CXCR4 antagonism ameliorates leukocyte abnormalities in a preclinical model of WHIM syndrome

Lilian Roland; Chi Huu Nguyen; Katarina Zmajkovicova; Mélanie Khamyath; Maria Kalogeraki; Bérénice Schell; Vanessa Gourhand; Vincent Rondeau; Zeina Abou Nader; Halenya Monticelli; Barbara Maierhofer; Robert Johnson; Arthur Taveras; Marion Espéli; Karl Balabanian

doi:10.3389/fimmu.2024.1468823

CXCR4 antagonism ameliorates leukocyte abnormalities in a preclinical model of WHIM syndrome

Front Immunol. 2024 Nov 11:15:1468823. doi: 10.3389/fimmu.2024.1468823. eCollection 2024.

Authors

Lilian Roland^#^{1

2}, Chi Huu Nguyen^#³, Katarina Zmajkovicova³, Mélanie Khamyath^{1

2}, Maria Kalogeraki^{1

2}, Bérénice Schell^{1

2}, Vanessa Gourhand^{1

2}, Vincent Rondeau^{1

2}, Zeina Abou Nader^{1

2}, Halenya Monticelli³, Barbara Maierhofer³, Robert Johnson⁴, Arthur Taveras⁴, Marion Espéli^#^{1

2}, Karl Balabanian^#^{1

2}

Affiliations

¹ Université Paris Cité, Institut de Recherche Saint-Louis, INSERM U1160, Paris, France.
² OPALE Carnot Institute, The Organization for Partnerships in Leukemia, Hôpital Saint-Louis, Paris, France.
³ X4 Pharmaceuticals (Austria) GmbH, Vienna, Austria.
⁴ X4 Pharmaceuticals Inc, Boston, MA, United States.

^# Contributed equally.

Abstract

Background: WHIM (Warts, Hypogammaglobulinemia, Infections, and Myelokathexis) syndrome is an ultra-rare, combined primary immunodeficiency and chronic neutropenic disorder characterized by a range of clinical presentations, including peripheral neutropenia, lymphopenia, and recurrent infections. WHIM syndrome is most often caused by gain-of-function mutations in the gene encoding C-X-C chemokine receptor 4 (CXCR4). As such, inhibition of CXCR4 with XOLREMDI^® (mavorixafor), an orally bioavailable CXCR4 antagonist, demonstrated clinically meaningful increases in absolute neutrophil and lymphocyte counts and concomitant reduction in infections in patients with WHIM syndrome, resulting in its recent U.S. Food and Drug Administration approval. The impact of CXCR4 antagonism on other aspects of the pathobiology in WHIM syndrome, such as lymphopoiesis and leukocyte trafficking between primary and secondary lymphoid organs, is less understood.

Methods: In the current study, the effects of CXCR4 antagonism on leukocyte trafficking and distribution in primary and secondary lymphoid organs were investigated in a mouse model of WHIM syndrome carrying the heterozygous Cxcr4¹⁰¹³ mutation. Cxcr4^+/1013 and Cxcr4 wild-type mice received the orally bioavailable CXCR4 antagonist X4-185. Blood, spleen and bone marrow samples were collected for numeration, flow cytometry, and functional studies.

Results: Cxcr4^+/1013 mice exhibited profound peripheral blood leukopenia as seen in patients with WHIM syndrome. CXCR4 antagonism corrected circulating leukopenia and mobilized functional neutrophils without disrupting granulopoiesis in the bone marrow of Cxcr4^+/1013 mice. Furthermore, Cxcr4^+/1013 displayed aberrant splenic T and B-cell counts and frequency. Treatment with X4-185 normalized splenic T-cell abnormalities, correcting the reduced CD8⁺ T-cell numbers, restoring the CD4/CD8 T-cell ratio, and ameliorating peripheral blood T-cell lymphopenia. In addition, CXCR4 antagonism was able to correct the abnormal frequencies and numbers of splenic marginal zone and follicular B cells in Cxcr4^+/1013 mice, and ultimately normalize B-cell lymphopenia in the peripheral circulation.

Conclusions: Our study provides comprehensive evidence that oral dosing with a CXCR4 antagonist can effectively correct WHIM-associated neutrophil and lymphocyte abnormalities in a mouse model of WHIM syndrome. These findings extend our understanding of how targeting the dysregulated CXCR4 signaling pathway can ameliorate the pathogenesis of WHIM syndrome.

Keywords: CXCR4 antagonism; WHIM syndrome; chronic neutropenia; neutrophil function; preclinical study; primary immunodeficiency.

MeSH terms

Aminoquinolines
Animals
Benzimidazoles
Benzylamines
Butylamines
Cyclams
Disease Models, Animal*
Female
Leukocytes / drug effects
Leukocytes / immunology
Leukocytes / metabolism
Lymphopoiesis / drug effects
Mice
Mice, Inbred C57BL
Neutrophils / drug effects
Neutrophils / immunology
Primary Immunodeficiency Diseases* / drug therapy
Receptors, CXCR4* / antagonists & inhibitors
Receptors, CXCR4* / genetics
Warts* / drug therapy
Warts* / genetics

Substances

Receptors, CXCR4
mavorixafor
Cyclams
CXCR4 protein, mouse
Benzylamines
Aminoquinolines
Benzimidazoles
Butylamines

Supplementary concepts

WHIM syndrome

Grants and funding

The author(s) declare financial support was received for the research, authorship, and/or publication of this article. The study was supported by an ANR JCJC grant (ANR-19-CE15-0019-01) to ME and an ANR PRC grant (ANR-17-CE14-0019) and the FRM (Programme Equipe FRM 2022, EQU202203014627) to KB. ME and KB received a grant from X4 Pharmaceuticals in the frame of a research agreement. MKh was fellowship recipient from the French Ministry and then supported by La Ligue Contre le Cancer. MKa is fellowship recipient from the French Ministry. BS is fellowship recipient from Poste d’Accueil Inserm. VR was supported by the FRM, La Ligue contre le Cancer and la Société Française d’Hématologie. ZAN was fellowship recipient from the French Ministry and then supported by the FRM.