Alkaloid Berberine Research Articles

Portable alkaloid discrimination via nanozyme-mediated colorimetric paper-based sensor array integrated with smartphone detection.

Apaper-based colorimetric sensor array mediated by a novel nanozyme (CuCo2O4) was developed using a screen-printing technology. The aim was to facilitate the identification of different kinds of alkaloids. Typically, three chromogenic substrates (3,3',5,5'-tetramethylbenzidine, 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid), and o-phenylenediamine) were selected as sensing elements, which can be catalyzed by a CuCo2O4 nanozyme with peroxidase-like activity to yield corresponding oxidized products, thereby inducing color changes. Owing to the varying inhibitory ability of different alkaloids on acetylcholinesterase (AChE), a decrease in choline (Ch) concentration occurs and subsequently results in the restoration of color within the units of sensor array. Color data can be transformed into hue information with a smartphone. The above color variations generated a unique "fingerprint" pattern on five alkaloids (berberine, palmatine, jatrorrhizine, eserine, and harmane), which can be successfully discriminated through linear discriminant analysis in the range0.2 to 20µM. Furthermore, the sensor arrays allowed successful discrimination of the above five alkaloids in Chinese herbal medicine samples and recognition of 22 blind samples. This work presents a novel nanozyme-based paper sensor array, which is a user-friendly and reliable platform for probing different alkaloids. In addition, the developed sensing strategy enables the identification of AChE-related diseases, positively contributing to the screening available of AD-associated drugs.

Role of the P2X7 receptor in breast cancer progression.

Breast cancer is a common malignant tumor, whose incidence is increasing year by year, and it has become the malignant tumor with the highest incidence rate in women. Purine ligand-gated ion channel 7 receptor (P2X7R) is a cation channel receptor with Adenosine triphosphate ( ATP) as a ligand, which is widely distributed in cells and tissues, and is closely related to tumorigenesis and progression. P2X7R plays an important role in cancer by interacting with ATP. Studies have shown that P2X7R is up-regulated in breast cancer and can promote tumor invasion and metastasis by activating the protein kinase B (AKT) signaling pathway, promoting epithelial-mesenchymal transition (EMT), controlling the generation of extracellular vesicle (EV), and regulating the expression of the inflammatory protein cyclooxygenase 2 (COX-2). Furthermore, P2X7R was proven to play an essential role in the proliferation and apoptosis of breast cancer cells. Recently, inhibitors targeting P2X7R have been found to inhibit the progression of breast cancer. Natural P2X7R antagonists, such as rhodopsin, and the isoquinoline alkaloid berberine, have also been shown to be effective in inhibiting breast cancer progression. In this article, we review the research progress of P2X7R and breast cancer intending to provide new targets and directions for breast cancer treatment.

Systematic Review of Chemical Compounds with Immunomodulatory Action Isolated from African Medicinal Plants.

A robust, well-functioning immune system is the cornerstone of good health. Various factors may influence the immune system's effectiveness, potentially leading to immune system failure. This review aims to provide an overview of the structure and action of immunomodulators isolated from African medicinal plants. The research was conducted according to PRISMA guidelines. Full-text access research articles published in English up to December 2023, including plant characteristics, isolated phytochemicals, and immuno-modulatory activities, were screened. The chemical structures of the isolated compounds were generated using ChemDraw® (version 12.0.1076), and convergent and distinctive signaling pathways were highlighted. These phytochemicals with demonstrated immunostimulatory activity include alkaloids (berberine, piperine, magnoflorine), polysaccharides (pectin, glucan, acemannan, CALB-4, GMP90-1), glycosides (syringin, cordifolioside, tinocordiside, aucubin), phenolic compounds (ferulic acid, vanillic acid, eupalitin), flavonoids (curcumin, centaurein, kaempferin, luteolin, guajaverin, etc.), terpenoids (oleanolic acid, ursolic acid, betulinic acid, boswellic acids, corosolic acid, nimbidin, andrographolides). These discussed compounds exert their effects through various mechanisms, targeting the modulation of MAPKs, PI3K-Akt, and NF-kB. These mechanisms can support the traditional use of medicinal plants to treat immune-related diseases. The outcomes of this overview are to provoke structural action optimization, to orient research on particular natural chemicals for managing inflammatory, infectious diseases and cancers, or to boost vaccine immunogenicity.

Online preconcentration and determination of five alkaloids in Yangxinshi tablet by large-volume sample stacking and micelle to solvent stacking in cyclodextrin-modified electrokinetic chromatography.

The two-step preconcentration technique consisting of large-volume sample stacking (LVSS) and micelle to solvent stacking (MSS) in cyclodextrin-modified electrokinetic chromatography (CDEKC) was developed for the analysis of five cationic alkaloids in complex Chinese herbal prescriptions. Relevant parameters affecting separation and stacking performance were optimized separately. Under the optimal LVSS-MSS-CDEKC conditions, less analysis time and organic solvent were required, and the enhancement factors of analytes ranged from 12 to 15 compared with the normal CDEKC separation mode. Further, all validation results demonstrated good applicability and multiple alkaloids (epiberberine, dehydrocorydaline, jatrorrhizine, coptisine and berberine) in Yangxinshi tablet (YXST) have been simultaneously determined. This approach presents powerful potential for the determination of multiple components in complex preparations of Chinese medicine.

Advancing green extraction of bioactive compounds using deep eutectic solvent-based ultrasound-assisted matrix solid-phase dispersion: Application to UHPLC-PAD analysis of alkaloids and organic acids in Coptidis rhizoma

The utilization of deep eutectic solvents (DES) in sustainable extracting and separating of phytochemicals shows promising prospect. An exceptionally fast, eco-friendly, and sustainable approach was proposed for extracting bioactive compounds from Coptidis Rhizoma based on deep eutectic solvent-based ultrasound-assisted matrix solid phase dispersion (DES-UA-MSPD). Single-factor experiments and Box-Behnken design were utilized to explore the optimal extraction conditions. The analysis indicated that the acidic DES, especially betaine-acrylic acid (Bet-Aa 1:4 mol/mol) with 50% water content, was proved to be the most effective medium for the extraction of alkaloids (magnoflorine, groenlandicine, coptisine, epiberberine, berberine and palmatine) and organic acid (chlorogenic acid). With the parameters optimized, the total maximum extraction yield of alkaloids and organic acids reached 128.83 mg g−1 applying the optimal DES, which was 1.33–5.33 folds higher than conventional extraction solvents. Additionally, through microstructure analysis using scanning electron microscopy, density functional theory , and frontier molecular orbitals theory, a deeper understanding of the extraction principle was gained, and the molecular mechanism of DES synthesis and the interactions between target compounds were systematically elucidated. The sustainable and green potential of the DES-UA-MSPD method was demonstrated through Green Analytical Procedure Indexanalysis. The overall results of this investigation revealed that the proposed technology was a highly promising and sustainable alternative for effective extraction and quantification of natural products.

Abstract 7059: Remodeling of anaplastic thyroid cancer metabolic signature by natural alkaloid berberine

Abstract Anaplastic thyroid cancer (ATC) is a rare, fatal cancer with a five-year survival of 4%. Universally diagnosed at stage IV, ATC is characterized by its lack of differentiation and metabolic dysregulation. Refractory to all established therapies, we propose natural alkaloid berberine (BBR) as a therapeutic with multitarget efficacy to alter mitochondrial metabolism and reprogram ATC’s aggressive phenotype. Assays used monocyte cell line U937, ATC cell lines T238 and SW1736, and immortalized normal thyroid cell line Nthy-ori-3-1. All assays used 100µM concentration of BBR or DMSO vehicle control for 24 hours for a tumoricidal effect. Validation of in vitro findings via RNA-Seq was conducted by Genewiz from Azenta and Qiagen’s Ingenuity Pathway Analysis was used for in silico modeling. Mitochondria were isolated via differential centrifugation. Modeling the ATC tumor microenvironment, U937 cells were activated and polarized into a proinflammatory macrophage phenotype. BBR treatment at the activation/polarization stages, 33 soluble inflammatory mediators were downregulated in the conditioned media compared to controls. In targeting the aggressiveness of anaplastic thyroid disease, BBR slowed proliferation by 80% selectively in ATC cells from 48 to 72 hours, while sparing normal cells. BBR reduced migratory capacity by 30% in ATC cells after 24, 48, and 72 hours and reduced migration and invasion by 30%. These observations were substantiated by Western blot analysis - BBR selectively decreased phosphorylation of MEK, ERK, and ribosomal protein S6, crucial downstream regulators of the pro-proliferative and pro-survival pathways in ATC cells. Further, BBR specifically modulated cancer-associated metabolism as observed through an increase in AMPKα phosphorylation, a major rate-limiting protein in cancer-induced dysregulation with an anti-tumor effect. Validation of in vitro findings via RNA-Seq revealed more than 400 significantly differentially expressed genes involved in mitochondrial metabolism, glycometabolism, sirtuin signaling, apoptosis, and proliferation. Following a comprehensive analysis, we identified significant downregulation of 25 of 37 total mitochondrially encoded genes (MTs) and 13 of 13 mitochondrially encoded protein-coding genes comprising the oxidative phosphorylation complexes illuminating a clear link between BBR treatment and altered mitochondrial metabolism in ATC. Additionally, protein expression of significantly downregulated mitochondrial genes identified via RNA Seq was validated via Western blot demonstrating decreased mitochondrially-encoded protein expression related to oxidative phosphorylation. This work reveals a novel role for BBR as an inhibitor of mitochondrial metabolism that can be used to reprogram the aggressive nature of ATC and open the door for promising combination therapy in the treatment of ATC. Citation Format: Tara Jarboe, Nicole R. DeSouza, Kaci Kopec, Jan Geliebter, Xiu-Min Li, Raj K. Tiwari. Remodeling of anaplastic thyroid cancer metabolic signature by natural alkaloid berberine [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 7059.

Cationic Vitamin E-TPGS Mixed Micelles of Berberine to Neutralize Doxorubicin-Induced Cardiotoxicity via Amelioration of Mitochondrial Dysfunction and Impeding Apoptosis.

Anthracycline antibiotics, namely, doxorubicin (DOX) and daunorubicin, are among the most widely used anticancer therapies, yet are notoriously associated with severe myocardial damage due to oxidative stress and mitochondrial damage. Studies have indicated the strong pharmacological properties of Berberine (Brb) alkaloid, predominantly mediated via mitochondrial functions and nuclear networks. Despite the recent emphasis on Brb in clinical cardioprotective studies, pharmaceutical limitations hamper its clinical use. A nanoformulation for Brb was developed (mMic), incorporating a cationic lipid, oleylamine (OA), into the TPGS-mixed corona of PEGylated-phosphatidylethanolamine (PEG-PE) micelles. Cationic TPGS/PEG-PE mMic with superior Brb loading and stability markedly enhanced both intracellular and mitochondria-tropic Brb activities in cardiovascular muscle cells. Sub-lethal doses of Brb via cationic OA/TPGS mMic, as a DOX co-treatment, resulted in significant mitochondrial apoptosis suppression. In combination with an intense DOX challenge (up to ~50 µM), mitochondria-protective Brb-OA/TPGS mMic showed a significant 24 h recovery of cell viability (p ≤ 0.05-0.01). Mechanistically, the significant relative reduction in apoptotic caspase-9 and elevation of antiapoptotic Bcl-2 seem to mediate the cardioprotective role of Brb-OA/TPGS mMic against DOX. Our report aims to demonstrate the great potential of cationic OA/TPGS-mMic to selectively enhance the protective mitohormetic effect of Brb to mitigate DOX cardiotoxicity.

Synthesis of New Derivatives of Berberine Canagliflozin and Study of Their Antibacterial Activity and Mechanism.

The isoquinoline alkaloid berberine, derived from Coptidis rhizoma, exhibits antibacterial, hypoglycemic, and anti-inflammatory properties. Canagliflozin is a sodium-glucose cotransporter 2 (SGLT2) inhibitor. We synthesized compounds B9OC and B9OBU by conjugating canagliflozin and n-butane at the C9 position of berberine, aiming to develop antimicrobial agents for combating bacterial infections worldwide. We utilized clinically prevalent pathogenic bacteria, namely Staphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa, to investigate the antibacterial efficacy of B9OC. This was accomplished through the determination of the MIC80 values, analysis of bacterial growth curves, evaluation of biofilm formation using crystal violet staining, assessment of impact on bacterial proteins via SDS-PAGE analysis, and observation of alterations in bacterial morphology utilizing field emission scanning electron microscopy. Meanwhile, the ADMET of compound B9OC was predicted using a computer-aided method. The findings revealed that B9OC exhibited lower minimal inhibitory concentrations against all three bacteria compared to berberine alone or in combination with canagliflozin. The minimal inhibitory concentrations (MICs) of B9OC against the three experimental strains were determined to be 0.035, 0.258, and 0.331 mM. However, B9OBu exhibited a lower level of antimicrobial activity compared to berberine. The compound B9OC exhibits a broad spectrum of antibacterial activity by disrupting the integrity of bacterial cell walls, leading to cellular rupture and the subsequent degradation of intracellular proteins.

Isolation of Protoplasts from Tissues of Mexican Prickly Poppy (Argemone mexicana L.): An Alkaloid-Producing Medicinal Plant.

Protoplasts are plant cells from which the pectocellulosic cell wall has been removed, thus keeping the plasma membrane intact. For plant secondary metabolites research, this system is a powerful tool to study the metabolites' dynamics inside the cells, such as the subcellular localization of proteins, characterization of gene function, transcription factors involved in metabolite pathways, protein transport machinery, and to perform single-cell omics studies. Due to its lack of a cell wall, better images of the interior of the cell can be obtained compared to the whole tissue. This allows the identification of specific cell types involved in the accumulation of specialized metabolites, such as alkaloids, given their autofluorescence properties. Here is a simplified protocol to obtain protoplasts from leaves and in vitro cell cultures from Argemone mexicana, which produces the pharmacologically important alkaloids berberine and sanguinarine.

The medicinal plant Berberis aristata and its endophytes for pharmacological applications: Current research and future challenges

Exploring medicinal plants for their natural products to benefit humanity has been a practice since ancient times. Berberis aristata, also known as tree turmeric or Indian barberry, has a dominant spot in conventional medicine for 2500 plus years. In the latter years, this particular species has gained prime attention in pharmaceutical zone due to its scarcity. The plant and its formulations are used to treat numerous human health threats including cancer, diabetes, diarrhea, wound relieving, infections of eyes and ears, gynecological disorders, and HIV-AIDS. The bioactive compounds present in B. aristata are found to contain anti-inflammatory, antioxidant, and anti-microbial properties. The plant is critically jeopardized species of Indian Himalaya due to the collection of its roots at a large scale for obtaining berberine alkaloid and its conservation is of great concern. At present, isolation of endophytic entities from remedial plants revolutionized the path of discovering drugs from medicinal plants. Endophytes can produce the same bioactive as their host plant as well as another bioactive to address a variety of human health issues. The review examines the bioprospecting of B. aristata, a medicinal shrub from the family Berberidaceae, and its associated endophytes for the production of bioactive compounds with application to human health. Finally, the review provides a comprehensive outlook on the current status and future prospects of bioprospecting B. aristata and its endophytes to combat future human health threats is an exciting area of research that should be further explored.

Berberine Induces Mitophagy through Adenosine Monophosphate-Activated Protein Kinase and Ameliorates Mitochondrial Dysfunction in PINK1 Knockout Mouse Embryonic Fibroblasts.

Mitophagy stimulation has been shown to have a therapeutic effect on various neurodegenerative diseases. However, nontoxic mitophagy inducers are still very limited. In this study, we found that the natural alkaloid berberine exhibited mitophagy stimulation activity in various human cells. Berberine did not interfere with mitochondrial function, unlike the well-known mitophagy inducer carbonyl cyanide m-chlorophenyl hydrazone (CCCP), and subsequently induced mitochondrial biogenesis. Berberine treatment induced the activation of adenosine monophosphate-activated protein kinase (AMPK), and the AMPK inhibitor compound C abolished berberine-induced mitophagy, suggesting that AMPK activation is essential for berberine-induced mitophagy. Notably, berberine treatment reversed mitochondrial dysfunction in PINK1 knockout mouse embryonic fibroblasts. Our results suggest that berberine is a mitophagy-specific inducer and can be used as a therapeutic treatment for neurodegenerative diseases, including Parkinson's disease, and that natural alkaloids are potential sources of mitophagy inducers.

Fortification of Emulsions Stabilized by an Authentic Bioactive Complex into a Complex Heterogeneous Food Matrix

The issues of proper nutrition safety and life quality improvement cover all segments of the food industry. The product development of a new format with added utility can solve the issues. The article aim is to develop and study the applicability of authentic bioactive complexes to stabilize and ensure the bioactive properties of a Pickering emulsion used for subsequent fortification into a food heterogeneous matrix. When producing stabilized Pickering emulsions, a man run the research of the spatial and molecular level of the fortifier bond formation with the feedstock components. The combined sample of bioactive substances included: brown algae polysaccharides (fucoidan and Alg-Na); sonochemically modified starch containing 50.8 % of the RS2 prebiotic; extracted phenolic substances of T. cordifolia extract (berberine alkaloid); zinc oxide ZnO as an antimicrobial component. An effective tool to minimize the factors limiting the fine-dispersed distribution, provided the properties preservation, is physical exposure based on the cavitation effects of low-frequency ultrasound. A man revealed the high stability of the systems (99.9 %) while adding 1.5 % micronized zinc oxide, at the viscosity of 342 MPa·sec and AOA of 92.9 % of the DPPH. During the production of stabilized Pickering emulsions using sonochemical ultrasound exposure, the dispersion of ZnO and the AOA of the berberine alkaloid has changed. When using T. cordifolia extract and zinc oxide as a part of two-component compositions for starch-based Pickering emulsions stabilization, there was an increase in the AOA values and the stability preservation of the obtained emulsions. The advantage of the sonochemically modified starch introduction for the Pickering emulsion stabilization is that during the modification process the amylose proportion in native starch increases, which is stable in the digestion processes in the thin part of the gastrointestinal tract and is fermented only in the thick section. The functional and technological properties of RS2, particularly, its emulsifying ability, provide the high stability of Pickering emulsions stabilized with starch composition (50.8 % RS2) and T. cordifolia (0.2 %).

Dual Role of Vitamin C-Encapsulated Liposomal Berberine in Effective Colon Anticancer Immunotherapy.

The aim of the study was to achieve effective colon anticancer immunotherapy using the alkaloid berberine. In the presented paper we attempt to develop a formulation of berberine loaded into liposomal carriers using the vitamin C gradient method, characterized by efficient drug encapsulation, high stability during long-term storage, low drug release in human plasma with specific cytotoxicity towards colon cancer cells. Liposomal berberine was responsible for the induction of oxidative stress, the presence of Ca2+ ions in the cytosol, the reduction of Δψm, and ATP depletion with a simultaneous lack of caspase activity. Moreover, treatment with liposomal berberine led to CRT exposure on the surface of cancer cells, extracellular ATP, and HMGB1 release. The above-described mechanism of action was most likely associated with ICD induction, contributing to the increased number of phagocytic cancer cells. We have shown that cancer cells treated with liposomal berberine were phagocytosed more frequently by macrophages compared to the untreated cancer cells. What is more, we have shown that macrophage pre-treatment with liposomal berberine led to a 3-fold change in the number of phagocytosed SW620 cancer cells. The obtained results provide new insights into the role of berberine in maintaining the immune response against colorectal cancer.

Molecular and cellular aspects of the impact of secondary metabolites from common barberry and hybrid goat’s rue on the HeLa cell line

Purpose of the study. To isolate and verify pure fractions of secondary plant metabolites contained in B. vulgaris (L.) and P. hibridus (L.), as well as to conduct a model experiment and molecular genetic study to evaluate their cytotoxic effect in vitro on the HeLa cell line.Materials and methods. The isolation and verification of all compounds used in the experiment were carried out using column chromatography and nuclear magnetic resonance methods at the Department of Natural Compounds, Faculty of Chemistry, Southern Federal University. Subsequently, an experiment was conducted using cultural and molecular methods on the HeLa cell line in three repetitions for each test compound; after incubation with them, the numbers of dead cells were counted on the automated NanoEnTek JuliFl counter, and the numbers of cells in apoptosis were measured by flow cytometry on the BD analyzer FACS Canto II. The level of copy number variation and expression of genes responsible for apoptosis were assessed by real-time PCR (RT-PCR). In total, three substances were studied, with two concentrations (4 and 12 μg/ml) and two exposures (24 and 72 hours) for each of them.Results. In the first stage of the study, we isolated and verified the berberine alkaloid extracted from the roots of B. vulgaris (L.), as well as 2,4-dihydroxy-2,5-dimethylfuran-3(2H)-one and 2,2,8-trimethyldecahydroazulene-5,6-dicarbaldehyde from P. hibridus (L.). The subsequent stage of the study demonstrated the maximal cellular death under the action of berberine at a 72-hour exposure. However, the RT-PCR assessment of the copy number variation and expression of the CASP8, CASP9, CASP3, BAX, BCL2, TP53 and MDM2 genes revealed the presence of apoptosis initiation in tumor cells at the molecular level under the action of all the studied compounds: both berberine and furan and azulene derivatives derived from P. hibridus (L.).Conclusion. All compounds used in the experiment exhibited a cytotoxic effect on the HeLa cell line. Berberine alkaloid showed the most pronounced cytotoxic effect on the HeLa line as recorded by all methods used in the study. Terpenoids 4-dihydroxy-2,5-dimethylfuran-3(2H)-one and 2,2,8-trimethyldecahydroazulene-5,6-dicarbaldehyde, when exposed to the HeLa line, caused an increase in the copy number variation and expression of the CASP9, CASP3 loci, which are among the main activators of apoptosis. They also influenced the expression of TP53 and MDM2 loci.

Comparison of Sonodynamic Treatment Set-Ups for Cancer Cells with Organic Sonosensitizers and Nanosonosensitizers.

Cancer sonodynamic therapy (SDT) is the therapeutic strategy of a high-frequency ultrasound (US) combined with a special sonosensitizer that becomes cytotoxic upon US exposure. The growing number of newly discovered sonosensitizers and custom US in vitro treatment solutions push the SDT field into a need for systemic studies and reproducible in vitro experimental set-ups. In the current research, we aimed to compare two of the most used and suitable SDT in vitro set-ups-"sealed well" and "transducer in well"-in one systematic study. We assessed US pressure, intensity, and temperature distribution in wells under US irradiation. Treatment efficacy was evaluated for both set-ups towards cancer cell lines of different origins, treated with two promising sonosensitizer candidates-carbon nanoparticle C60 fullerene (C60) and herbal alkaloid berberine. C60 was found to exhibit higher sonotoxicity toward cancer cells than berberine. The higher efficacy of sonodynamic treatment with a "transducer in well" set-up than a "sealed well" set-up underlined its promising application for SDT in vitro studies. The "transducer in well" set-up is recommended for in vitro US treatment investigations based on its US-field homogeneity and pronounced cellular effects. Moreover, SDT with C60 and berberine could be exploited as a promising combinative approach for cancer treatment.

Annickia affinis (Exell) Versteegh & Sosef methanol stem bark extract, potent fractions and isolated Berberine alkaloid target both blood and liver stages of malaria parasites

Ethnopharmacological relevanceHaving identified Annickia affinis as the most potent antiplasmodial plant constituent in a hepta-herbal Agbo-iba (HHA) formula commonly used to manage malaria in Benin city, Nigeria, we have in this study attempted to identify the specialized metabolites responsible for antiplasmodial activity of A. affinis through anti-blood stage malaria parasite activity guided isolation of potent molecules from its stem bark methanol extract. After that, phenotypic effects, including stage-specific kill kinetics, were investigated. Further, the crude extract, its potent fractions, and specialized metabolites were also tested against the liver-stage malaria parasite. Materials and methodsA. affinis was subjected to molecular PCR-based analysis to confirm its identity. Thereafter, extraction of its stem bark with methanol was carried out. Alkaloid enriched fractions from this stem bark extract were obtained using the acid-base-solvent extraction method. These alkaloid-enriched fractions were subjected to various chromatographic techniques that led to the isolation of two protoberberine alkaloids identified as berberine and palmatine based on NMR and mass spectrometry analysis. The efficacy of crude extract, fractions and purified alkaloids was tested against the malaria parasite's blood and liver stages, respectively. Results and DiscussionAnnickia affinis methanol extract, fractions, and the isolated protoberberine alkaloids showed excellent antiplasmodial activity with good selectivity against blood-stage malaria parasite. Thus, their IC50 against various strains of the parasite ranged from 0.95 to 18.65 μg/ml, while CC50 against Human embryonic kidney (HEK) and the human hepatoma (HUH-7) cell lines ranged between 10 and > 100 μg/ml. Interestingly, the crude extract and the alkaloid enriched fractions showed promising activity against the liver-stage malaria parasite. Between berberine and palmatine isolated from the potent fractions, only the former showed ∼100% and 90% inhibitions of liver stage parasite at 5 μg/ml and 1 μg/ml, respectively, while the latter showed no inhibition even at 20 μg/ml. ConclusionThis study reports that the ethnomedicinal use of HHA to manage malaria can be attributed to the presence of promising antiplasmodial protoberberine alkaloids together with synergistic effects via either enhancement of bioavailability or improved pharmacokinetics by other phytoconstituent(s) coming from other HHA constituent plants. The protoberberine alkaloids isolated have been identified as fast-acting antiplasmodial agents, with activity against all erythrocytic stages of the malaria parasite. Further, A. affinis methanol stembark extract and the protoberberine alkaloid berberine isolated from it also displayed excellent activity (>90% inhibition at 1 μg/ml) against the liver-stage malaria parasite. A. affinis and HHA can thus be useful as both liver-stage prophylactic and blood-stage curative agents.

Chemical composition and anti-inflammatory effect of Phellodendron amurense Rupr. stem bark extract

In many diseases inflammation and oxidative stress coexist and are therapeutic targets. Phellodendron amurense Rupr. has anti-inflammatory and antioxidant effects, but the mechanisms are not completely elucidated. Therefore, first P. amurense stem bark extract was analysed regarding chemical compounds such as total polyphenol content (TPC), polyphenols (gallic acid, 4-hydroxybenzoic acid, caffeic acid and ferulic acid) and alkaloids (berbamine, jatrorrhizine, palmatine, and berberine). Quantitative determination of alkaloids revealed that berberine had the highest concentration of 2.44±0.22 mg/g. In vitro antioxidant activity was significant. Then, thein vivo anti-inflammatory and antioxidative effects of P. amurense extract were studied before and after acute experimental rat inflammation induction in order to find some mechanisms of these effects. The P. amurense stem bark extract had a good anti-inflammatory activity by reducing nitric oxide, 3-nitrotyrosine and NF-kB, and an antioxidant activity by lowering oxidants and increasing antioxidants. This study provides scientific knowledge and could contribute to the development of novel drugs based on P. amurense stem bark extract for the treatment of inflammatory diseases and prevention of oxidative stress.

Alkaloids as Vasodilator Agents: a Review.

The pathophysiology of hypertension is often associated with endothelial dysfunction and the impairment of endothelium-dependent vasodilation mechanisms, as well as alterations in vascular smooth muscle (VSM) tone. Natural products, particularly alkaloids, have received increased attention in the search for new vasodilator agents. This review aims to summarize the noteworthy results from ex-vivo and in-vitro studies that explored the vasodilatory effects of some selected alkaloids (Berberine, Sinomenine, (S)-Reticuline, Neferine, Nuciferine, Villocarine A, 8-Oxo-9-Dihydromakonakine, Harmaline, Harman, and Capsaicin) and the underlying mechanisms implicated. The results obtained from the literature revealed that these selected alkaloids exhibited vasodilation in various vascular models, including mesenteric, carotid, and coronary arteries, thoracic aorta, and cultured HUCECs and VSMCs. Furthermore, most of these alkaloids induced vasodilation through endothelium-dependent and endothelium-independent mechanisms, which were primarily mediated by activating eNOS/NO/sGC/cGMP pathway, opening various potassium (K+ ) channels, or modulating calcium (Ca2+) channels. Additionally, several alkaloids exerted vasodilatory effects through multiple mechanism pathways. Moreover, different alkaloids demonstrated the ability to protect endothelial function by reducing oxidative stress, endoplasmic reticulum and inflammation. In conclusion, this class of secondary metabolites holds interesting therapeutic potential in the prevention and treatment of cardiovascular diseases (CVD), particularly hypertension.

Adverse effects of the dietary supplement berberine studied on ants as models

An extract of Berberis plants is nowadays used as a dietary supplement as well as for treating several medical symptoms, e.g., mostly for regulating glycemia, lipid metabolism and central nervous system disorders. Few or no information has so far been reported about side effects of berberine on behavioral and physiological-linked traits. We thus investigated on the potential adverse effects of the alkaloid berberine by using the ant Myrmica sabuleti as a model. We found that berberine decreased the ant’s food intake, activity, locomotion, and sensory perception, but did not impact their social interactions, cognition, learning and memorization. The ants did not adapt themselves to the side effect of berberine on their locomotion. They did not develop strong dependence on berberine consumption. After weaning, the behavioral effect of a diet with berberine linearly decreased until it vanished in 15 – 18 hours. Researches to assess the effect of berberine on various associated behavioral and physiological traits in mammals and in humans are still needed in order to draw a complete safety profile of this substance.

Goldenseal-Mediated Inhibition of Intestinal Uptake Transporters Decreases Metformin Systemic Exposure in Mice.

Goldenseal is a perennial plant native to eastern North America. A recent clinical study reported goldenseal decreased metformin Cmax and area under the blood concentration versus time curve (AUC) by 27% and 23%, respectively, but half-life and renal clearance were unchanged. These observations suggested goldenseal altered processes involved in metformin absorption. The underlying mechanism(s) remain(s) unknown. One mechanism for the decreased metformin systemic exposure is inhibition by goldenseal of intestinal uptake transporters involved in metformin absorption. Goldenseal extract and three goldenseal alkaloids (berberine, (-)-β-hydrastine, hydrastinine) were tested as inhibitors of organic cation transporter (OCT) 3, plasma membrane monoamine transporter (PMAT), and thiamine transporter (THTR) 2 using human embryonic kidney 293 cells overexpressing each transporter. The goldenseal extract, normalized to berberine content, was the strongest inhibitor of each transporter (IC50: 4.9, 13.1, and 5.8 μM for OCT3, PMAT, and THTR2, respectively). A pharmacokinetic study in mice compared the effects of berberine, (-)-β-hydrastine, goldenseal extract, and imatinib (OCT inhibitor) on orally administered metformin. Goldenseal extract and imatinib significantly decreased metformin Cmax by 31% and 25%, respectively, and had no effect on half-life. Berberine and (-)-β-hydrastine had no effect on metformin pharmacokinetics, indicating neither alkaloid alone precipitated the interaction in vivo. A follow-up murine study involving intravenous metformin and oral inhibitors examined the contributions of basolateral enteric/hepatic uptake transporters to the goldenseal-metformin interaction. Goldenseal extract and imatinib had no effect on metformin AUC and half-life, suggesting lack of inhibition of basolateral enteric/hepatic uptake transporters. Results may have implications for patients taking goldenseal with drugs that are substrates for OCT3 and THTR2. SIGNIFICANCE STATEMENT: Goldenseal is used to self-treat respiratory infections and digestive disorders. We investigated potential mechanisms for the clinical pharmacokinetic interaction observed between goldenseal and metformin, specifically inhibition by goldenseal of intestinal uptake transporters (OCT3, PMAT, THTR2) involved in metformin absorption. Goldenseal extract inhibited all three transporters in vitro and decreased metformin systemic exposure in mice. These data may have broader implications for patients co-consuming goldenseal with other drugs that are substrates for these transporters.