The French paediatric cohort of Castleman disease: a retrospective report of 23 patients.

BACKGROUND: Castleman disease (CD) is a rare non-malignant lymphoproliferation of undetermined origin. Two major disease phenotypes can be distinguished: unicentric CD (UCD) and multicentric CD (MCD). Diagnosis confirmation is based on histopathological findings in a lymph node. We attempted to survey all cases of paediatric CD identified to date in France to set up a national registry aiming to improve CD early recognition, treatment and follow-up, within the context of a new national reference center (http://www.castleman.fr). METHODS: In 2016, we e-mailed a questionnaire to members of the French paediatric immunohaematology society, the paediatric rheumatology society and the Reference Centre for Castleman Disease to retrospectively collect cases of paediatric CD (first symptoms before age 18 years). Anatomopathological confirmation was mandatory. RESULTS: We identified 23 patients (12 girls) with a diagnosis of UCD (n = 17) and MCD (n = 6) between 1994 and 2018. The mean age at first symptoms was 11.47 ± 4.23 years for UCD and 8.3 ± 3.4 years for MCD. The mean diagnosis delay was 8.16 ± 10.32 months for UCD and 5.16 ± 5.81 years for MCD. In UCD, the initial symptoms were isolated lymph nodes (n = 10) or lymph node associated with other symptoms (n = 7); fever was present in 3 patients. Five patients with MCD presented fever. No patients had HIV or human herpesvirus 8 infection. Autoinflammatory gene mutations were investigated in five patients. One patient with MCD carried a K695R heterozygous mutation in MEFV, another patient with MCD and Duchenne myopathy carried two variants in TNFRSF1A and one patient with UCD and fever episodes carried two heterozygous mutations, in IL10RA and IL36RN, respectively. Treatment of UCD was mainly surgical resection, steroids, and radiotherapy. Treatment of MCD included tocilizumab, rituximab, anakinra, steroids, chemotherapy, and splenectomy. Overall survival after a mean of 6.1 ± 6.4 years of follow-up, was 100% for both forms. CONCLUSION: Paediatric CD still seems underdiagnosed, with a significant diagnosis delay, especially for MCD, but new international criteria will help in the future. Unlike adult CD, which is strongly associated with HIV and human herpesvirus 8 infection, paediatric CD could be favored by primary activation of innate immunity and may affect life expectancy less.

Extended clinical and genetic spectrum associated with biallelic RTEL1 mutations.

Telomeres are repetitive hexameric sequences located at the end of linear chromosomes. They adopt a lariat-like structure, the T-loop, to prevent them from being recognized as DNA breaks by the DNA repair machinery. RTEL1 is a DNA helicase required for proper telomere replication and stability. In particular, it has been postulated that RTEL1 is involved in the opening of the T-loop during telomere replication to avoid sudden telomere deletion and telomere circle (T-circle) formation. In humans, biallelic RTEL1 mutations cause Hoyeraal-Hreidarsson syndrome (HH), a rare and severe telomere biology disorder characterized by intrauterine growth retardation, bone marrow failure, microcephaly and/or cerebellar hypoplasia, and immunodeficiency. To date, 18 different RTEL1 mutations have been described in 19 cases of HH with short telomeres. The impaired T-loop resolution has been proposed to be a major cause of telomere shortening in RTEL1 deficiency. However, the biological and clinical consequences of this disorder remain incompletely documented. Here, we describe 4 new patients harboring biallelic RTEL1 mutations, including 2 novel missense mutations located in the C-terminal end of RTEL1 (p.Cys1268Arg and p.Val1294Phe). Clinical characteristics from these 4 patients were collected as those from 4 other RTEL1-deficient patients previously reported. In addition, we assessed whether T-circles, the product of improper T-loop resolution, were detected in our RTEL1-deficient patients. Overall, our study broadens and refines the clinical and biological spectrum of human RTEL1 deficiency.