Inborn errors of immunity (IEI) are increasingly associated not only with recurrent infections but also with hematological complications. The discovery of somatic mutations leading to “IEI phenocopies” has expanded the genetic understanding of these disorders. However, the clinical and genetic scope of IEI in hematological disorders remains underexplored in large-scale studies.
This study recruits patients under 25 years old with hematological abnormalities, categorized into four subgroups: autoimmune cytopenias (AICs), polyclonal lymphoproliferation (PL), monoclonal lymphoproliferation (ML), and bone marrow failure/myelodysplasia (BMF/MDS). Participants undergo immunological evaluations, including immunophenotyping, cytokine profiling, and autoantibody assays. Next-generation sequencing (NGS) is used to identify germline and somatic variants, with bulk RNA sequencing applied to validate variants and explore pathways in inconclusive cases. Additionally, this study aims to establish a dedicated consortium for the comprehensive study of IEI-related hematological disorders, bringing together multiple centers to collaborate on data collection and analysis. Patient advocacy organizations (PAOs) are involved to raise awareness and support participants.
Retrospective data from Meyer Children’s Hospital IRCCS in Florence (2020–2024) showed feasibility, identifying 71 eligible patients: 38 with AICs, 15 with PL, 20 with lymphoma, and 12 with BMF/MDS. A similar number of patients are expected to enroll at this site over three years, with collaborating referral centers projected to recruit approximately 680 participants in total. Preliminary results from the initial 71 participants show a 35% detection rate of hidden IEI, supporting the study's premise.
This research is poised to enhance the understanding of IEI and IEI phenocopies in hematological disorders, revealing novel genetic contributors and biomarkers. The findings could lead to earlier diagnoses, personalized therapies, and more timely hematopoietic stem cell transplantation. Collaboration with PAOs will improve patient education, treatment adherence, and overall outcomes, while reducing healthcare burdens. This study represents a significant advancement in addressing the unmet needs of patients with hematological complications of IEI.
