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Objective:To evaluate the immune response efficiency of the recombinant abrin B chain protein (rATB) in BALB/c mice.Methods:BALB/c mice were vaccinated intraperitoneally (i.p.) with the purified rATB protein.ELISA was used to detect the IgG,IgG1 and IgG2a.Meanwhile,the expression of IL-4 and IFN-γwere detected by flow cytometry.Then the protein neutralization assay and efficacy of passive protection were done .Results:The anti-rATB antibody was detected by ELISA after vaccinated the rATB in the mice and results showed that the highest titer reached 106 ,which was acquired after the last vaccination .Meanwhile,a strong secondary response was triggered in mice when challenged with toxin .In contrast ,the antibody response of the PBS-vaccinated mice was less than 1:10 and P<0.05 indicated obvious difference between test group and control group .The result of IgG 1 was the same as the IgG ,while the result of IgG2a had not changed.There was significant difference for IL-4 between two groups (P<0.05),while no significant difference for IFN-γwas observed.All BALB/c mice survived after challenged with 5×LD50 of AT.Transfusion of sera from immunized mice provided passive protection in naive mice.Furthermore, the rATB could induce specific neutralizing antibodies against abrin toxin.Conclusion: The recombinant protein can induce the Th 2-type immune response and trigger a good immune response and protective efficacy,which means it may be a promising vaccine candidate against human exposure to AT .
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Abrin is isolated from abrin seeds (Aburs precatoriusL.), which is a kind of cytotoxic protein. This article reviewed the anticancer effect and mechanisms of Abrin from five aspects in several years, which were the molecular structure and toxicity of Abrin, the characteristics of Abrin in anticancer effect, the role of Abrin in inhibiting cancer cell proliferation, the mechanisms of Abrin induced apoptosis of cancer cells, the anticancer mechanisms of Abrin in enhancing immune function. And the application prospect of Abrin immunotoxin targeted therapy and nano preparation will be expounded in this article. It will be helpful to further research about application on Abrin. It will provide the scientific basis for discovering new drug targets of cancer.
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Background: Abrus precatorius seeds traditionally used for the treatment of sciatica and alopecia contains the toxic protein, abrin, a Type II Ribosome Inactivating Protein. Ayurveda recommends the use of Abrus seeds after the Shodhana process (detoxification). Objective: The current study was aimed at performing the Shodhana process, swedana (boiling) of Abrus precatorius seeds using water as a medium and to evaluate the anti‑inflammatory potential of seed extract post detoxification. Materials and Methods: Non‑detoxified and detoxified extracts were prepared and subsequently subjected to various in vitro and in vivo assays. In hemagglutination assay, the non‑detoxified extract shows higher agglutination of RBCs than detoxified extract indicating riddance of toxic hemagglutinating proteins by Shodhana. This was confirmed by the SDSPAGE analysis of detoxified extract revealing the absence of abrin band in detoxified extract when compared to non‑detoxified extract. Results: The cytotoxicity assay in HeLa cell line expresses a higher reduction in growth percentage of the cells with non‑detoxified extract as compared to detoxified extract indicating successful detoxification. Brine shrimp lethality test indicated the reduction in toxicity index of detoxified extract as compared to non‑detoxified extract. Further, the whole body apoptosis assay in zebrafish revealed that percentage of viable cells were greater for detoxified extract than non‑detoxified extract. The anti‑inflammatory studies using carrageenan induced paw edema model in rats was carried out on the extracts with doses of 100 mg/kg and 200 mg/kg, per oral, where the detoxified extract exhibited significant inhibition of rat paw edema at both the doses comparable to that of Diclofenac sodium. Conclusion: Absence of toxicity and the retention of the anti‑inflammatory activity of detoxified Abrus seed extract confirmed that the Swedana process is effective in carrying out the detoxification without affecting its therapeutic potential.
ABSTRACT
Medicinal plants are being widely used, either as a single drug or in combination in health care delivery system. Medicinal plants can be important source of previously unknown chemical substances with potential therapeutic effects. Abrus precatorius L. is commonly known as Gunja or Jequirity and abundantly found all throughout the plains of India, from Himalaya down to Southern India and Ceylon. This plant is having medicinal potential to cure various diseases. The roots, leaves and seeds of this plant are used for different medicinal purpose. It principally contains flavonoids, triterpene glycosides, abrin and alkaloids. The plant have been reported for neuromuscular effects, neuro-protective, abortifacient, antiepileptic, anti-viral, anti-malarial, antifertility, nephroprotective, immunomodulator, immunostimulatory properties, anti-inflammatory activity, antidiabetic effect, etc. As this is a potential medicinal plant, present review reveals chemical constituents of leaf, root and seeds of Abrus precatorius. The plant is considered as a valuable source of unique natural products for development of medicines against various diseases and also for the development of industrial products.
ABSTRACT
Medicinal plants are being widely used, either as a single drug or in combination in health care delivery system. Medicinal plants can be important source of previously unknown chemical substances with potential therapeutic effects. Abrus precatorius L. is commonly known as Gunja or Jequirity and abundantly found all throughout the plains of India, from Himalaya down to Southern India and Ceylon. This plant is having medicinal potential to cure various diseases. The roots, leaves and seeds of this plant are used for different medicinal purpose. It principally contains flavonoids, triterpene glycosides, abrin and alkaloids. The plant have been reported for neuromuscular effects, neuro-protective, abortifacient, antiepileptic, anti-viral, anti-malarial, antifertility, nephroprotective, immunomodulator, immunostimulatory properties, anti-inflammatory activity, antidiabetic effect, etc. As this is a potential medicinal plant, present review reveals chemical constituents of leaf, root and seeds of Abrus precatorius. The plant is considered as a valuable source of unique natural products for development of medicines against various diseases and also for the development of industrial products.
ABSTRACT
Abrus precatorius (jequirity bean) is a common cause of accidental or intentional poisoning in the tropics. The data on exact incidence of abrus poisoning is largely insufficient in our country, due to lack of reporting. The estimated lethal dose for humans is 0.1-1 μg/kg. The toxic component is the protein abrin that causes widespread endothelial damage. Abrin causes a variety of manifestations like hemorrhagic gastroenteritis with erosions, hemolysis, acute renal damage, dyselectrolytemia, hepatotoxicity with elevated liver enzymes and seizures. Apart from the common manifestation of hemorrhagic gastroenteritis, patients experiencing mental status perturbations have been identified and documented earlier. There have been previous reports of elevated intracranial tension (ICT) in abrus poisoning, however, the exact cause for this phenomenon had not been elucidated. We herein report a case of intentional A. precatorius poisoning in a young girl that caused cerebral venous thrombosis (CVT).
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Ayurveda, which is one of the traditional systems of medicine of India, reports the seeds of Abrus precatorius (family: Fabaceae) can be used therapeutically after shodhana process, which removes the toxin. The main objective was to scientifically study the shodhana process by evaluating the safety and efficacy of A. precatorius seeds. Aqueous extract (A1) and detoxified extract (A2) of the seeds were prepared by a process described in Ayurvedic pharmacopoeia. Thin‑layer chromatography (TLC) method was developed for the two extracts using different solvent systems. Identical spots were obtained in A1 with reference values (Rf) 0.27, 0.47, and 0.79, whereas A2 showed the absence of spot having Rf value 0.47, which could possibly be the toxin found in the intact seed. A1 and A2 were evaluated for their safety and efficacy. The acute toxicity studies for A1 and A2 revealed that A1 was toxic, whereas A2 was safe at the dose of 2 g/kg. Absence of toxicity in the detoxified extract suggests removal of toxic material in processed seeds. The results obtained for hair growth activity of both the extracts were comparable to that of the standard. However, A2 showed better results in comparison to A1. Thus, the shodhana process described in Ayurveda helps in removing the toxin, while retaining the efficacy at the same time. The statistical analysis was done using one‑way analysis of variance.
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Objective:To develop a rapid and quantitative detection method for abrin using colloid gold immunochromatographic assay. Methods:The rapid detection method was established with double-antibody sandwich assay. Quantification was realized by constructing a standard curve. The specificity and sensitivity of the method were tested, and its feasibility was evaluated by various abrin-added food samples. Results and Conclusion:This established method could accomplish qualitative and semi-quantitative detection in 15 minutes; the sensitivity was up to 30 ng/ml with a linear range from 30 ng/ml to 600 ng/ml. The recovery rate was 80%-110%, and the variation coefficient was less than 15%.The colloidal gold immunochromatographic assay is rapid, specific, sensitive,accurate and suitable for field detection.
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To review the study progresses in venom protein, peptide and amino acids in natural drug. The study progresses were reviewed on the basis of analying the collected articles. Concerning the distribution, chemical structure, property, pharmacology and toxicity of ricin, abrin, riscotoxin, snake venom, bee venom and buthotoxin. These compounds have certain toxicity and biological activity to animals, It's worth exploiting and utilizing them in conjunction with the achievement in modern chemistry and pharmacology.