UBA1-depleted neutrophils disrupt immune homeostasis and induce VEXAS-like autoinflammatory disease in mice
Ge Dong, … , Ying Fu, Zhigang Cai
Ge Dong, … , Ying Fu, Zhigang Cai
Published September 4, 2025
Citation Information: J Clin Invest. 2025;135(21):e193011. https://doi.org/10.1172/JCI193011.
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Research Article Hematology Inflammation

UBA1-depleted neutrophils disrupt immune homeostasis and induce VEXAS-like autoinflammatory disease in mice

Abstract

Vacuoles, E1 enzyme, X-linked, autoinflammatory, somatic (VEXAS) syndrome is a hemato-rheumatoid disease caused by somatic UBA1 mutations in hematopoietic stem cells (HSCs). The pathogenic cell type(s) responsible for the syndrome are unknown, and murine models recapitulating the disease are lacking. We report that loss of Uba1 in various mouse hematopoietic cell types resulted in pleiotropic consequences and demonstrate that an approximate 70% loss of Uba1 in neutrophils (NEs) of murine mutants induced nonlethal VEXAS-like symptoms. Depletion of Uba1 in HSCs induced extensive hematopoietic cell loss, whereas depletion of Uba1 in B cells, T cells, or megakaryocytes induced corresponding cell death, but these mutant mice appeared normal. Depletion of Uba1 in monocytes and NEs failed to induce cell death, and the mutant mice were viable. Among the tested models, only depletion of Uba1 in NEs induced autoinflammatory symptoms including increased counts and percentages of NEs, increased proinflammatory cytokines, presence of vacuoles in myeloid cells, splenomegaly, and dermatitis. Residual Uba1 was approximately 30% in the mutant NEs, which disrupted cellular hemostasis. Finally, genetic loss of the myeloid prosurvival regulator Morrbid partially mitigated the VEXAS-like symptoms. The established VEXAS-like murine model will further our understanding and treatment of the newly identified autoinflammatory syndrome prevalent among aged men.

Authors

Ge Dong, Jingjing Liu, Wenyan Jin, Hongxi Zhou, Yuchen Wen, Zhiqin Wang, Keyao Xia, Jianlin Zhang, Linxiang Ma, Yunxi Ma, Lorie Chen Cai, Qiufan Zhou, Huaquan Wang, Wei Wei, Ying Fu, Zhigang Cai

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Figure 10

Disturbed NE homeostasis is revealed by single-cell computational analysis.

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Disturbed NE homeostasis is revealed by single-cell computational analys...
(A) Expression of Uba1 in WT and S100a8-CKO BM. Pro-NEs and NEs are highlighted in the UMAP plot and for downstream analysis of cell homeostasis. For WT, 760 pro-NEs and 5,599 NEs were included in the downstream analysis. For S100a8Cre-CKO, 722 pro-NEs and 4,577 NEs were included in the downstream analysis. (B) S100a8Cre-CKO mice had a lower ubiquitylation score in pro-NEs or NEs than did WT mice. The result was expected, as Uba1 is an E1 enzyme responsible for ubiquitin activation. (CF) Loss of Uba1 in NEs resulted in disturbed cellular homeostasis as indicated by an increased UPR score (C), inflammatory score (D), ROS score (E) and NETs score (F). (G) Manhattan plots of differentially expressed genes in each indicated cell type. As highlighted in the dotted line area, expression of Uba1 was downregulated (arrows), and expression of certain proinflammatory genes (i.e., Ifit1 and Ifit3) was upregulated in pro-NEs and NEs from S100a8Cre-CKO mice compared with those from WT control mice. Each single cell of the indicated cell types was included for the cellular activity analysis. **P < 0.01 and ****P < 0.0001, by Student’s t-test.