Circulating immune checkpoints predict heart failure outcomes

Elles M Screever; Laura I E Yousif; Javid J Moslehi; Joe-Elie Salem; Adriaan A Voors; Herman H W Silljé; Rudolf A de Boer; Wouter C Meijers

doi:10.1002/ehf2.14304

Circulating immune checkpoints predict heart failure outcomes

ESC Heart Fail. 2023 Aug;10(4):2330-2337. doi: 10.1002/ehf2.14304. Epub 2023 Apr 25.

Authors

Elles M Screever^{1

2}, Laura I E Yousif², Javid J Moslehi³, Joe-Elie Salem⁴, Adriaan A Voors¹, Herman H W Silljé¹, Rudolf A de Boer^{1

2}, Wouter C Meijers^{1

2}

Affiliations

¹ Department of Cardiology, University Medical Center Groningen, Groningen, The Netherlands.
² Division of Experimental Cardiology, Department of Cardiology, Thorax Center, Erasmus University Medical Center, PO Box 2040, 3000CA, Rotterdam, The Netherlands.
³ Section of Cardio-Oncology and Immunology, Division of Cardiology and the Cardiovascular Research Institute, University of California San Francisco, San Francisco, CA, USA.
⁴ Department of Pharmacology, Assistance Publique-Hôpitaux de Paris (AP-HP), Sorbonne Université, INSERM, CIC-1901, UNICO-GRECO Cardio-oncology Program, Paris, France.

Abstract

Aims: There are limited data examining the role of immune checkpoint (IC) ligands in the pathophysiology of heart failure (HF). Therefore, we explore this in three HF animal models and in three different human cohorts (healthy, stable, and worsening HF).

Methods and results: Transcriptomic analyses of cardiac tissue of three different HF mouse models revealed differentially expressed IC receptors and their ligands compared with control mice. Based on this observation, serum levels of three well-known IC ligands (i.e. sPD-L1, sPD-L2 and galectin-9) were measured in stable HF patients from the Vitamin D Chronic Heart Failure (VitD-CHF) study (n = 101), as well as healthy individuals from the Prevention of Renal and Vascular End-stage Disease (PREVEND) study (n = 58). sPD-L1, sPD-L2, and galectin-9 were all associated with New York Heart Association classification. In multivariate linear regression analyses, all three IC ligands were associated with galectin-3 (β = 0.230, β = 0.283, and β = 0.304, respectively). sPD-L1 and galectin-9 were also associated with hs-troponin-T (β = 0.386 and β = 0.314). Regarding prognosis, higher serum levels of sPD-L1 and galectin-9 were significantly associated with increased risk for HF hospitalization and all-cause mortality [hazard ratio 1.69 (1.09-2.59) and hazard ratio 1.50 (1.06-2.12)]. Furthermore, the importance of IC ligands was tested in another stage of HF, namely worsening HF patients. In the worsening HF cohort (The BIOlogy Study to Tailored Treatment in Chronic Heart Failure) (n = 2032), sPD-L2 and galectin-9 were associated with New York Heart Association classification and significantly predicted outcome with an increased relative risk of 15% and 20%, after multivariable adjustment, respectively.

Conclusions: IC ligands are expressed in cardiac disease models, and serum levels of IC ligands are elevated in HF patients, are associated with disease severity, and significantly predict prognosis. These data indicate a potential role for IC ligands in HF pathogenesis.

Keywords: Galectin-9; Heart failure; Immune checkpoints; PD-L1; PD-L2.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Chronic Disease
Galectin 3
Galectins
Heart Failure* / therapy
Humans
Ligands
Mice
Prognosis

Substances

Ligands
Galectins
Galectin 3

Grants and funding

ERC CoG 818715/ERC_/European Research Council/International