# Phytochemistry, Bioactivity, and Toxicological Duality of Oxytropis glabra DC: A Review

**Authors:** Karlygash Raganina, Akerke Amirkhanova, Sholpan Akhelova, Aiman Berdgaleyeva, Meruyert Amantayeva, Elmira Kartbayeva, Aigul Kaldybayeva, Madi Nurlybayev, Yerbol Ikhsanov, Nurzhan Iztileu, Zhanserik Shynykul, Moldir Koilybayeva

PMC · DOI: 10.3390/molecules31010044 · Molecules · 2025-12-22

## TL;DR

Oxytropis glabra is a plant with both toxic and medicinal properties, and this review explores its chemical makeup and potential uses.

## Contribution

The paper provides a comprehensive review of Oxytropis glabra's chemical composition and dual biological effects.

## Key findings

- Oxytropis glabra contains toxic alkaloids like swainsonine and anagyrine that cause teratogenicity and neurotoxicity.
- Flavonoids in the plant, such as quercetin and kaempferol, show antioxidant and hepatoprotective effects.
- Critical gaps remain in understanding chemotype variability and pharmacokinetics of the plant's compounds.

## Abstract

Oxytropis glabra DC, a Fabaceae species distributed across Central Asia, is characterized by a dual biological profile encompassing pronounced toxicity alongside promising pharmacological potential. This review synthesizes current knowledge on its phytochemistry, bioactivity, and toxicological liabilities to clarify the plant’s risk–benefit landscape. The objectives are to summarize the dominant classes of metabolites identified in O. glabra, evaluate their toxicological and therapeutic relevance, and identify key gaps limiting translational research. O. glabra contains a diverse array of secondary metabolites, with quinolizidine and indolizidine alkaloids, including swainsonine, anagyrine, thermopsine, and sparteine, representing the primary determinants of toxicity. These compounds are associated with teratogenicity, neurotoxicity, and locoism through mechanisms involving α-mannosidase inhibition, disruption of glycoprotein processing, and impaired lysosomal homeostasis. In contrast, flavonoids such as quercetin, isoquercitrin, and kaempferol derivatives exhibit antioxidant, anti-inflammatory, hepatoprotective, and cardioprotective effects, while triterpenoid saponins and fatty acids contribute additional cytoprotective and metabolic activities. Despite extensive reports on both toxic and bioactive constituents, critical gaps remain regarding chemotype variability, dose–response relationships, and pharmacokinetics, which currently constrain therapeutic exploitation. Future research should prioritize defining safe exposure thresholds, elucidating structure–activity relationships, and developing standardized extracts or optimized derivatives that balance efficacy and safety. This integrative perspective highlights O. glabra as a chemically rich but biologically ambivalent species whose toxicological risks and pharmacological opportunities warrant systematic mechanistic investigation.

## Linked entities

- **Chemicals:** swainsonine (PubChem CID 51683), anagyrine (PubChem CID 5351589), thermopsine (PubChem CID 92768), sparteine (PubChem CID 7014), quercetin (PubChem CID 5280343), isoquercitrin (PubChem CID 5280804), kaempferol (PubChem CID 5280863)
- **Species:** Oxytropis glabra (taxon 483874)

## Full-text entities

- **Diseases:** neurotoxicity (MESH:D020258), inflammatory (MESH:D007249), toxicity (MESH:D064420)
- **Chemicals:** anagyrine (MESH:C012736), indolizidine alkaloids (-), kaempferol (MESH:C006552), isoquercitrin (MESH:C016527), quinolizidine (MESH:D054837), quercetin (MESH:D011794), fatty acids (MESH:D005227), sparteine (MESH:D013034), swainsonine (MESH:D017026), flavonoids (MESH:D005419)
- **Species:** O. glabra [taxon 303638]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12787101/full.md

## References

101 references — full list in the complete paper: https://tomesphere.com/paper/PMC12787101/full.md

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Source: https://tomesphere.com/paper/PMC12787101