Regulatory Haplotype of CXCR4 Is Associated with sJIA and Corelates with Enhanced Neutrophil and CD14+ Monocyte Migration

Hiroto Nakano¹, Emily Shuldiner², Anne Hinks³, Marc Sudman⁴, Elaine Remmers⁵, Colleen Satorius⁶, Elizabeth Schmitz¹, Victoria Arthur⁷, Patricia Woo⁸, Alexei Grom⁹, Dirk Foell¹⁰, John Bohnsack¹¹, Marco Gattorno¹², Seza Ozen¹³, Sampath Prahalad¹⁴, Rae Yeung¹⁵, Elizabeth Mellins², Sheila Oliveira¹⁶, Jordi Antón¹⁷, Claudio Len¹⁸, Carol Lake¹⁹, Ly-Lan Bergeron²⁰, Michelle Millwood²¹, Estefania de los santos²¹, Mariana Correia Marques²², Juvenile Arthritis Consortium for the Immunochip²³, The Genomic Ascertainment Cohort Investigators²⁴, INCHARGE Consortium²⁵, Carl Langefeld²⁶, Susan Thompson²⁷, Wendy Thomson²⁸ and Michael Ombrello¹, ¹National Institutes of Arthritis and Musculoskeletal and Skin Diseases (NIAMS), National Institutes of Health (NIH), Bethesda, MD, ²Stanford University, Stanford, CA, ³The University of Manchester, Manchester, United Kingdom, ⁴Cincinnati Children's Hospital Medical Center, Cincinnati, OH, ⁵National Human Genome Research Institute, Bethesda, MD, ⁶NHGRI, NIH, Bethesda, MD, ⁷Boston Children's Hospital, Boston, MA, ⁸University College London, London, United Kingdom, ⁹Divisions of Rheumatology, Cincinnati Children’s Hospital Medical Center, Cincinnati, OH, ¹⁰University Hospital Münster, Münster, Germany, ¹¹University of Utah, Salt Lake City, UT, ¹²Pediatric Clinic and Rheumatology Unit, IRCCS Istituto Giannina Gaslini, Genoa, Italy, ¹³Hacettepe University Faculty of Medicine, Ankara, Turkey, ¹⁴Emory + Children's Pediatric Institute, Atlanta, GA, ¹⁵The Hospital for Sick Children, University of Toronto, Toronto, ON, Canada, ¹⁶Universidade Federal do Rio de Janeiro, Rio De Janeiro, Brazil, ¹⁷Pediatric Rheumatology Department. Hospital Sant Joan de Déu. Universitat de Barcelona, Esplugues de Llobregat, Spain, ¹⁸Universidade Federal de São Paulo, São Paulo, Brazil, ¹⁹NIH, Gaithersburg, MD, ²⁰NIH/NIAMS, Vienna, VA, ²¹NIAMS, NIH, Bethesda, MD, ²²National Institute of Arthritis and Musculoskeletal and Skin Diseases / Children`s National Hospital, Bethesda, MD, ²³Juvenile Arthritis Consortium for the Immunochip, Bethesda, MD, ²⁴The Genomic Ascertainment Cohort Investigators, Bethesda, MD, ²⁵International Childhood Arthritis Genetics Consortium, Bethesda, MD, ²⁶Wake Forest School of Medicine, Winston Salem, NC, ²⁷Cincinnati Children's Hospital Medical Center/Univ of Cincinnati College of Medicine, Blue Ash, OH, ²⁸Manchester Academic Health Science Centre, Manchester, United Kingdom

Meeting: ACR Convergence 2022

Keywords: genetics, genomics, Juvenile idiopathic arthritis, Juvenile Inflammatory Arthritis, Still's disease

Session Information

Date: Sunday, November 13, 2022

Title: Pediatric Rheumatology – Clinical Poster I: JIA

Session Type: Poster Session B

Session Time: 9:00AM-10:30AM

Background/Purpose: Systemic juvenile idiopathic arthritis (sJIA) is a rare inflammatory disease that causes spiking fever, skin rash, chronic arthritis, and inflammation of the heart and lungs. Despite recognition of excessive innate immune responses, the cause of sJIA is largely unknown. Genomic investigations are an important tool for identifying new disease-associated genes and pathways. To explore the genetic contribution to sJIA, we studied an international cohort of sJIA cases and matched controls with the Immunochip, a single nucleotide polymorphism (SNP) array that generates exceptionally dense genotyping at 186 loci of immunologic importance.

Methods: SNP genotyping was performed with Immunochip arrays in 889 subjects with ILAR-classified sJIA and 16,144 control subjects according to manufacturer’s protocols. Quality control operations (QC) were applied to remove poor quality samples/markers and to remove ancestral outliers. Imputation was performed with the Michigan Imputation Server. Haplotype analysis was performed with Haploview. Association testing was performed by logistic regression, corrected for sex and ancestry. Variant-expression relationships were examined in silico in paired DNA/RNA sequencing data from 1000 Genomes Project (1KG). Migration of fresh peripheral leukocytes was measured by flow cytometry-based transwell assay. Statistical analyses used Kruskal-Wallis test.

Results: SNP genotyping and QC yielded a final population of 579 sJIA cases and 12,930 control subjects. Association testing of an imputation-expanded SNPset identified a novel, highly significant susceptibility locus on chromosome 2. The strongest risk factor was a 124kb 6-SNP haplotype that contained the entire CXCR4 gene (OR 1.7; p=4.3E-10), encoding C-X-C chemokine receptor type 4. Homozygosity for the haplotype conferred an even greater risk of sJIA (OR 2.8). The sJIA risk haplotype correlated with high CXCR4 expression in B lymphoblasts from 1KG participants (p=4.0E-4). Because CXCR4 is important for the development, maturation and migration of many leukocyte populations, we evaluated the effect of the haplotype on leukocyte migration towards CXCL12 in 6 pairs of population control subjects with 0 and 2 copies of the risk haplotype. CD14+ monocytes and neutrophils from risk haplotype homozygotes displayed greater migration towards the CXCR4 ligand, CXCL12, than did monocytes from subjects without the risk haplotype. Finally, when we examined CD14+ monocyte RNAseq data from sJIA patients (GSE147608), expression of CXCR4 was higher in sJIA monocytes than in those from healthy subjects, regardless of disease activity (p=0.0009).

Conclusion: We report a novel association between sJIA and a high-expression CXCR4 haplotype. Homozygosity for this haplotype is nearly 3-fold greater in sJIA than in the control population. The risk haplotype leads to increased migration of CD14+ monocytes and neutrophils from healthy subjects. The relevance of this finding is amplified by the observation that CXCR4 expression is increased in CD14+ monocytes from both active and inactive sJIA patients. This suggests that increased CXCR4 expression and signaling may be a genetically-encoded, intrinsic characteristic of sJIA.

Disclosures: H. Nakano, None; E. Shuldiner, None; A. Hinks, None; M. Sudman, None; E. Remmers, None; C. Satorius, None; E. Schmitz, None; V. Arthur, None; P. Woo, None; A. Grom, Sobi, Novartis; D. Foell, Novartis, Sobi, Boehringer, Novartis, Sobi; J. Bohnsack, None; M. Gattorno, None; S. Ozen, None; S. Prahalad, Novartis; R. Yeung, None; E. Mellins, GlaxoSmithKline, Genentech, Codexis; S. Oliveira, None; J. Antón, None; C. Len, None; C. Lake, None; L. Bergeron, None; M. Millwood, None; E. de los santos, None; M. Correia Marques, None; J. for the Immunochip, None; T. Investigators, None; I. Consortium, None; C. Langefeld, None; S. Thompson, None; W. Thomson, None; M. Ombrello, None.

To cite this abstract in AMA style:

Nakano H, Shuldiner E, Hinks A, Sudman M, Remmers E, Satorius C, Schmitz E, Arthur V, Woo P, Grom A, Foell D, Bohnsack J, Gattorno M, Ozen S, Prahalad S, Yeung R, Mellins E, Oliveira S, Antón J, Len C, Lake C, Bergeron L, Millwood M, de los santos E, Correia Marques M, for the Immunochip J, Investigators T, Consortium I, Langefeld C, Thompson S, Thomson W, Ombrello M. Regulatory Haplotype of CXCR4 Is Associated with sJIA and Corelates with Enhanced Neutrophil and CD14+ Monocyte Migration [abstract]. Arthritis Rheumatol. 2022; 74 (suppl 9). https://acrabstracts.org/abstract/regulatory-haplotype-of-cxcr4-is-associated-with-sjia-and-corelates-with-enhanced-neutrophil-and-cd14-monocyte-migration/. Accessed .

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