American Society of Hirudotherapy

Synthetic anticoagulant octaparin targets mitochondrial cardiolipin-GSDMD axis to rescue redox homeostasis in sepsis

Research article published in Redox biology (2025)

Last Updated: June 18, 2026Reviewed by: ASH Editorial Board
Research article — evidence reviewArticle reference
Evidence: Research reportSafety & Infection ControlZhang et al. · Redox biology, 2025

Abstract

Sepsis, characterized by dysregulated immune responses and mitochondrial dysfunction, currently has few effective therapies that directly target these cellular mechanisms, and conventional heparin and related analogues provide inadequate immunomodulatory benefits. Here, we investigated the synthetic heparin analogue octaparin, which exhibits enhanced anticoagulant safety, for its potential to mitigate sepsis by targeting mitochondrial and redox pathways. Using murine models of lipopolysaccharide (LPS)-induced endotoxemia and Salmonella typhimurium-induced sepsis, along with in vitro studies performed using murine bone marrow-derived macrophages (BMDMs) and the human acute monocytic leukemia THP-1 cell line, we demonstrate that octaparin significantly improves survival and attenuates multi-organ (lung, liver, kidney) damage. Octaparin outperformed heparin, enoxaparin, and fondaparinux in suppressing systemic inflammation including TNF-α, IL-6, IL-1β and bacterial burden. Transcriptomic analysis revealed octaparin reprograms macrophage immunometabolism, suppressing pro-inflammatory pathways while enhancing phagocytosis. Crucially, octaparin inhibited both canonical and non-canonical inflammasome activation, reduced generation of the pyroptotic executor GSDMD-N-terminal fragment (GSDMD-NT), and specifically diminished mitochondrial localization of GSDMD-NT by downregulating key cardiolipin synthesis and transport genes. Furthermore, octaparin uniquely reversed LPS-induced mitochondrial dysfunction. This restoration was accompanied by improvements in mitochondrial quality and the reestablishment of redox homeostasis. Collectively, octaparin confers multifaceted protection in sepsis, positioning it as a promising redox-targeted therapeutic for sepsis.

Abstract sourced from PubMed (NCBI) for the cited record. See the original publication for the authoritative version.

Publication typeJournal ArticleResearch Support, Non-U.S. Gov't
Indexed MeSH termsAnimalsSepsisMitochondriaMiceHumansOxidation-ReductionCardiolipinsAnticoagulantsHomeostasisLipopolysaccharidesDisease Models, AnimalMacrophages

Summary

Peer-reviewed research on safety and infection-control considerations relevant to leech therapy and anticoagulation. Indexed in PubMed and verified against the NCBI record.

Why This Matters for Hirudotherapy

Using mouse models of LPS- and Salmonella-induced sepsis plus macrophage cell lines, this study reported that the synthetic heparin analogue octaparin improved survival, reduced multi-organ damage, suppressed inflammatory cytokines, and inhibited inflammasome/GSDMD-driven pyroptosis while restoring mitochondrial redox homeostasis, outperforming heparin, enoxaparin and fondaparinux. The relevance to hirudotherapy is indirect: it illustrates the active scientific effort to engineer anticoagulant-class molecules whose benefits extend beyond clotting into immunomodulation, the same conceptual space in which the multifunctional leech secretome (anticoagulant, anti-inflammatory, vasoactive components) is studied as a drug-discovery resource. Importantly, octaparin is a synthetic compound, not a leech-derived agent, and all findings are preclinical (rodent and in-vitro); they say nothing about leech therapy in patients and imply no regulatory approval.

Citation

Synthetic anticoagulant octaparin targets mitochondrial cardiolipin-GSDMD axis to rescue redox homeostasis in sepsis.

Zhang et al. · Redox biology, 2025

Added to ASH library: May 28, 2026 · Site last updated: June 18, 2026

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