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. 2025 Sep;211(9):1701-1713.
doi: 10.1164/rccm.202501-0034OC.

Metabolomic Evidence of Biological Overlap with Heart Failure with Preserved Ejection Fraction in a Subset of Pulmonary Arterial Hypertension

Yogesh N V Reddy  1 Aneesh K Asokan  2 Robert P Frantz  1 Anna Hemnes  3 Paul M Hassoun  4 John Barnard  5 Evelyn Horn  6 Jane A Leopold  7 Franz Rischard  8 Erika B Rosenzweig  9 Nicholas S Hill  10 Serpil C Erzurum  11 Gerald J Beck  5 J Emanuel Finet  11 Gabriele Grunig  12 Christine L Jellis  11 Stephen C Mathai  4 Catherine E Simpson  4 W H Wilson Tang  11 K Sreekumaran Nair  2 Barry A Borlaug  1
Affiliations

Metabolomic Evidence of Biological Overlap with Heart Failure with Preserved Ejection Fraction in a Subset of Pulmonary Arterial Hypertension

Yogesh N V Reddy et al. Am J Respir Crit Care Med. 2025 Sep.

Abstract

Rationale: A subset of patients with group 1 pulmonary hypertension (PH) have superimposed left heart abnormalities with unclear metabolic implications. Objectives: To compare serum/transpulmonary metabolome between group 1 PH stratified by heart failure with preserved ejection fraction (HFpEF) probability. Methods: Patients with group 1 PH were stratified into low (<25%) and high (⩾75%) HFpEF-ABA (age, body mass index, and atrial fibrillation) probability, with healthy control subjects and subjects with clinical HFpEF used for comparison of venous and transpulmonary metabolomics. Measurements and Main Results: Group 1 PH + high HFpEF probability (n = 131) was associated with a significant increase in 207 metabolites (false discovery rate [FDR] P < 0.05 and fold change >1) (n = 193, t test) and a significant decrease in 231 metabolites (FDR P < 0.05 and fold change <1) (n = 193, t test) compared with group 1 PH + low HFpEF probability (n = 62). Group 1 PH + high HFpEF probability was associated with enhanced tryptophan metabolism with higher downstream kynurenine metabolite concentrations and lower serotonin concentrations (FDR P < 0.002 for all, n = 193, t test). Linoleate (precursor to arachidonic acid and prostaglandins) and arginine and homoarginine (precursors to nitric oxide) were all lower in group 1 PH + high HFpEF probability (FDR P < 0.03 for all, n = 193, t test). Metabolome changes in group 1 PH + high HFpEF probability overlapped with clinical HFpEF (n = 240) but were abnormal relative to control subjects (n = 85) (P < 0.0001 for all, n = 456, t test). There was no evidence of differential transpulmonary uptake/release of most metabolites, suggesting probable nonpulmonary origin (except for serotonin, interaction P = 0.04; and kynurenine, interaction P = 0.03; n = 433, mixed model). Conclusions: Patients with group 1 PH + high HFpEF probability have a unique metabolome characterized by enhanced tryptophan-kynurenine pathway breakdown, deficiency of amino acids (such as glycine and serine), lower serotonin, and decreased prostaglandin and nitric oxide precursors. Despite fulfilling clinical criteria for group 1 PH, these metabolome changes were comparable with clinical HFpEF, supporting biological overlap between these two forms of PH.

Keywords: HFpEF; hemodynamics; metabolomics; pulmonary hypertension.

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