Clubmoss (Huperzia serrata) — Hermetica Encyclopedia
Herbs (Global Traditional) · Traditional Chinese Medicine

Clubmoss (Huperzia serrata)

Provisional Strong Scorebotanical

Hermetica Superfood Encyclopedia

Evidence review status: unreviewed

Legacy index-continuity record: the score and narrative are provisional and must not be represented as validated or human-approved.

Review flags: AWAITING_SEMANTIC_VALIDATION

Provisional Summary

Huperzia serrata is a clubmoss species containing huperzine A, an alkaloid that inhibits acetylcholinesterase to potentially enhance memory and cognitive function. The herb has been studied primarily in animal models for its neuroprotective effects against neurodegenerative conditions.

Screened PMID Records
Reported Benefits
Pending
Synergy Review
At a Glance
CategoryHerbs (Global Traditional)
GroupTraditional Chinese Medicine
Public Score StatusProvisional Strong
Primary Keywordhuperzia serrata benefits
Clubmoss close-up macro showing natural texture and detail — rich in nootropic, acetylcholinesterase inhibitor, neuroprotective
Clubmoss (Huperzia serrata) — botanical close-up

Origin & History

Clubmoss growing in Southeast Asia — natural habitat
Natural habitat

Clubmoss (Huperzia serrata) is a perennial evergreen plant native to Southeast Asia, previously known as Lycopodium serratum and called Qian Ceng Ta in Traditional Chinese Medicine. The primary active compound, huperzine A, is extracted via solvent methods from the dried whole plant, yielding low natural concentrations (0.011%) that often necessitate laboratory synthesis for commercial use.

In Traditional Chinese Medicine, Huperzia serrata has been used for centuries to treat contusions, strains, swelling, and schizophrenia. Huperzine A was first isolated from the plant in 1986 (with some reports citing 1948), building upon its long history in Chinese folk medicine.Traditional Medicine

Research Narrative (Provisional)

The research dossier reveals no specific human clinical trials, RCTs, or meta-analyses with PMIDs for Huperzia serrata or huperzine A. Current evidence is limited to preclinical investigations and animal studies demonstrating acetylcholinesterase inhibition and neuroprotective activities.

Preparation & Dosage

Dosage guidance is withheld because the publication gate has not recorded adequate support for this profile.

Nutritional Profile

Clubmoss (Huperzia serrata) is a medicinal herb, not a nutritional food source; macronutrient and caloric content are negligible and not clinically relevant. Its profile is defined almost entirely by bioactive alkaloids and secondary metabolites. Primary bioactive compound: Huperzine A (HupA), a sesquiterpene alkaloid, present at approximately 0.011–0.028% by dry weight in whole plant material (roughly 110–280 mcg/g dried herb), with concentration varying significantly by plant part — leaves and stems yield higher concentrations than roots. Secondary alkaloids include Huperzine B (present at lower concentrations, approximately 10–20% of HupA levels), serratinine, fawcettimine, lycopodine, and annotinine. Polyphenolic compounds including flavonoids (quercetin, kaempferol derivatives) are present in trace amounts. Chlorophyll and carotenoid pigments are detectable in the aerial parts. Mineral content is modest: small amounts of potassium, calcium, and magnesium are present as typical of terrestrial ferns, but no clinically significant micronutrient density has been documented. Fiber content (as cellulose and hemicellulose from plant cell walls) is present structurally but not consumed in dietary quantities. Protein content is minimal (<5% dry weight, not a dietary protein source). Bioavailability note: Huperzine A is well-absorbed orally with reported bioavailability of approximately 96–99% in animal models; human pharmacokinetic studies show peak plasma concentration within 1–3 hours post-ingestion with a half-life of approximately 10–14 hours. Standard supplemental doses provide 50–200 mcg HupA, far below the quantity derivable from raw plant material in typical use.

Reported Mechanism (Provisional)

Mechanism of Action

Huperzia serrata's primary bioactive compound, huperzine A, reversibly inhibits acetylcholinesterase, the enzyme responsible for breaking down acetylcholine in synapses. This inhibition leads to increased acetylcholine concentrations in the brain, particularly in areas associated with learning and memory. The compound may also exhibit antiapoptotic effects by protecting neurons from programmed cell death pathways.

Clinical Narrative (Provisional)

Current research on Huperzia serrata is limited primarily to animal studies and preclinical investigations, with no robust human clinical trials cited in the available evidence. Animal studies have shown potential neuroprotective effects against Alzheimer's disease pathology, including reduced amyloid plaque formation and improved cognitive performance in rodent models. The evidence for memory and cognitive enhancement remains at the preclinical stage, requiring human studies to establish efficacy and appropriate dosing. Most research has focused on isolated huperzine A rather than whole plant extracts.

Also Known As

Lycopodium serratumQian Ceng TaChinese Club MossSerrate ClubmossToothed ClubmossFir ClubmossJin Bu Huan

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These statements have not been evaluated by the Food and Drug Administration. This content is for informational purposes only and is not intended to diagnose, treat, cure, or prevent any disease.
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