The emergence of multidrug-resistant (MDR) microbes has become one of the major threat globally. Infectious diseases are the second leading cause of death, two-third of which are caused by Gram-negative bacteria. The increasing number of multidrug resistant (MDR) microbes is quite alarming and has raised the necessity of development of new antibacterial drugs. Escherichia coli and Klebsiella have been reported among the top most resistance-developing pathogens. Ricinus communis is an important medicinal plant reported to possess antimicrobial phytochemicals such as a-pinene. The hexane treated crude ethanolic extract of R. communis was evaluated against Gram-negative bacteria E. coli and Klebsiella oxytoca. The agar well diffusion assay was used to determine the antibacterial activity. In the present study, we have shown experimentally that leaf extract of R. communis can induce the deterioration of the inner and outer cell membranes of E. coli and K. oxytoca and decrease their viability at a concentration of 50 mg/ml. Transmission electron microscopic results revealed cell membrane damage, cellular disintegration and release of cytoplasmic content, leading to cell death. To our knowledge, this is the first study of the antibacterial activity of R. communis against E. coli and K. oxytoca by Transmission electron microscopy. The ultramicroscopic observations showed that the phytochemical present in the leaf extract of R. communis could penetrate the bacterial cell, causing rupture of cell membranes and hence confirm the cytotoxic and antimicrobial property of R. communis.
Ricinus communis is a traditional medicinal plant which has been utilized for centuries for treatment of various conditions. Due to the presence of diverse phytochemicals, Ricinus is an outstanding natural resource to discover new drugs for various diseases such as diabetes, cancer, arthritis, ulcer and asthma. In this study, we performed whole-genome gene expression profiling using RNA-Seq to determine the differentially expressed genes in a mammalian cell line after exposure to Ricinus leaf extract and elucidate their pharmacological effects in order to support its ethnomedicinal uses. Various genes involved in cancer, inflammation, atherosclerosis and diabetes were found to be differentially regulated after exposure to sub-lethal concentrations of the Ricinus extract in MCF7 cells. An important gene involved in cancer progression and metastasis, that is, PIK3R3 (Phosphatidylinositol 3-kinase regulatory subunit gamma), was downregulated in MCF7 cells after treatment with Ricinus extract. PIK3R3 is an important component of the PI3K/AKT signalling pathway which is essential for cell proliferation, angiogenesis, inhibition of apoptosis and metastasis to distant organs. The Ricinus extract downregulated the expression of DPP4 (Dipeptidyl peptidase-4) and upregulated the expression of PPAR-c (Peroxisome proliferator-activated receptor gamma) which are crucial in controlling blood glucose levels. Expression of TNFAIP6 (Tumor necrosis factor-inducible gene 6), which is shown to mediate anti-inflammatory and protective effects, was increased after treatment with Ricinus extract. We also analyzed the genes which might also confer toxicity. Our gene expression profiling data corroborate the potential therapeutic benefits of Ricinus communis plant.
Background: Rhazya stricta has been used as a folkloric medicinal herb for treating various diseases such as diabetes, inflammatory disorders, and sore throat. Several studies have revealed the potential of this plant as an important source of phytochemicals with anticancer properties. Objective: The present study was designed to isolate a novel anticancer compound from Rhazya stricta and elucidate its mechanism of action using genomics approach. Methods: Rhazya stricta leaves extract was prepared, and several alkaloids were purified and characterized. These alkaloids were screened for their anticancer potential. One of the alkaloids, termed as isopicrinine, showed efficient cytotoxicity against MCF7 breast cancer cell line and was selected for further analysis. RNA-Seq transcription profiling was conducted to identify the affected genes and cellular pathways in MCF7 cells after treatment with isopicrinine alkaloid. Results: In vitro studies revealed that newly identified isopicrinine alkaloid possess efficient anticancer activity. Exposure of MCF7 cells with isopicrinine affected the expression of various genes involved in p53 signaling pathway. One of the crucial proapoptotic genes, significantly upregulated in MCF7 after exposure to alkaloid, was PUMA (p53 upregulated modulator of apoptosis), which is involved in p53-dependent and -independent apoptosis. Moreover, exposure of sublethal dose of isopicrinine alkaloid in breast cancer cell line led to the downregulation of survivin, which is involved in negative regulation of apoptosis. Besides, several genes involved in mitosis and cell proliferation were significantly downregulated. Conclusion: In this article, we report the determination of a new alkaloid isopicrinine from the aerial parts of Rhazya stricta with anticancer property. This compound has the potential to be developed as a drug for curing cancer.
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