# Mahanimbine (Murraya koenigii) **Canonical URL:** https://ingredients.hermeticasuperfoods.com/ingredients/mahanimbine-murraya-koenigii **Data Source:** Hermetica Superfoods Ingredient Encyclopedia **Updated:** 2026-04-02 **Evidence Score:** 1 / 10 **Category:** Compound **Also Known As:** Mahanimbine alkaloid, Murraya koenigii leaf alkaloid, Curry leaf carbazole alkaloid, Mahanimbine (from Murraya koenigii), EIMS m/z 331 [M]+ alkaloid, C23H25NO ## Overview Mahanimbine is a carbazole alkaloid (molecular formula C23H25NO, [α]D25 = +30.0° in CHCl3) that induces mitochondria-mediated apoptosis by disrupting [mitochondrial](/ingredients/condition/energy) membrane potential, generating [reactive oxygen species](/ingredients/condition/antioxidant), activating caspase-3/7 and -9, and suppressing matrix metalloproteinases MMP-2 and MMP-9. In MCF-7 breast cancer cells, it demonstrates cytotoxicity at an IC50 of 14 µM with a statistically significant 3-fold upregulation of Bax and 1.5-fold downregulation of Bcl-2 at 48 hours (p ≤ 0.05), alongside cytotoxicity values as low as 1.98 µg/mL in HeLa cells in vitro. ## Health Benefits - **Anticancer Activity (Breast Cancer)**: Mahanimbine induces apoptosis in MCF-7 breast cancer cells at an IC50 of 14 µM through the intrinsic [mitochondrial](/ingredients/condition/energy) pathway, activating caspase-3/7 and -9 while upregulating pro-apoptotic Bax 3-fold and downregulating Bcl-2 1.5-fold within 48 hours. - **Anti-Invasive Effects**: At sub-cytotoxic concentrations of 10 µM, mahanimbine suppresses the mRNA and protein expression of matrix metalloproteinases MMP-2 and MMP-9, reducing the invasive potential of MCF-7 cells without inducing overt cell death. - **Antimicrobial Activity via Topoisomerase Inhibition**: Mahanimbine inhibits bacterial topoisomerase I and II, disrupting DNA replication and repair, with minimum inhibitory concentrations (MIC) ranging from 12.5 to 175.0 mg/mL and a minimum bactericidal concentration (MBC) of 250 µg/mL against Streptococcus pneumoniae. - **Antioxidant Activity**: The compound exhibits free-radical scavenging capacity with an IC50 of approximately 33.1 µg/mL in standardized antioxidant assays, attributable to its electron-rich carbazole ring system enabling hydrogen atom or electron donation to neutralize [reactive oxygen species](/ingredients/condition/antioxidant). - **[Immunomodulatory](/ingredients/condition/immune-support) Effects**: Mahanimbine has been reported to increase the phagocytic index in preclinical models, suggesting enhancement of innate immune cell function, potentially through modulation of macrophage activation pathways relevant to host defense. - **Metabolic and Anti-Obesity Effects**: Oral administration of 2–4 mg/kg daily for 12 weeks in murine high-fat diet models prevented weight gain and metabolic dysregulation, with proposed involvement of MAPK/ERK signaling pathways that regulate lipid [metabolism](/ingredients/condition/weight-management) and adipogenesis. - **Anti-Nociceptive (Analgesic) Properties**: Preclinical evidence indicates mahanimbine produces anti-nociceptive effects consistent with inhibition of [prostaglandin](/ingredients/condition/inflammation) biosynthesis, as structurally related carbazole alkaloids from the same source inhibit hPGHS-1 and hPGHS-2 (cyclooxygenase enzymes) with IC50 values in the range of 109–218 µg/mL. ## Mechanism of Action Mahanimbine's primary anticancer mechanism involves activation of the intrinsic [mitochondrial](/ingredients/condition/energy) apoptosis pathway: it disrupts mitochondrial membrane potential (ΔΨm), triggers accumulation of [reactive oxygen species](/ingredients/condition/antioxidant) (ROS), and shifts the Bax/Bcl-2 ratio decisively toward apoptosis, culminating in downstream activation of caspase-9 and effector caspases-3/7, while the absence of caspase-8 activation confirms the pathway is intrinsic rather than death-receptor-mediated. At the genomic and proteomic level, mahanimbine inhibits topoisomerase I and II, enzymes essential for relieving torsional stress during DNA replication, thereby inducing replication fork collapse and double-strand breaks that trigger apoptotic cascades in rapidly proliferating cells. Anti-invasive activity is mediated by transcriptional and post-translational suppression of MMP-2 and MMP-9, extracellular matrix-degrading proteases whose downregulation limits tumor cell migration and basement membrane penetration. Additional molecular targets include MAPK/ERK signaling nodes implicated in cell proliferation and lipid [metabolism](/ingredients/condition/weight-management), as well as cyclooxygenase enzymes (hPGHS-1/2) relevant to [prostaglandin](/ingredients/condition/inflammation)-mediated inflammation and pain signaling. ## Clinical Summary No human clinical trials evaluating mahanimbine have been identified in the available scientific literature; all clinical-relevance data are extrapolated from in vitro and murine preclinical experiments. The most robust in vitro outcomes include sub-5 µg/mL IC50 cytotoxicity across three cancer cell lines (MCF-7, HeLa, P388) and statistically significant modulation of apoptotic markers (Bax, Bcl-2, caspase-3/7, -9) at 14 µM in MCF-7 cells, though in vitro potency does not reliably predict human therapeutic efficacy or safe dosing windows. Murine metabolic studies at 2–4 mg/kg/day suggest in vivo bioactivity, but the absence of reported sample sizes, confidence intervals, and comparative controls limits interpretation. Confidence in clinical translation is low; rigorous pharmacokinetic characterization, safety profiling, and eventually randomized controlled trials are prerequisites before mahanimbine can be considered for therapeutic applications. ## Nutritional Profile Mahanimbine is a pure alkaloid compound (C23H25NO, MW 331.45 g/mol) and does not possess a conventional nutritional profile in terms of macronutrients or micronutrients; it is not consumed as an isolated nutrient but is ingested incidentally as part of Murraya koenigii leaves. As a carbazole alkaloid, it is lipophilic, which is consistent with membrane permeability and probable passive diffusion-based intestinal absorption, though formal bioavailability studies have not been conducted. The parent plant M. koenigii leaves contain vitamins A, B, C, and E, minerals including calcium, iron, and phosphorus, dietary fiber, and a range of phytochemicals including flavonoids, terpenes, and multiple carbazole alkaloids (mahanine, mahanimbicine, girinimbine) alongside mahanimbine, which synergistically contribute to the observed biological activities of whole-leaf preparations. The optical activity ([α]D25 = +30.0° in CHCl3) indicates a chiral center relevant to stereospecific receptor or enzyme binding interactions. ## Dosage & Preparation - **Research-Grade Isolated Compound**: Used exclusively in preclinical laboratory settings; typically dissolved in DMSO for in vitro assays at concentrations of 1–20 µM; no commercial supplement formulation exists. - **Preclinical Oral Dose (Animal)**: 2–4 mg/kg body weight daily administered orally in murine models for 12 weeks to assess metabolic effects; human equivalent dose not established and cannot be directly extrapolated without allometric and pharmacokinetic data. - **Source Plant (Whole Leaf, Traditional)**: Murraya koenigii leaves consumed fresh or dried in culinary preparations (curries, chutneys); mahanimbine content in whole leaves is not standardized, and bioavailability from dietary consumption has not been quantified. - **Crude Extract**: Ethanol or methanol leaf extracts used in [antimicrobial](/ingredients/condition/immune-support) assays; [antioxidant activity](/ingredients/condition/antioxidant) observed at 33.1 µg/mL in extract-based assays; no standardized extract product is commercially available. - **Standardization**: No standardized mahanimbine supplement exists; no established human dosage, standardization percentage, or therapeutic dosage range has been validated in clinical studies. - **Timing**: Not applicable for human supplementation; traditional culinary use involves daily consumption of fresh curry leaves with meals. ## Safety & Drug Interactions Formal human safety data for isolated mahanimbine do not exist; no clinical toxicology studies, adverse event reports, maximum tolerated dose findings, or pharmacovigilance data are available, and all safety inferences derive from in vitro and limited murine experiments. In vitro studies indicate selective cytotoxicity toward cancer cell lines at concentrations below 5 µg/mL without documented toxicity to normal cells at equivalent doses, but the relevance of in vitro selectivity to in vivo systemic safety is unknown and should not be assumed. The high [antimicrobial](/ingredients/condition/immune-support) MIC and MBC values (up to 250–500 µg/mL) suggest relatively low antibacterial potency at physiologically relevant concentrations, reducing concern for dysbiosis at typical dietary exposures from whole curry leaves, though isolated supplemental doses introduce uncertainty. No drug interaction data, contraindications, pregnancy or lactation safety guidance, or maximum safe human doses have been established; caution is warranted, and mahanimbine as an isolated compound should not be self-administered outside of supervised clinical research until adequate safety profiling is completed. ## Scientific Research The current body of evidence for mahanimbine consists entirely of in vitro cell culture studies and preclinical animal experiments; no human clinical trials have been conducted or registered as of available data, placing its evidence base firmly in the early preclinical phase. Key in vitro findings include dose-dependent cytotoxicity with IC50 values of 2.12 µg/mL (MCF-7), 5.00 µg/mL (P388 murine leukemia), and 1.98 µg/mL (HeLa cervical cancer) cells, as well as mechanistically characterized apoptosis induction studies in MCF-7 cells reporting statistically significant (p ≤ 0.05) Bax/Bcl-2 alterations and caspase activation at 14 µM. Preclinical in vivo data are limited to a murine model of high-fat diet-induced metabolic dysregulation at 2–4 mg/kg oral doses over 12 weeks, with details on sample sizes, variance, and full effect sizes not thoroughly reported in available literature. The absence of pharmacokinetic, bioavailability, toxicokinetic, or Phase I safety data in humans represents a critical gap, and all reported bioactivities require independent replication, formulation optimization, and translational studies before any clinical claims can be substantiated. ## Historical & Cultural Context Murraya koenigii, the botanical source of mahanimbine, has been integral to Ayurvedic medicine and traditional healing systems across India and Southeast Asia for over two millennia, where the leaves are referenced in ancient texts for their digestive, anti-diabetic, anti-obesity, anxiolytic, and [anti-aging](/ingredients/condition/longevity) properties. In Indian folk medicine, curry leaf preparations were applied as poultices for skin eruptions and consumed as decoctions for gastrointestinal complaints, while in Sri Lanka and Southeast Asian traditions the leaves feature in postpartum care and as general tonics. Mahanimbine itself was not historically known as an isolated chemical entity; its bioactivity was embedded in the whole-leaf pharmacopoeia of Ayurveda and Siddha medicine, where the leaf's bitter, aromatic qualities were interpreted through humoral frameworks as purifying and strengthening. Modern phytochemical investigations beginning in the latter half of the 20th century isolated mahanimbine and its structural congeners, providing molecular validation for at least some of the traditional therapeutic claims ascribed to curry leaf. ## Synergistic Combinations Mahanimbine co-occurs in Murraya koenigii leaves with structurally related carbazole alkaloids including mahanine and mahanimbicine, and whole-leaf extracts may exhibit additive or synergistic cytotoxic and [antioxidant](/ingredients/condition/antioxidant) effects due to complementary mechanisms across this alkaloid family, though formal combination index analyses have not been reported. Preclinical anti-obesity data suggest mahanimbine acts on MAPK/ERK and metabolic pathways, raising the hypothesis that combination with other AMPK-activating or lipid-lowering phytochemicals such as berberine or curcumin could produce additive metabolic benefits, though this remains entirely speculative without supporting experimental data. As a topoisomerase inhibitor, mahanimbine could theoretically synergize with other DNA-damaging agents in oncology research contexts, but such combinations require careful cytotoxicity profiling to differentiate synergy from additive toxicity. ## Frequently Asked Questions ### What is mahanimbine and where does it come from? Mahanimbine is a carbazole alkaloid (C23H25NO, MW 331.45 g/mol) isolated from the leaves of Murraya koenigii, commonly known as the curry leaf tree, native to India and Southeast Asia. It is the dominant alkaloid among a group of structurally related carbazole compounds in M. koenigii leaves, including mahanine and mahanimbicine, and is extracted using organic solvents with identity confirmed by NMR spectroscopy and mass spectrometry. It is not currently available as a commercial dietary supplement and exists primarily as a research chemical isolated for laboratory investigations. ### Does mahanimbine have anticancer properties? Preclinical in vitro studies demonstrate that mahanimbine exhibits potent cytotoxicity against multiple cancer cell lines, including IC50 values of 2.12 µg/mL in MCF-7 breast cancer cells, 1.98 µg/mL in HeLa cervical cancer cells, and 5.00 µg/mL in P388 murine leukemia cells. It induces apoptosis in MCF-7 cells at 14 µM by activating the intrinsic mitochondrial pathway, characterized by a 3-fold increase in Bax expression, 1.5-fold decrease in Bcl-2, and activation of caspase-3/7 and -9 (p ≤ 0.05 at 48 hours). However, no human clinical trials have been conducted, and in vitro cytotoxicity data cannot be used to conclude therapeutic efficacy in cancer patients. ### What is the mechanism of action of mahanimbine? Mahanimbine acts through multiple molecular mechanisms: it disrupts mitochondrial membrane potential and generates reactive oxygen species to activate the intrinsic caspase-9/3/7 apoptotic cascade, inhibits topoisomerase I and II to impair DNA replication in proliferating cells, and suppresses MMP-2 and MMP-9 expression at sub-cytotoxic doses to reduce cancer cell invasiveness. It also modulates MAPK/ERK signaling pathways involved in cell proliferation and lipid metabolism, and shares with related carbazole alkaloids the ability to inhibit cyclooxygenase enzymes hPGHS-1 and hPGHS-2, contributing to anti-inflammatory and anti-nociceptive effects. These mechanisms collectively position mahanimbine as a pleiotropic bioactive compound, though all mechanistic data come from in vitro or murine models. ### Is mahanimbine safe to take as a supplement? Mahanimbine is not established as safe for human supplementation; no human clinical trials, toxicology studies, or pharmacokinetic assessments have been completed for isolated mahanimbine in any form. Safety data are limited to in vitro observations of selective cytotoxicity toward cancer cells over normal cells and the general safety profile of whole Murraya koenigii leaves consumed as food in traditional Asian diets for centuries. Anyone considering mahanimbine outside of a supervised research context should be aware that no established safe dose, drug interaction profile, or contraindication guidance exists for the isolated compound. ### What dose of mahanimbine is effective? No established human dose exists for mahanimbine; the only in vivo dosing data come from murine experiments using 2–4 mg/kg body weight per day administered orally for 12 weeks to assess effects on high-fat diet-induced metabolic changes. In vitro anticancer effects are observed at 10–14 µM concentrations, and antioxidant activity is measurable at approximately 33.1 µg/mL in cell-free assays, but these concentrations cannot be directly translated into human supplemental doses without pharmacokinetic and bioavailability data. Until human clinical trials define safe and effective doses, mahanimbine cannot be responsibly recommended at any specific supplemental dose. ### Does mahanimbine interact with chemotherapy or cancer medications? Mahanimbine activates pro-apoptotic pathways similar to some chemotherapy agents, which raises the theoretical possibility of additive or synergistic effects with certain cancer drugs. However, clinical interaction studies between mahanimbine and standard chemotherapy have not been conducted, making it essential to consult an oncologist before combining mahanimbine supplements with any prescribed cancer treatment. Until safety data is available, mahanimbine should not be taken alongside chemotherapy without medical supervision. ### Can I get mahanimbine from eating curry leaves instead of taking a supplement? Mahanimbine is naturally present in curry leaves (Murraya koenigii), the plant source of this compound, making dietary consumption theoretically possible. However, the concentration of mahanimbine in whole curry leaves has not been systematically quantified, and the bioavailability of mahanimbine from fresh or dried leaves versus isolated supplement forms is unknown. To achieve the concentrations used in research studies (10–14 µM), a supplement providing standardized mahanimbine content would be more reliable than whole curry leaves. ### Is mahanimbine more effective for breast cancer than other plant alkaloids? Mahanimbine demonstrates apoptosis induction in breast cancer cells at an IC50 of 14 µM with specific activation of caspase-dependent pathways, but direct head-to-head efficacy comparisons with other plant-derived alkaloids have not been published in peer-reviewed literature. Without comparative clinical trials, it is not possible to definitively rank mahanimbine against other anticancer compounds from herbal sources. Research remains limited to cell-based studies, and clinical efficacy in humans has not been established. --- *Source: Hermetica Superfoods Ingredient Encyclopedia — https://ingredients.hermeticasuperfoods.com* *License: CC BY-NC-SA 4.0 — Attribution required. Commercial use: admin@hermeticasuperfoods.com*