Maria-Bernadette Madel ¹, Lidia Ibáñez ¹, Thomas Ciucci ², Julia Halper ¹, Antoine Boutin ¹, Ghada Beldi ¹, Alice C Lavanant ³, Henri-Jean Garchon ⁴, Matthieu Rouleau ¹, Christopher G Mueller ³, Laurent Peyrin-Biroulet ⁵, David Moulin ⁶, Claudine Blin-Wakkach ⁷, Abdelilah Wakkach ⁸

Mucosal Immunol.. 2025 Feb;18(1):90-104. doi: 10.1016/j.mucimm.2024.09.005. Epub 2024 Sep 26.

Inflammatory bowel disease (IBD) is characterized by very severe intestinal inflammation associated with extra-intestinal manifestations. One of the most critical ones is bone destruction, which remains a major cause of morbidity and a risk factor for osteopenia and osteoporosis in IBD patients. In various mouse models of IBD, we and other have demonstrated concomitant bone loss due to a significant increase in osteoclast activity. Besides bone resorption, osteoclasts are known to control hematopoietic niches in vivo and modulate inflammatory responses in vitro, suggesting they may participate in chronic inflammation in vivo. Here, using different models of colitis, we showed that osteoclast inhibition significantly reduced disease severity and that induction of osteoclast differentiation by RANKL contributed to disease worsening. Our results demonstrate a direct link between osteoclast activity and myeloid cell accumulation in the intestine during colitis. RNAseq analysis of osteoclasts from colitic mice revealed overexpression of genes involved in the remodeling of hematopoietic stem cell niches. We also demonstrated that osteoclasts induced hematopoietic progenitor proliferation accompanied by a myeloid skewing in the early phases of colitis, which was confirmed in a model of RANKL-induced osteoclastogenesis. Mechanistically, inhibition of TNF-α reduced the induction of myeloid skewing by OCL both in vitro and in vivo. Lastly, we observed that osteoclastic activity and the proportion of myeloid cells in the blood are positively correlated in patients with Crohn’s disease. Collectively, our results shed light on a new role of osteoclasts in colitis in vivo, demonstrating they exert their colitogenic activity through an early action on hematopoiesis, leading to an increase in myelopoiesis sustaining gut inflammation.

Shang-Hung Lin ^1 2 3, Chung-Yuan Hsu ^2 3 4, Sung-Chou Li ^5 6 7

Biomedicines. 2024 Apr 1;12(4):775. doi: 10.3390/biomedicines12040775.

Psoriatic arthritis (PsA) is a chronic inflammatory arthritis primarily affecting peripheral and axial joints. The osteolytic effect in the damaged joint is mediated by osteoclast activation. We aimed to investigate differential gene expression in peripheral CD14+ monocytes between patients with psoriatic arthritis (n = 15) and healthy controls (HCs; n = 15). Circulating CD14+ monocytes were isolated from peripheral blood mononuclear cells using CD14+ magnetic beads. Cell apoptosis was measured via Annexin V using flow cytometry. The gene expression profiling was analyzed via microarray (available in the NCBI GEO database; accession number GSE261765), and the candidate genes were validated using PCR. The results showed a higher number of peripheral CD14+ monocytes in patients with PsA than in the HCs. By analyzing the microarray data, identifying the differentially expressed genes, and conducting pathway enrichment analysis, we found that the apoptosis signaling pathway in CD14+ cells was significantly impaired in patients with PsA compared to the HCs. Among the candidate genes in the apoptotic signaling pathway, the relative expression level of cathepsin L was confirmed to be significantly lower in the PsAs than in the HCs. We concluded that the numbers of peripheral CD14+ monocytes increased, and their apoptosis activity was impaired in patients with PsA, which could lead to enhanced macrophage maturation and osteoclast activation. The resistance of apoptotic death in peripheral CD14+ monocytes may contribute to active joint inflammation in PsA.