American Society of Hirudotherapy

Hirudin prevents vascular endothelial cell apoptosis and permeability enhancement induced by the serum from rat with chronic renal failure through inhibiting RhoA/ROCK signaling pathway

Research article published in Drug development research (2021)

Last Updated: June 18, 2026Reviewed by: ASH Editorial Board
Research article — evidence reviewArticle reference
Evidence: Research reportDrug DevelopmentChen et al. · Drug development research, 2021

Abstract

Endothelial cells injury and activation contribute to arteriovenous fistula (AVF) stenosis. Hirudin (Hiru) can inhibit the activity of thrombin, which was reported to enhance endothelial cell permeability and promote vascular inflammatory responses. RhoA/ROCK signaling pathway is also important in regulating vascular endothelial permeability. This study aimed to investigate the role of Hiru on the viability and permeability of human umbilical vein endothelial cells (HUVECs) following stimulation of serum from rat with chronic renal failure (CRF) and illustrated the effects of Hiru on RhoA/ROCK signaling. Wistar rats were randomly divided into control group and CRF group. Serum from each group was collected to stimulate HUVECs. Proliferation capability was estimated with Cell Count Kit-8 (CCK-8) assay. Transwell assay was performed to determine permeability. Cell apoptosis was examined using Tunel staining. Telomere length and telomerase activity were determined by qPCR. Moreover, the expression of RhoA, ROCK1 and ROCK2 was estimated via western blot. Results showed that the serum from CRF rat significantly inhibited cell viability while enhanced cell permeability and apoptosis. Different concentrations of Hiru prevented the above effects caused by CRF serum. Additionally, Hiru recovered the CRF serum-induced decreased telomere length and telomerase activity. Hiru also inhibited the protein expression of RhoA, ROCK1 and ROCK2, which were activated by CRF serum. Moreover, the ROCK inhibitor, Y27632, exhibited similar effects with Hiru. In conclusion, Hiru-restored HUVECs cell viability, telomere length and telomerase activity, suppressed permeability and apoptosis in the presence of CRF serum might depend on inactivating the RhoA/ROCK signaling.

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 termsAmidesAnimalsApoptosisBiomarkersHirudinsHuman Umbilical Vein Endothelial CellsHumansKidney Failure, ChronicMalePermeabilityPyridinesRats

Summary

Peer-reviewed research on anticoagulant and antithrombotic drug development relevant to leech-derived and synthetic compounds. Indexed in PubMed and verified against the NCBI record.

Why This Matters for Hirudotherapy

This laboratory study tested hirudin (a leech-derived thrombin inhibitor) on human umbilical vein endothelial cells stimulated with serum from rats with chronic renal failure, and reported that hirudin restored cell viability, telomere length and telomerase activity while suppressing the increased permeability and apoptosis caused by the failure serum, with effects mirroring a ROCK inhibitor and associated with reduced RhoA/ROCK1/ROCK2 expression. This is among the more directly hirudotherapy-relevant entries in the set, offering a candidate molecular mechanism (thrombin inhibition and RhoA/ROCK pathway modulation) by which the leech secretome could protect endothelium, with a stated link to arteriovenous-fistula stenosis. The essential caveat is that these are preclinical cell-culture experiments using purified hirudin and animal-derived serum; they do not constitute clinical evidence, and findings in HUVECs do not establish efficacy or safety of leech therapy in patients.

Citation

Hirudin prevents vascular endothelial cell apoptosis and permeability enhancement induced by the serum from rat with chronic renal failure through inhibiting RhoA/ROCK signaling pathway.

Chen et al. · Drug development research, 2021

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

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