a Novel SOHLH1-pathogenic Variant Causing Familial Ovarian Dysgenesis.

Pathogenic variants of the SOHLH1 gene are responsible for an autosomal recessive form of ovarian dysgenesis; this gene encodes a transcription factor expressed early in spermatogonia and oocytes and contributes to folliculogenesis. Previously, four affected women from two unrelated families reported homozygous variants in the SOHLH1 gene, but none had a history of gonadal malignancy or a histologic description. We present two sisters and their paternal great-aunt with a history of primary amenorrhea, pubertal delay, and hypergonadotrophism who came from an inbred Mexican family. The proband was the younger sister who was referred for bilateral dysgerminoma. She had a normal blood karyotype, and whole-exome sequencing analysis revealed a novel homozygous missense variant, c.275C>T, in SOHLH1; several family members were also analyzed. In addition to pure dysgerminoma, histopathological analysis revealed an ovarian cortex with fibrosis and almost total absence of follicles. This work confirms the inheritance of ovarian dysgenesis 5, supports the occurrence of cell loss in mouse models, and suggests that affected women should undergo periodic imaging surveillance due to the likely risk of tumor development.

Clinical, immunological, and genetic description of a Mexican cohort of patients with DOCK8 deficiency.

PURPOSE: We aimed to describe the clinical, immunological, and genetic features of patients with DOCK8 deficiency (DOCK8-Def) in a tertiary care center for children. METHODS: Retrospective chart review of patients' clinical, immunological, and genetic characteristics with DOCK8-Def. Genetic analysis was performed with targeted- or whole-exome sequencing; we also assessed DOCK8 protein expression and a lymphoproliferation assay and analyzed survival by the Kaplan-Meier method. RESULTS: We described 11 patients from 8 unrelated kindreds. The median age at symptoms' onset was 10 months (range 1-54 months). The median follow-up time was 53.4 months (4.8-118.8). All patients presented eczema and recurrent sinopulmonary and cutaneous infections. Besides those symptoms, the most frequent manifestations were bronchiectases (8/11), food allergies (6/11), and severe infections (6/11). Infrequent characteristics were detection of CMV in bronchial lavage, C. parvum-driven sclerosing cholangitis, Takayasu vasculitis, neurological syndromes, pulmonary tuberculosis, and lymphomatoid granulomatosis. CONCLUSION: DOCK8-Def has a broad spectrum of manifestations, including allergy, autoimmunity, inflammation, infection, and cancer. The hallmark of this inborn error of immunity is IEI-associated eczema with eosinophilia and increased IgE. Here, we report six new mutations causing human DOCK8 deficiency and symptoms previously unrecognized to occur in DOCK8-Def. Therefore, an early diagnosis of DOCK8-Def is essential to facilitate an adequate treatment such as HSCT.

[Combined immunodeficiency due to DOCK8 deficiency. State of the art]. / Inmunodeficiencia combinada debida a deficiencia de DOCK8. Lo que sabemos hasta ahora.

Combinedimmunodeficiency (CID) due to DOCK8 deficiency is an inborn error of immunity (IBD) characterized by dysfunctional T and B lymphocytes; The spectrum of manifestations includes allergy, autoimmunity, inflammation, predisposition to cancer, and recurrent infections. DOCK8 deficiency can be distinguished from other CIDs or within the spectrum of hyper-IgE syndromes by exhibiting profound susceptibility to viral skin infections, associated skin cancers, and severe food allergies. The 9p24.3 subtelomeric locus where DOCK8 is located includes numerous repetitive sequence elements that predispose to the generation of large germline deletions and recombination-mediated somatic DNA repair. Residual production DOCK8 protein contributes to the variable phenotype of the disease. Severe viral skin infections and varicella-zoster virus (VZV)-associated vasculopathy, reflect an essential role of the DOCK8 protein, which is required to maintain lymphocyte integrity as cells migrate through the tissues. Loss of DOCK8 causes immune deficiencies through other mechanisms, including a cell survival defect. In addition, there are alterations in the response of dendritic cells, which explains susceptibility to virus infection and regulatory T lymphocytes that could help explain autoimmunity in patients. Hematopoietic stem cell transplantation (HSCT) is the only curative treatment; it improves eczema, allergies, and susceptibility to infections.

Lainmunodeficiencia combinada (IDC) por deficiencia de DOCK8 es un error innato de la inmunidad, caracterizado por alteración en linfocitos T y B; el espectro de manifestaciones incluye alergia, autoinmunidad, inflamación, predisposición a cáncer e infecciones recurrentes. La deficiencia de DOCK8 se puede distinguir de otras IDC o dentro del espectro de síndromes de hiper-IgE porque presenta una profunda susceptibilidad a las infecciones virales de la piel, con cánceres de piel asociados y alergias alimentarias graves. El locus subtelomérico 9p24.3, donde se ubica DOCK8, incluye numerosos elementos repetitivos de secuencia que predisponen a la generación de grandes deleciones de la línea germinal, así como a la reparación del ADN somático, mediada por recombinación. La producción residual de la proteína DOCK8 contribuye al fenotipo variable de la enfermedad. Las infecciones virales graves de la piel y la vasculopatía asociada a virus de la varicela zóster (VVZ) reflejan una función importante de la proteína DOCK8, que normalmente se requiere para mantener la integridad de los linfocitos a medida que las células migran a través de tejidos. La pérdida de DOCK8 provoca deficiencias inmunitarias a través de otros mecanismos, incluido un defecto de supervivencia celular. Existen alteraciones en la respuesta de las células dendríticas, lo que explica la susceptibilidad a infección por virus, así como en los linfocitos T reguladores que podrían ayudar a explicar la autoinmunidad en los pacientes. El trasplante de células hematopoyéticas pluripotenciales es por el momento el único tratamiento curativo, mejora el eccema, la alergia y la susceptibilidad a infecciones.