Cxcr4-haploinsufficient bone marrow transplantation corrects leukopenia in an unconditioned WHIM syndrome model
Ji-Liang Gao, … , David H. McDermott, Philip M. Murphy
Ji-Liang Gao, … , David H. McDermott, Philip M. Murphy
Published May 1, 2018
Citation Information: J Clin Invest. 2018;128(8):3312-3318. https://doi.org/10.1172/JCI120375.
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Concise Communication Immunology

Cxcr4-haploinsufficient bone marrow transplantation corrects leukopenia in an unconditioned WHIM syndrome model

Abstract

For gene therapy of gain-of-function autosomal dominant diseases, either correcting or deleting the disease allele is potentially curative. To test whether there may be an advantage of one approach over the other for WHIM (warts, hypogammaglobulinemia, infections, and myelokathexis) syndrome — a primary immunodeficiency disorder caused by gain-of-function autosomal dominant mutations in chemokine receptor CXCR4 — we performed competitive transplantation experiments using both lethally irradiated WT (Cxcr4+/+) and unconditioned WHIM (Cxcr4+/w) recipient mice. In both models, hematopoietic reconstitution was markedly superior using BM cells from donors hemizygous for Cxcr4 (Cxcr4+/o) compared with BM cells from Cxcr4+/+ donors. Remarkably, only approximately 6% Cxcr4+/o hematopoietic stem cell (HSC) chimerism after transplantation in unconditioned Cxcr4+/w recipient BM supported more than 70% long-term donor myeloid chimerism in blood and corrected myeloid cell deficiency in blood. Donor Cxcr4+/o HSCs differentiated normally and did not undergo exhaustion as late as 465 days after transplantation. Thus, disease allele deletion resulting in Cxcr4 haploinsufficiency was superior to disease allele repair in a mouse model of gene therapy for WHIM syndrome, allowing correction of leukopenia without recipient conditioning.

Authors

Ji-Liang Gao, Erin Yim, Marie Siwicki, Alexander Yang, Qian Liu, Ari Azani, Albert Owusu-Ansah, David H. McDermott, Philip M. Murphy

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Figure 1

The Cxcr4 genotype rank order for peripheral blood reconstitution after competitive BM transplantation in lethally irradiated mice is Cxcr4+/o, which is greater than Cxcr4+/+, which is greater than Cxcr4+/w.

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The Cxcr4 genotype rank order for peripheral blood reconstitution after ...
(A and B) Donor-derived leukocyte frequencies after transplantation with total BM cells (A) or FACS-purified LinSca-1+c-Kit+CD48CD34CD150+ HSCs (B). Experiment design is shown on the left of each row of graphs. Data are the percentage (mean ± SEM) of total donor-derived cells for each subset indicated. See Supplemental Figure 1, A and B, for representative flow cytometry plots and transplantation conditions. (C) Donor-derived absolute leukocyte counts after competitive BM transplantation. Experiment design is shown on the left. Data are absolute numbers of donor-derived cells per milliliter (mean ± SEM) of the subset indicated. The average absolute blood counts of naive Cxcr4+/+ (black dashed lines, n = 58) and Cxcr4+/w (blue dotted lines, n = 38) mice from our colony are also presented. Each recipient was transplanted with 5 million BM cells (A and C) or 2,000 HSCs (B). For all conditions, n was at least 5 mice. SEM was less than 5% of the mean at all time points lacking visible error bars. Results were verified in 3 additional independent experiments for A. +/o, +/+, and +/w denote Cxcr4+/o, Cxcr4+/+, and Cxcr4+/w donors, respectively. P values, 2-way ANOVA.