Background: Hoffman syndrome is a syndromic, inborn error of immunity due to autosomal-dominant mutations in TOP2B, an essential gene required to alleviate topological stress during DNA replication and gene transcription. Although mutations identified in patients lead to a block in B-cell development and the absence of circulating B cells, an effect on natural killer (NK) cells was not previously examined.
Objective: We sought to determine whether disease-associated mutations in TOP2B impact NK-cell development and function.
Methods: Using a knockin murine model and patient-derived induced pluripotent stem cells (iPSCs), we investigated NK-cell development in mouse bone marrow and spleen, and performed immunophenotyping by flow cytometry, gene expression, and functional assessment of cytotoxic activity in murine NK cells, and human IPSC-derived NK cells.
Results: Mature NK cells were reduced in the periphery of TOP2B knockin mice consistent with patient reports, with reduced cytotoxicity toward target cell lines. IPSCs were successfully derived from patients with Hoffman syndrome, but under optimal conditions showed reduced cytotoxicity compared with iPSC-derived NK cells from healthy controls.
Conclusions: Hoffman syndrome-associated mutations in TOP2B impact NK-cell development and function in murine and human models.
Keywords: Immunodeficiency; iPSC; natural killer cells; topoisomerase.
Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.