# The novel mineralocorticoid receptor modulator balcinrenone protects against diet-induced cardiac microvascular dysfunction and plasma potassium elevation in mouse models

**Authors:** Matthew J. Wolf, Soumaya El Moghrabi, Roberto Palacios-Ramirez, Krister Bamberg, Leigh A. Bradley, Frederick H. Epstein, Judith Hartleib-Geschwindner, Frédéric Jaisser

PMC · DOI: 10.1371/journal.pone.0341078 · PLOS One · 2026-02-02

## TL;DR

Balcinrenone, a new MR modulator, protects the heart and kidneys in mice without causing dangerous potassium levels, unlike existing drugs.

## Contribution

Balcinrenone shows cardiorenal benefits with reduced hyperkalemia risk compared to traditional MRAs like eplerenone.

## Key findings

- Balcinrenone restored myocardial perfusion in diet-induced HFpEF mice as effectively as eplerenone.
- Balcinrenone reduced markers of cardiac remodeling and inflammation in cell models.
- Balcinrenone did not elevate plasma potassium levels in CKD mice, unlike eplerenone.

## Abstract

Overactivation of the mineralocorticoid receptor (MR) promotes tissue remodeling in patients with heart failure (HF) and/or chronic kidney disease (CKD). These patients may benefit from MR antagonists (MRAs); however, MRAs are underutilized, partly due to the risk of hyperkalemia. Balcinrenone is a novel, selective MR modulator that demonstrated renoprotection without an acute effect on urinary electrolyte excretion in preclinical studies, suggesting reduced hyperkalemia risk. Here, we present in vivo and in vitro studies comparing balcinrenone with eplerenone, an approved MRA. Myocardial perfusion reserve (MPR), an indicator of coronary microvascular remodeling, was evaluated in mice with diet-induced HF with preserved ejection fraction (HFpEF). MR target gene expression and markers of cardiac remodeling were evaluated using a clonal cell line of rat cardiomyocytes stably expressing MR (H9C2/MR+), and inflammatory and fibrotic processes were evaluated in primary human cardiac fibroblasts. Potassium (K+) homeostasis was evaluated in mice with nephrectomy-induced CKD. In mice with diet-induced HFpEF, 30 mg/kg/day balcinrenone or 100 mg/kg/day eplerenone restored MPR to levels seen in mice without HFpEF. Balcinrenone and eplerenone inhibited aldosterone-induced expression of MR target genes and markers of cardiac remodeling in H9C2/MR+ cells, and excretion of collagen 1 and interleukin-6 in primary human cardiac fibroblasts, in a concentration-dependent manner. An overnight K+ challenge in eplerenone-treated mice with nephrectomy-induced CKD yielded a higher plasma K+ elevation than that observed in vehicle-treated CKD mice. By contrast, the plasma K+ response in balcinrenone-treated mice with CKD was similar to what was observed in vehicle-treated CKD mice. Urinary K+ excretion was not affected by balcinrenone or eplerenone treatment, but fecal K+ excretion was elevated in CKD mice that were administered balcinrenone versus eplerenone. These results suggest that balcinrenone may be suitable for patients requiring additional cardiorenal protection through MR modulation but are at high risk of hyperkalemia.

## Linked entities

- **Chemicals:** aldosterone (PubChem CID 5839), balcinrenone (PubChem CID 118599727), eplerenone (PubChem CID 443872)
- **Diseases:** heart failure (MONDO:0005252), chronic kidney disease (MONDO:0005300)
- **Species:** Mus musculus (taxon 10090), Rattus norvegicus (taxon 10116)

## Full-text entities

- **Genes:** Il6 (interleukin 6) [NCBI Gene 24498] {aka ILg6, Ifnb2}, SLC5A2 (solute carrier family 5 member 2) [NCBI Gene 6524] {aka SGLT2}, Lcn2 (lipocalin 2) [NCBI Gene 170496] {aka Sip24}, ALB (albumin) [NCBI Gene 213] {aka FDAHT, HSA, PRO0883, PRO0903, PRO1341}, Nr3c2 (nuclear receptor subfamily 3, group C, member 2) [NCBI Gene 110784] {aka MR, Mlr}, Sgk1 (serum/glucocorticoid regulated kinase 1) [NCBI Gene 29517] {aka Sgk}, Il6 (interleukin 6) [NCBI Gene 16193] {aka Il-6}, NR3C2 (nuclear receptor subfamily 3 group C member 2) [NCBI Gene 4306] {aka MCR, MLR, MR, NR3C2VIT}, IL6 (interleukin 6) [NCBI Gene 3569] {aka BSF-2, BSF2, CDF, HGF, HSF, IFN-beta-2}, Adamts1 (ADAM metallopeptidase with thrombospondin type 1 motif, 1) [NCBI Gene 79252], Rgs2 (regulator of G-protein signaling 2) [NCBI Gene 84583], Serpine1 (serpin family E member 1) [NCBI Gene 24617] {aka PAI1A, Pai1, Pai1aa, Planh, RATPAI1A}
- **Diseases:** obesity (MESH:D009765), impairment of the coronary vascular bed (MESH:D003323), cardiac remodeling (MESH:D020257), renal failure (MESH:D051437), type 2 diabetes (MESH:D003924), cardiac fibrosis (MESH:D005355), hyperkalemia (MESH:D006947), HFpEF (MESH:D054144), HF (MESH:D006333), pain (MESH:D010146), coronary artery disease (MESH:D003324), cardiorenal disease (MESH:D059347), albuminuria (MESH:D000419), CKD (MESH:D051436), Impairment of renal (MESH:D007674), cardiac damage (MESH:D006331), cardiomyopathy (MESH:D009202), inflammation (MESH:D007249)
- **Chemicals:** Solutol HS15 (MESH:C067028), regadenoson (MESH:C430916), cortisol (MESH:D006854), salt (MESH:D012492), Na+ (MESH:D012964), Creatinine (MESH:D003404), Balcinrenone (-), hydroxypropyl methylcellulose (MESH:D065347), fat (MESH:D005223), K+ (MESH:D011188), Tween80 (MESH:D011136), buprenorphine (MESH:D002047), oxygen (MESH:D010100), Eplerenone (MESH:D000077545), urea (MESH:D014508), dapagliflozin (MESH:C529054), Aldosterone (MESH:D000450), CO2 (MESH:D002245), paraffin (MESH:D010232), potassium chloride (MESH:D011189), isoflurane (MESH:D007530), spironolactone (MESH:D013148), AZD9977 (MESH:C000627339)
- **Species:** Rattus norvegicus (brown rat, species) [taxon 10116], Mus musculus (house mouse, species) [taxon 10090], Homo sapiens (human, species) [taxon 9606]
- **Cell lines:** fibroblasts — Mus musculus (Mouse), Spontaneously immortalized cell line (CVCL_0594), H9C2/MR+ — Homo sapiens (Human), Human papillomavirus-related endocervical adenocarcinoma, Cancer cell line (CVCL_B1Z1), C57BL/6J — Mus musculus (Mouse), Transformed cell line (CVCL_C0MW), H9C2 — Rattus norvegicus (Rat), Spontaneously immortalized cell line (CVCL_0286)

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## Figures

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## References

43 references — full list in the complete paper: https://tomesphere.com/paper/PMC12863481/full.md

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Source: https://tomesphere.com/paper/PMC12863481