# Salidroside (from Rhodiola rosea and related species) **Canonical URL:** https://ingredients.hermeticasuperfoods.com/ingredients/salidroside-from-rhodiola-rosea-and-related-species **Data Source:** Hermetica Superfoods Ingredient Encyclopedia **Updated:** 2026-04-02 **Evidence Score:** 1 / 10 **Category:** Compound **Also Known As:** SAL, 2-(4-hydroxyphenyl)ethyl-β-D-glucopyranoside, Salidroside (from Rhodiola rosea and related Rhodiola spp.), rhodioloside, tyrosol glucoside, p-hydroxyphenethyl alcohol glucoside ## Overview Salidroside (2-(4-hydroxyphenyl)ethyl-β-D-glucopyranoside) activates AMPK signaling, upregulates HIF-1α under hypoxic conditions, modulates monoamine [neurotransmitter](/ingredients/condition/cognitive) levels, and exerts [antioxidant](/ingredients/condition/antioxidant) effects through Nrf2/HO-1 pathway induction. In clinical applications, doses of 60 mg daily (equivalent to approximately 2,000 mg of a 1% standardized Rhodiola rosea extract) administered over 16 days have been investigated for antifatigue and [physical performance](/ingredients/condition/energy) enhancement in healthy adults. ## Health Benefits - **Antifatigue and Physical Performance**: Salidroside modulates stress-response pathways including AMPK activation and [mitochondrial biogenesis](/ingredients/condition/energy), reducing markers of exercise-induced fatigue; standardized Rhodiola extracts containing 1% salidroside have been studied in healthy adults for improvements in endurance and perceived exertion. - **Neuroprotection**: Salidroside attenuates neuronal apoptosis by suppressing oxidative stress via Nrf2/HO-1 upregulation and inhibiting mitochondrial dysfunction, with preclinical models demonstrating protection against neurotoxin-induced [dopamine](/ingredients/condition/mood)rgic and hippocampal cell death. - **Adaptogenic Stress Resistance**: As a key constituent of Rhodiola rosea—a classical adaptogen—salidroside modulates the [hypothalamic-pituitary-adrenal](/ingredients/condition/stress) (HPA) axis and normalizes cortisol response, reducing burnout-associated [cognitive](/ingredients/condition/cognitive) fatigue in several small clinical trials. - **Antioxidant Activity**: Salidroside scavenges [reactive oxygen species](/ingredients/condition/antioxidant) (ROS) directly and induces endogenous antioxidant enzymes including superoxide dismutase (SOD) and catalase, with its glucoside moiety contributing to enhanced cellular uptake compared to its aglycone tyrosol. - **[Cardiovascular](/ingredients/condition/heart-health) Protection**: Preclinical evidence indicates salidroside protects cardiomyocytes from ischemia-reperfusion injury by inhibiting NLRP3 inflammasome activation, reducing apoptosis via Bcl-2/Bax modulation, and improving mitochondrial membrane potential. - **Anti-inflammatory Effects**: Salidroside suppresses NF-κB signaling and downstream [pro-inflammatory cytokine](/ingredients/condition/inflammation)s (TNF-α, IL-1β, IL-6) in macrophage and epithelial cell models, suggesting utility in conditions driven by chronic low-grade inflammation. - **Anti-aging and Cellular Longevity**: Salidroside activates SIRT1 and AMPK pathways associated with longevity signaling, inhibits [cellular senescence](/ingredients/condition/longevity) markers, and has demonstrated lifespan extension in model organisms including Caenorhabditis elegans. ## Mechanism of Action Salidroside's biosynthesis originates from the shikimate pathway, where phosphoenolpyruvate and erythrose-4-phosphate converge to form tyrosine, which is subsequently decarboxylated to tyramine and reduced to tyrosol, followed by UDP-glucose-dependent glycosylation catalyzed by glycosyltransferases such as AtUGT85A1. At the cellular level, salidroside activates AMP-activated protein kinase (AMPK), which promotes [mitochondrial biogenesis](/ingredients/condition/energy), glucose uptake, and fatty acid oxidation while suppressing mTOR-mediated anabolic signaling under energy-stress conditions. [Neuroprotective effect](/ingredients/condition/cognitive)s are mediated through activation of the Nrf2/Keap1 [antioxidant](/ingredients/condition/antioxidant) response element (ARE) pathway, inducing heme oxygenase-1 (HO-1) and thioredoxin, alongside inhibition of the intrinsic apoptotic cascade by upregulating Bcl-2 and downregulating Bax and caspase-3. [Anti-inflammatory](/ingredients/condition/inflammation) and [adaptogen](/ingredients/condition/stress)ic properties additionally involve modulation of HIF-1α under hypoxic conditions, suppression of NF-κB nuclear translocation, and normalization of monoamine neurotransmitter turnover (dopamine, [serotonin](/ingredients/condition/mood), norepinephrine) in the central nervous system. ## Clinical Summary Human clinical research on salidroside as an isolated compound is sparse, with most clinical data derived from standardized whole Rhodiola rosea extracts in which salidroside contributes approximately 0.8–1% of the extract mass alongside rosavins, tyrosol, and other phenolics. Small controlled trials have examined outcomes including [physical endurance](/ingredients/condition/energy), mental fatigue, stress-related burnout, and mood in populations of healthy young adults and occupationally stressed individuals, with reported benefits in perceived fatigue and exercise performance metrics, though most studies enrolled fewer than 100 participants and had short durations of 2–12 weeks. One study specifically using 60 mg of salidroside daily for 16 days supported antifatigue applications, but comprehensive effect size data and placebo-corrected outcomes were not fully characterized in available literature. Overall confidence in clinical efficacy is moderate for [adaptogen](/ingredients/condition/stress)ic and antifatigue applications when salidroside is consumed as part of standardized Rhodiola extracts, but evidence for salidroside as a standalone isolated compound requires further rigorous investigation in adequately powered RCTs. ## Nutritional Profile Salidroside is a pure phenylpropanoid glycoside compound (molecular formula C₁₄H₂₀O₇, molecular weight 300.30 g/mol) and does not contribute meaningful macronutrient or micronutrient content at supplemental doses. Its phytochemical identity consists of a tyrosol aglycone linked via a β-glucosidic bond to D-glucose; upon intestinal hydrolysis by β-glucosidases, it releases tyrosol (a monohydroxyphenylethanol) and glucose. In whole Rhodiola root extracts, salidroside co-occurs with rosavins (rosavin, rosarin, rosin), p-tyrosol, gallic acid, catechins, proanthocyanidins, flavonoids (kaempferol, quercetin glycosides), and monoterpene alcohols, all contributing to the total phytochemical activity. Bioavailability data for isolated salidroside in humans is currently limited in published literature; preclinical pharmacokinetic studies suggest intestinal absorption followed by hepatic phase II conjugation, with tyrosol as an active metabolite, but oral bioavailability figures and Cmax values have not been fully established in peer-reviewed human pharmacokinetic studies. ## Dosage & Preparation - **Standardized Rhodiola rosea Extract (most common)**: 200–600 mg extract daily, standardized to 0.8–1% salidroside and 3% rosavins, providing approximately 2–6 mg salidroside per 200 mg extract dose; taken in the morning or before exercise on an empty stomach. - **High-Salidroside Extract (e.g., Rhodiola crenulata-based)**: Extracts standardized specifically to 3–5% salidroside are commercially available, providing higher per-capsule salidroside yield; typical dose 100–300 mg extract daily. - **Pure/Isolated Salidroside (biotechnological or fermented)**: 20–60 mg pure salidroside daily; 60 mg for 16 days was used in a documented clinical protocol; proprietary forms such as Landkind® deliver 20 mg pure salidroside equivalent to approximately 2,000 mg of standard extract. - **Traditional Root Preparation**: Dried Rhodiola rosea root decocted in water (3–6 g root per serving) or prepared as a tincture (1:1 or 1:5 ethanol extract); Russian Pharmacopeia specifies ≥0.8% salidroside in raw root material. - **Timing Note**: Rhodiola and salidroside-containing preparations are generally recommended in the morning or early afternoon due to mild stimulant-like [adaptogen](/ingredients/condition/stress)ic activity; evening dosing may interfere with [sleep onset](/ingredients/condition/sleep) in sensitive individuals. - **Standardization Note**: The 3:1 ratio of rosavins to salidroside mirrors the natural phytochemical profile of authentic R. rosea root and is the benchmark for quality extracts. ## Safety & Drug Interactions Salidroside and Rhodiola rosea extracts standardized to contain it are generally well tolerated at recommended doses of 20–600 mg extract (providing up to 6 mg salidroside), with the most commonly reported side effects including mild dizziness, dry mouth, and agitation, predominantly at higher doses or in stimulant-sensitive individuals; these effects are typically transient and resolve upon dose reduction. Rhodiola-derived salidroside may potentiate the effects of monoamine-modulating drugs including antidepressants (SSRIs, MAOIs, SNRIs) due to its monoamine [neurotransmitter](/ingredients/condition/cognitive)-modulating properties, and concurrent use warrants clinical caution; interactions with anticoagulants (warfarin, heparin) and hypoglycemic agents have been theorized based on in vitro data but are not firmly established in clinical pharmacokinetic studies. Salidroside is contraindicated in individuals with known hypersensitivity to Rhodiola species, and use during pregnancy and lactation is not recommended due to insufficient safety data, with some traditional sources cautioning against use in bipolar disorder due to potential mood-activating effects. No formally established maximum tolerated dose (MTD) for isolated salidroside in humans exists in the published literature; pharmacopeial standards governing salidroside levels in raw material (≥0.50% per Chinese Pharmacopoeia; ≥0.8% per Russian Pharmacopeia) relate to quality assurance rather than toxicological upper limits. ## Scientific Research The body of research on salidroside encompasses over 720 published articles including 22 reviews, though the preponderance of evidence derives from in vitro cell culture studies and animal models rather than large-scale randomized controlled trials in humans. Clinical evidence is limited; a notable human study used 60 mg of salidroside daily for 16 days, suggesting antifatigue and performance benefits, but published reports have not consistently disclosed full sample sizes, blinding procedures, or effect size statistics at the level required for high-confidence clinical translation. Rhodiola rosea extracts standardized to approximately 1% salidroside alongside 3% rosavins have been evaluated in small RCTs (typically 30–80 participants) for outcomes including [cognitive](/ingredients/condition/cognitive) fatigue, burnout, exercise capacity, and mood, with modest positive findings but significant heterogeneity in extract composition, dose, and outcome measures. The evidence base is promising but currently classified as preliminary-to-moderate for most indications, with salidroside's isolated contribution—separate from co-occurring rosavins, tyrosol, and flavonoids—remaining incompletely characterized in clinical settings. ## Historical & Cultural Context Rhodiola rosea, the primary botanical source of salidroside, has been used for centuries in Siberian, Scandinavian, and Tibetan traditional medicine as a tonic to combat fatigue, enhance [physical endurance](/ingredients/condition/energy), and improve resilience to harsh climates and physical labor. In Russia, it has been documented since the 17th century as 'golden root,' with Siberian peoples reportedly giving it to newlyweds to enhance fertility and to explorers and soldiers to sustain performance in extreme cold; it was formally included in the Russian Pharmacopeia in 1989, with salidroside content specified at ≥0.8% as a quality marker. Scandinavian Vikings are historically associated with use of Rhodiola to enhance stamina and mental fortitude during raids and voyages, though the direct attribution to salidroside specifically is a modern pharmacognostic refinement of broader ethnobotanical use. Soviet-era research from the 1960s–1980s, sponsored by the state to identify performance-enhancing botanicals for cosmonauts, athletes, and military personnel, played a foundational role in scientifically characterizing Rhodiola's active constituents including salidroside and rosavins. ## Synergistic Combinations Salidroside demonstrates complementary synergy with the co-occurring rosavins (rosavin, rosarin, rosin) found in Rhodiola rosea extracts, as the two compound classes appear to act on overlapping but distinct neurochemical and [antioxidant](/ingredients/condition/antioxidant) pathways, which is why standardized extracts maintaining the natural 3:1 rosavin-to-salidroside ratio are considered more therapeutically complete than either fraction alone. In [adaptogen](/ingredients/condition/stress)ic stacking protocols, salidroside-containing Rhodiola extracts are frequently combined with Eleuthero (Eleutherococcus senticosus) or Ashwagandha (Withania somnifera) to achieve broader HPA axis modulation and cortisol normalization through complementary mechanisms—Ashwagandha's withanolides targeting cortisol biosynthesis while salidroside modulates peripheral stress-response signaling. Salidroside may also synergize with Coenzyme Q10 and L-carnitine in mitochondrial support formulas, as AMPK activation by salidroside promotes [mitochondrial biogenesis](/ingredients/condition/energy) while CoQ10 and carnitine optimize electron transport chain efficiency and fatty acid substrate delivery. ## Frequently Asked Questions ### What is salidroside and what does it do? Salidroside is a phenylpropanoid glycoside compound (molecular weight 300.30 g/mol) found primarily in the roots of Rhodiola species, particularly Rhodiola rosea, where it occurs at concentrations of 0.5–1% in standardized extracts. It exerts antifatigue, neuroprotective, antioxidant, and adaptogenic effects by activating AMPK and Nrf2/HO-1 molecular pathways, modulating monoamine neurotransmitter levels, and suppressing inflammatory NF-κB signaling. ### What is the recommended dosage of salidroside? For isolated salidroside, clinical protocols have used 20–60 mg daily, with a 60 mg daily dose over 16 days documented in a human antifatigue study; proprietary forms like Landkind® deliver 20 mg pure salidroside, described as equivalent to approximately 2,000 mg of a standard 1% salidroside Rhodiola extract. When consuming whole Rhodiola rosea extract rather than isolated salidroside, typical doses are 200–600 mg extract daily standardized to 0.8–1% salidroside and 3% rosavins, taken in the morning or before physical activity. ### Is salidroside the same as Rhodiola rosea? Salidroside is not the same as Rhodiola rosea; it is one of the primary bioactive compounds extracted from Rhodiola rosea roots, typically present at 0.5–1% concentration in standardized extracts alongside rosavins, tyrosol, and flavonoids. Rhodiola rosea is the whole-plant botanical source, while salidroside is a specific isolated molecule—the phenylpropanoid glycoside 2-(4-hydroxyphenyl)ethyl-β-D-glucopyranoside—that is considered a key quality marker and contributor to the plant's adaptogenic and neuroprotective effects. ### What are the side effects of salidroside supplements? Salidroside and Rhodiola rosea extracts containing it are generally well tolerated; the most commonly reported side effects include mild dizziness, dry mouth, and agitation or sleep disturbance, particularly at higher doses or in individuals sensitive to stimulant-like compounds. Use is not recommended during pregnancy or lactation due to insufficient safety data, and caution is warranted in individuals taking antidepressants (especially MAOIs or SSRIs) due to potential monoaminergic interactions. ### How does salidroside differ from rosavins in Rhodiola extracts? Salidroside and rosavins (rosavin, rosarin, rosin) are distinct phytochemical classes found in Rhodiola rosea: salidroside is a phenylpropanoid glycoside (tyrosol + glucose) present in all Rhodiola species, while rosavins are cinnamyl alcohol glycosides considered specific to Rhodiola rosea and not universally present across the genus. High-quality Rhodiola rosea extracts are standardized to both markers—typically 1% salidroside and 3% rosavins—reflecting their natural 1:3 ratio in authentic root material, as the two compound classes are believed to contribute complementary mechanisms to the overall adaptogenic and antifatigue activity. ### Does salidroside interact with common medications like antidepressants or blood pressure drugs? Salidroside may have additive effects with serotonergic medications (SSRIs, MAOIs) due to its mood-supporting mechanisms, though clinical interactions remain understudied. Because Rhodiola extracts can have mild blood pressure-lowering properties, concurrent use with antihypertensive medications should be discussed with a healthcare provider. Always consult your doctor before combining salidroside supplements with prescription medications, especially those affecting the nervous system or cardiovascular function. ### Is salidroside safe to take during pregnancy or while breastfeeding? There is insufficient clinical safety data on salidroside use during pregnancy or lactation, and it is generally not recommended without explicit medical approval. Rhodiola rosea has traditionally been used in some cultures during pregnancy, but standardized salidroside supplementation has not been adequately studied in pregnant or nursing populations. Women who are pregnant or breastfeeding should consult with their healthcare provider before taking salidroside-containing supplements. ### What does clinical research show about salidroside's effectiveness for mental fatigue and stress compared to whole Rhodiola extracts? Salidroside is one of several bioactive compounds in Rhodiola extracts; some research suggests it contributes significantly to antifatigue effects through AMPK activation and mitochondrial support, though whole-extract studies often show greater effects than isolated salidroside alone. Standardized Rhodiola extracts containing balanced ratios of salidroside and rosavins have demonstrated more consistent benefits in clinical trials for mental and physical fatigue than isolated salidroside. The synergistic effect of multiple Rhodiola constituents may explain why whole extracts often outperform single-compound formulations in fatigue and stress research. --- *Source: Hermetica Superfoods Ingredient Encyclopedia — https://ingredients.hermeticasuperfoods.com* *License: CC BY-NC-SA 4.0 — Attribution required. Commercial use: admin@hermeticasuperfoods.com*