Galectin-1 Fuels Monocyte-Driven Hyperinflammation and Represents a Novel Therapeutic Target in Myeloproliferative Neoplasms

JDP and STO co-corresponding authors Previous studies by our group and others have demonstrated that monocytes play a key role in driving hyperinflammation in myeloproliferative neoplasms (MPNs), and that aberrant inflammatory cytokine signaling contributes to disease progression and poor prognosis...

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Veröffentlicht in:Blood 2023-11, Vol.142 (Supplement 1), p.4518-4518
Hauptverfasser: He, Fan, Kong, Tim, Lin, Shuyang, Fulbright, Mary C., Laranjeira, Angelo B. A., Fisher, Daniel A.C., Cox, Maggie J, Ashworth, Katrina, Di Paola, Jorge, Oh, Stephen T.
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Sprache:eng
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Zusammenfassung:JDP and STO co-corresponding authors Previous studies by our group and others have demonstrated that monocytes play a key role in driving hyperinflammation in myeloproliferative neoplasms (MPNs), and that aberrant inflammatory cytokine signaling contributes to disease progression and poor prognosis in MPNs. To interrogate relationships between cellular sources and targets of inflammatory cytokines, we performed single cell RNA-seq (scRNA-seq) in PBMCs and progenitor cells from MPN patients and healthy controls. Monocytes from MPN patients displayed significant enrichment of inflammation-relevant genes as expected. Cell-cell communication networks inferred from expression of ligands and receptors predicted monocytes as a pivotal mediator of cell interactions. Further analysis revealed galectin signaling as one of the most robust input/output pathways for monocytes and significant enrichment of LGALS1 (galectin-1) expression in MPN monocytes. Galectins are a class of proteins that bind specifically to β-galactoside carbohydrates, such as N-linked or O-linked glycosylated proteins. Abnormal expression of galectins in various cancers has been found to mediate broad biological functions, including cell proliferation, apoptosis, adhesion, and inflammation. However, the mechanisms by which galectins contribute to MPN pathogenesis remain incompletely understood. To corroborate our sRNA-seq findings, we performed flow cytometry analysis which demonstrated elevated expression of galectin-1 in MPN patient CD14+ monocytes. Increased plasma levels of galectin-1 were also identified in MPN patients compared to healthy individuals. Higher galectin-1 protein levels in both Kit+ progenitor cells and CD11b+ myeloid cells from Jak2 V617F knock-in mice were also observed when compared to wild type mice. Additionally, galectin-1 expression was induced by MPL W515L and JAK2 V617F and inhibited by ruxolitinib in Ba/F3 cells. Thus, our results show enrichment of galectin-1 in both MPN patients and mouse models, with evidence of direct contribution from specific MPN driver mutations. Our scRNA-seq dataset analysis showed significant correlations of galectin-1 expression with inflammatory and oxidative phosphorylation (OXPHOS) genes in MPN patient monocytes. To investigate the effects of galectin-1 in monocyte activation, we incubated CD14+ monocytes from MPN patients with recombinant galectin-1 (rGal-1) and observed markedly stimulated secretion of inflammatory cytokines, such as
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2023-189252