Panax notoginseng
Panax
Ginsenosides
Saponins
Drugs, Chinese Herbal
Plants, Medicinal
Plant Roots
Medicine, Chinese Traditional
Plant Extracts
Triterpenes
Rhizome
Comparative study of the composition of TCM Radix notoginseng extract samples before and after acetylation with UV and ELSD detection. (1/39)
OBJECTIVE: To study the derivation, acetylation specifically, as well as the application of evaporative light-scattering detector (ELSD) detection of Panax notoginseng extract for a better understanding of its components, as well as to study the authentication of this Traditional Chinese Medicine (TCM). METHODS: Acetonitrile-water gradient elution of the samples was used for the analysis and the ultraviolet (UV) detection used to observe the difference between the extract samples before and after acetylation. Mobile phases containing 30% and 85% acetonitrile, respectively, were used to observe the differences between chromatograms of the samples obtained using UV and ELSD detection. RESULTS: By acetylating the extract before analysis, differentiation of the early-eluting components was observed, some of the derivatives were retained extremely strongly. Different eluting profiles were obtained from the extract samples using UV and ELSD. Using the latter technique, different patterns of change in the retention of peaks could be observed, uncovering more information relating to the composition of the extract. CONCLUSION: The decrease of polarities of a part of the hydrophilic components as a result of acetylation of the extract and the differentiation of these early-eluting, difficult-to-separate compounds in the chromatograms should be helpful for the characterization and authentication of the TCM. ELSD can be used to detect the carbohydrates, which are known to have pharmacological effects, and sensitize the detection of glycosides. This is also helpful for the above-mentioned aspects. (+info)Notoginseng enhances anti-cancer effect of 5-fluorouracil on human colorectal cancer cells. (2/39)
PURPOSE: Panax notoginseng is a commonly used Chinese herb. Although a few studies have found that notoginseng shows anti-tumor effects, the effect of this herb on colorectal cancer cells has not been investigated. 5-Fluorouracil (5-FU) is a chemotherapeutic agent for the treatment of colorectal cancer that interferes with the growth of cancer cells. However, this compound has serious side effects at high doses. In this study, using HCT-116 human colorectal cancer cell line, we investigated the possible synergistic anti-cancer effects between notoginseng flower extract (NGF) and 5-FU on colon cancer cells. METHODS: The anti-proliferation activity of these modes of treatment was evaluated by MTS cell proliferation assay. Apoptotic effects were analyzed by using Hoechst 33258 staining and Annexin-V/PI staining assays. The anti-proliferation effects of four major single compounds from NGF, ginsenosides Rb1, Rb3, Rc and Rg3 were also analyzed. RESULTS: Both 5-FU and NGF inhibited proliferation of HCT-116 cells. With increasing doses of 5-FU, the anti-proliferation effect was slowly increased. The combined usage of 5-FU 5 microM and NGF 0.25 mg/ml, significantly increased the anti-proliferation effect (59.4 +/- 3.3%) compared with using the two medicines separately (5-FU 5 microM, 31.1 +/- 0.4%; NGF 0.25 mg/ml, 25.3 +/- 3.6%). Apoptotic analysis showed that at this concentration, 5-FU did not exert an apoptotic effect, while apoptotic cells induced by NGF were observed, suggesting that the anti-proliferation target(s) of NGF may be different from that of 5-FU, which is known to inhibit thymidilate synthase. CONCLUSIONS: This study demonstrates that NGF can enhance the anti-proliferation effect of 5-FU on HCT-116 human colorectal cancer cells and may decrease the dosage of 5-FU needed for colorectal cancer treatment. (+info)A uniform HPLC method developed for the analysis of Salvia miltiorrhiza, Panax notoginseng, and Fufang Danshen. (3/39)
Fufang Danshen (FFDS) is a famous typical Chinese complex prescription, which is mainly composed of Radix Salvia miltiorrhiza Bunge (SM) and Radix Panax notoginseng (PN). An HPLC method is developed to analyze SM, PN, and FFDS effectively; the effective analysis is achieved by using a gradient elution procedure with a mobile phase consisting of acetonitrile and 0.025% aqueous phosphoric acid (v/v). Through this method, 33 peaks in FFDS are clearly exhibited, and the components that make up the 33 peaks in FFDS are evaluated. Also, the chemical ingredients are compared between the single herbs (SM and PN) and the complex prescription (FFDS). The result indicate that the chemical ingredients in FFDS are not simply a combination of SM and PN. In addition, the HPLC method is suitable for the routine quality control of SM, PN, and FFDS, which could present a uniform quality control method for single medicines and one of the most commonly used Traditional Chinese Medicine-complex prescriptions. (+info)Effects of notoginosides on proliferation and upregulation of GR nuclear transcription factor in hematopoietic cells. (4/39)
AIM: To investigate the effects of panax notoginosides (PNS) on the proliferation of human hematopoietic stem/progenitor cells, and to explore the signaling pathway of the nuclear transcription factor of the glucocorticoid receptor (GR-NTF) initiated by PNS related with the proliferation. METHODS: The human CD34+ cells and bone marrow nuclear cells were exposed to PNS at a concentration of 0, 10, 25, 50, and 100 mg/L, respectively, in semi-solid culture system to observe colony forming unite of all lineages, granulocyte, erythrocyte, and megakaryocyte (CFUGEMM, CFU-GM, CFU-E, and CFU-MK). Three lineages of human hematopoietic cell lines, including granulocytic HL-60, erythrocytic K562, megakaryocytic CHRF- 288, and Meg-01 cells were incubated with PNS at 20 mg/L for 14 d. Meanwhile, dexamethasone (Dex) was used as a positive control. The nuclear protein of the cells was analyzed by Western blotting with monoclonal antibodies against the amino or carboxyl terminus of GR-NTF. Electrophoretic mobility shift assay performed by using the 32P-radiolabeled GR-NTF consensus oligonucleotide. RESULTS: PNS promoted the proliferation of CD34+ cells and significantly raised the colony numbers of CFU-GEMM by 34.7%+/-16.0% over the non-PNS control (P<0.01). PNS also enhanced the proliferation of CFU-GM, CFU-E, and CFU-MK by 39.3%+/- 5.7%, 33.3%+/-7.3%, and 26.2%+/-3.2%, respectively. GR-NTF protein levels of either the amino or carboxyl terminus in K562, CHRF-288, and Meg-01 treated by PNS increased by 2.4-2.8 fold and 1.3- 3.9 fold over the untreated cells. GR-NTF binding activity, initiated by either PNS or Dex, was apparently elevated to form the complex of GR-NTF with DNA as higher density bands in K562 and CHRF-288 cells, and some activity appeared as a band in HL-60 cells induced by PNS. CONCLUSION: PNS displayed the action of hematopoietic growth factor-like or synergistic efficacy to promote proliferation of human progenitor cells, may play a role in the upregulation of gene expression related to proliferation of hematopoietic cells through increasing the GR-NTF synthesis and its DNA binding activity. (+info)Pharmacokinetic and absolute bioavailability study of total panax notoginsenoside, a typical multiple constituent traditional chinese medicine (TCM) in rats. (5/39)
LC/ESI/MS method was employed for the pharmacokinetic evaluation of total panax notoginsenoside (TPNS) in rats. After oral or intravenous administration of TPNS at the dosage of 300.0 or 10.0 mg kg(-1) to rats respectively, panax notoginsenoside R1, ginsenoside Rg1, Rd, Re and Rb1 were simultaneous determined in rat plasma. Pharmacokinetic parameters and absolute bioavailability of panax notoginsenoside R1, ginsenoside Rg1, Rd, Re and Rb1 were obtained by the Drug And Statistics for windows (DAS) pharmacokinetic software. The pharmacokinetic parameters of all analytes were different form each other. T(1/2) were changed from 0.72 to 22.16 h and AUC were changed from 1.03 to 98.94 mg/l.h after oral or intravenous administration TPNS or Xuesaitong (TPNS) injection. The absolute bioavailability of R1, Rg1, Rd, Re and Rb1 were of 9.29%, 6.06%, 2.36%, 7.06% and 1.18%, respectively. (+info)Effects of aqueous extracts of Aconitum carmichaeli, Rhizoma bolbostemmatis, Phytolacca acinosa, Panax notoginseng and Gekko swinhonis Guenther on Bel-7402 cells. (6/39)
AIM: To investigate the anticancer activity of a chinese medical mixture, WRCP (warming and relieving Cold Phlegm), on hepatocarcinoma Bel-7402 cells. METHODS: Fingerprints of WRCP, which were composed of aqueous extracts of Aconitum carmichaeli, Rhizoma bolbostemmatis, Phytolacca acinosa, Panax notoginseng and Gekko swinhonis Guenther, and aconitine, which could be isolated from Aconitum carmichaeli and have the potential toxicity, were identified by high pressure liquid chromatography. Bel-7402 cells were grown in the presence of WRCP, As(2)O(3) or all-trans-retinoic acid (ATRA). Cell proliferation and viability were determined by trypan blue stain. Apoptosis and cell cycle of Bel-7402 cells were detected by flow cytometry. Morphologic and ultrastructural variations were determined under optic and electronic microscopy. The secretion of alpha-fetoprotein and albumin was detected by radioimmunoassay. RESULTS: The average quality of aconitine is 1.15 +/- 0.10 microg per 7.5 g extracts. WRCP could suppress the proliferation and viability of Bel-7402 cells. The percentage of apoptosis cells and S phase cells increased on WRCP-treated cells. Treated with WRCP, Bel-7402 cells showed ultrastructural features of differentiation. The alpha-fetoprotein secretion decreased while the albumin secretion increased (P < 0.001, P < 0.001, respectively) markedly in WRCP-treated cells. CONCLUSION: WRCP can affect the proliferation, differentiation and apoptosis of Bel-7402 cells. It can arrest cells in S phase and has strong cytotoxicity to Bel-7402 cells. (+info)Toll-like receptor ligand-induced activation of murine DC2.4 cells is attenuated by Panax notoginseng. (7/39)
(+info)Role of jasmonic acid in alteration of ginsenoside heterogeneity in elicited cell cultures of Panax notoginseng. (8/39)
(+info)Panax notoginseng, also known as Chinese ginseng or Sanqi, is a species of plant in the Araliaceae family that is native to China. In traditional Chinese medicine, the root of this plant is used as an herbal remedy for various purposes, including improving blood circulation, reducing pain and swelling, and promoting healing of wounds and bruises.
Modern medical research has investigated the potential therapeutic effects of Panax notoginseng and its constituents, such as saponins and phenolic compounds. Some studies suggest that it may have cardiovascular benefits, neuroprotective effects, and anti-cancer properties, although more research is needed to confirm these findings and establish recommended dosages and safety profiles.
It's important to note that the use of Panax notoginseng as a medical treatment should be supervised by a healthcare professional, as it can interact with other medications and have potential side effects.
"Panax" is a term used in the field of botany and medicine, particularly in the study of traditional Chinese medicine. It specifically refers to the genus of plants that includes ginseng, which is known scientifically as "Panax ginseng." This plant has been used in traditional medicine for centuries due to its perceived ability to boost energy levels, reduce stress, and improve overall health. The term "Panax" itself comes from the Greek words "pan," meaning all or everything, and "akos," meaning cure or remedy, reflecting the belief in its wide-ranging healing properties. It's important to note that while some studies suggest potential health benefits of Panax ginseng, more research is needed to fully understand its effects and safety.
Ginsenosides are a type of saponin, which are natural compounds found in the roots and leaves of the ginseng plant (Panax ginseng). These triterpene glycosides have been identified as the primary active components responsible for the pharmacological effects of ginseng.
There are several structurally different ginsenosides, classified into two major groups: the protopanaxadiol and protopanaxatriol groups. These compounds have been reported to exhibit various biological activities, such as anti-inflammatory, antioxidant, anticancer, immunomodulatory, and neuroprotective effects.
The content and composition of ginsenosides can vary depending on the species, cultivation methods, and processing techniques used for ginseng. The potential health benefits of ginseng are often attributed to these unique compounds, making them a subject of ongoing research in pharmacology and herbal medicine.
Saponins are a type of naturally occurring chemical compound found in various plants, including soapwords, ginseng, and many others. They are known for their foaming properties, similar to that of soap, which gives them their name "saponin" derived from the Latin word "sapo" meaning soap.
Medically, saponins have been studied for their potential health benefits, including their ability to lower cholesterol levels, reduce inflammation, and boost the immune system. However, they can also have toxic effects in high concentrations, causing gastrointestinal disturbances and potentially damaging red blood cells.
Saponins are typically found in the cell walls of plants and can be extracted through various methods for use in pharmaceuticals, food additives, and cosmetics.
Chinese herbal drugs, also known as traditional Chinese medicine (TCM), refer to a system of medicine that has been practiced in China for thousands of years. It is based on the belief that the body's vital energy, called Qi, must be balanced and flowing freely for good health. TCM uses various techniques such as herbal therapy, acupuncture, dietary therapy, and exercise to restore balance and promote healing.
Chinese herbal drugs are usually prescribed in the form of teas, powders, pills, or tinctures and may contain one or a combination of herbs. The herbs used in Chinese medicine are typically derived from plants, minerals, or animal products. Some commonly used Chinese herbs include ginseng, astragalus, licorice root, and cinnamon bark.
It is important to note that the use of Chinese herbal drugs should be under the guidance of a qualified practitioner, as some herbs can interact with prescription medications or have side effects. Additionally, the quality and safety of Chinese herbal products can vary widely depending on the source and manufacturing process.
"Phytolacca" is the genus name for a group of plants commonly known as pokeweeds. These plants are native to North America and contain several biologically active compounds, including phytolaccatoxin, phytolaccigenin, and resin. The roots, stems, and berries of some species have been used in traditional medicine for various purposes, such as treating skin conditions, rheumatism, and digestive disorders. However, it's important to note that these plants can be toxic if not used properly, and their use as a medicine is not supported by modern scientific evidence. Therefore, it's recommended to consult with a healthcare professional before using any products derived from Phytolacca species.
Medicinal plants are defined as those plants that contain naturally occurring chemical compounds which can be used for therapeutic purposes, either directly or indirectly. These plants have been used for centuries in various traditional systems of medicine, such as Ayurveda, Chinese medicine, and Native American medicine, to prevent or treat various health conditions.
Medicinal plants contain a wide variety of bioactive compounds, including alkaloids, flavonoids, tannins, terpenes, and saponins, among others. These compounds have been found to possess various pharmacological properties, such as anti-inflammatory, analgesic, antimicrobial, antioxidant, and anticancer activities.
Medicinal plants can be used in various forms, including whole plant material, extracts, essential oils, and isolated compounds. They can be administered through different routes, such as oral, topical, or respiratory, depending on the desired therapeutic effect.
It is important to note that while medicinal plants have been used safely and effectively for centuries, they should be used with caution and under the guidance of a healthcare professional. Some medicinal plants can interact with prescription medications or have adverse effects if used inappropriately.
A plant root is not a medical term per se, but it is a term from botany, which is the study of plants. However, I can certainly provide a definition for you.
Plant roots are the underground organs of a plant that typically grow downward into the soil. They serve several important functions, including:
1. Anchorage: Roots help to stabilize the plant and keep it upright in the ground.
2. Absorption: Roots absorb water and nutrients from the soil, which are essential for the plant's growth and development.
3. Conduction: Roots conduct water and nutrients up to the above-ground parts of the plant, such as the stem and leaves.
4. Vegetative reproduction: Some plants can reproduce vegetatively through their roots, producing new plants from root fragments or specialized structures called rhizomes or tubers.
Roots are composed of several different tissues, including the epidermis, cortex, endodermis, and vascular tissue. The epidermis is the outermost layer of the root, which secretes a waxy substance called suberin that helps to prevent water loss. The cortex is the middle layer of the root, which contains cells that store carbohydrates and other nutrients. The endodermis is a thin layer of cells that surrounds the vascular tissue and regulates the movement of water and solutes into and out of the root. The vascular tissue consists of xylem and phloem, which transport water and nutrients throughout the plant.
Traditional Chinese Medicine (TCM) is a system of medicine that has been developed in China over thousands of years. It is based on the philosophy that the body's vital energy (Qi) circulates through a network of channels called meridians, and that disease results from an imbalance or blockage in this flow of Qi.
TCM uses a variety of treatments to restore balance and promote health, including acupuncture, herbal medicine, moxibustion (the burning of herbs near the skin), cupping, dietary therapy, and tuina (Chinese massage). The use of Chinese herbal medicines is a major component of TCM, with formulas often consisting of combinations of several different herbs tailored to the individual patient's needs.
In addition to these treatments, TCM practitioners may also use diagnostic techniques such as pulse diagnosis and tongue examination to assess a person's overall health and determine the underlying cause of their symptoms. The goal of TCM is not only to treat specific symptoms or diseases but to address the root causes of illness and promote overall wellness.
A plant extract is a preparation containing chemical constituents that have been extracted from a plant using a solvent. The resulting extract may contain a single compound or a mixture of several compounds, depending on the extraction process and the specific plant material used. These extracts are often used in various industries including pharmaceuticals, nutraceuticals, cosmetics, and food and beverage, due to their potential therapeutic or beneficial properties. The composition of plant extracts can vary widely, and it is important to ensure their quality, safety, and efficacy before use in any application.
Triterpenes are a type of natural compound that are composed of six isoprene units and have the molecular formula C30H48. They are synthesized through the mevalonate pathway in plants, fungi, and some insects, and can be found in a wide variety of natural sources, including fruits, vegetables, and medicinal plants.
Triterpenes have diverse structures and biological activities, including anti-inflammatory, antiviral, and cytotoxic effects. Some triterpenes are also used in traditional medicine, such as glycyrrhizin from licorice root and betulinic acid from the bark of birch trees.
Triterpenes can be further classified into various subgroups based on their carbon skeletons, including squalene, lanostane, dammarane, and ursane derivatives. Some triterpenes are also modified through various biochemical reactions to form saponins, steroids, and other compounds with important biological activities.
A rhizome is not typically used as a medical term, but it is a term borrowed from botany that has been adopted in some areas of medicine, particularly in psychiatry and psychotherapy.
In its original botanical sense, a rhizome is a horizontal stem of a plant that grows underground, often sending out roots and shoots from its nodes. This growth pattern is contrasted with that of a root system, which grows downward, and a stem system, which grows upward.
In psychiatry and psychotherapy, the term "rhizome" has been used as a metaphor to describe a non-hierarchical and decentralized approach to understanding mental processes and subjectivity. The rhizome model emphasizes the complexity, multiplicity, and interconnectedness of these processes, and rejects simplistic or reductionist explanations that focus on a single cause or origin. Instead, it encourages a more holistic and dynamic view of mental life, one that is open to multiple perspectives and interpretations.
It's important to note that the use of the term "rhizome" in this context is metaphorical and not medical in the strict sense. It is a way of thinking about mental processes and subjectivity that has been influenced by poststructuralist and feminist theories, among others.
Sapogenins are steroid-like compounds that are naturally occurring in some plants, particularly in the sap of certain species. They are aglycones (non-sugar components) of saponins, which are glycosides (compounds with sugar molecules) known for their foaming properties.
Sapogenins have a steroidal structure and can be further categorized into two groups: spirostanol sapogenins and furostanol sapogenins. These compounds have potential therapeutic applications due to their anti-inflammatory, immunomodulatory, and cytotoxic properties. However, more research is needed to fully understand their mechanisms of action and potential benefits in medical treatments.