Soursop (Annona muricata Lin.) is a plant belonging to the Annonaceae family that has been widely used globally as a traditional medicine for many diseases. In this review, we discuss the traditional use, chemical content, and pharmacological activities of A.muricata. From 49 research articles that were obtained from 1981 to 2021, A.muricata’s activities were shown to include anticancer (25%), antiulcer (17%), antidiabetic (14%), antiprotozoal (10%), antidiarrhea (8%), antibacterial (8%), antiviral (8%), antihypertensive (6%), and wound healing (4%). Several biological activities and the general mechanisms underlying the effects of A.muricata have been tested both in vitro and in vivo. A.muricata contains chemicals such as acetogenins (annomuricins and annonacin), alkaloids (coreximine and reticuline), flavonoids (quercetin), and vitamins, which are predicted to be responsible for the biological activity of A.muricata.
Zingiber officinale Roscoe (red:ginger), one of the most widely consumed herbs in Asia, has been empirically used to treat various disorders in Indonesia. There are three known types of ginger: giant ginger or white ginger (Zingiber officinale var. Roscoe), small white ginger or ginger emprit (Zingiber officinale var. Amarum), and red ginger (Zingiber officinale var. Rubrum). The main components of ginger rhizome are carbohydrates, lipids, essential oils, terpenes, and phenol compounds such as gingerol (23-25%) and shogaol (18-25%). Many studies had confirmed beneficial effects of ginger against inflammation, free radicals, diabetes mellitus, bacterial infection, cancer, nausea, etc. Z. officinale var. Roscoe is considered a safe herbal with not significant adverse effects. This plant is potential to be developed for future phytomedicine, however further explorations on its clinical studies in humans is expected, especially the efficacy and safety of the risk of side effects.
A molecular imprinted polymer (MIP) was computationally designed and synthesized for the selective extraction of salmeterol xinafoate (SLX) from human serum. In this study, semi-empirical PM3 calculations were used to find a suitable functional monomer (FM), the ratio of template (T) to FM, and types of crosslinkers. MIPs were synthesized with 2-hydroxyethyl methacrylate (HEMA) with T:FM mol ratios of 1:6 and 1:4 and ethylene glycol dimethacrylate (EGDMA) or trimethylolpropane trimethacrylate (TRIM) as a crosslinker. On the basis of computational and experimental results, HEMA and TRIM in the mol ratio 1:6 of T-FM (MIP3) were found to be the best choices of FM and crosslinker, respectively. These polymers were then used as a selective sorbent to develop a molecularly imprinted solid-phase extraction procedure followed by high performance liquid chromatography with UV detection for the determination of SLX in serum. The extraction ability of MIP3 was excellent with a recovery of 92.17% ± 2.66% of SLX in spiked serum, and 91.15% ± 1.12% when SLX was spiked as a mixture with another analogous structure. By comparing the performance of the synthesized sorbent with a C-18 cartridge with a recovery of 79.11% ± 2.96%, it was determined that MIP had better performance over the latter. On the basis of these results, the imprinted receptor MIPs, especially MIP 3, can be applied for the direct extraction of SLX in clinical analysis.
Introduction: Breast cancer is the second most common cancer in women globally, and the incidence rate has increased annually. Traditional medicine is frequently used as a cancer treatment, and soursop or Annona muricata L (A. muricata) is a traditional medicinal plant that has been widely used as an anticancer treatment and requires more thorough study. Methods: In this research, we prepared ethanol extract and three solvents, ie, ethyl acetate, n-hexane and water fractions of A. muricata leaves and assessed their antiproliferation and cytotoxic activity on MCF7 breast cancer cells compared with that on CV1 normal kidney cells; observation of cell morphology by stained with mixture of propidium iodide and 4ʹ,6-diamidino-2-phenylindole indicated that this treatment induced an ongoing process of apoptotic cell death in MCF7 cells. To clarify the cell death mechanism via apoptosis, we assessed the mRNA expression in the caspase cascade of caspase-9, caspase-3, and PARP-1, and anti-apoptotic, Bcl-2 which mediated cytotoxic activity of extracts and ethyl acetate fractions of A. muricata leaves against MCF7 cells. Results: The ethanol extract, ethyl acetate, n-hexane, and water fractions of A. muricata leaves had IC 50 values of 5.3, 2.86, 3.08, and 48.31 µg/mL, respectively, in MCF7 cells but had no activity in CV1 cells. The high cytotoxic activity of A. muricata leaves was reflected by changes in the morphology of cancer cells that appeared after 6 h exposure to A. muricata leaf extract and ethyl acetate fraction; the membrane and nucleus of cells undergoing apoptosis were characterized by the rupture and loss of membranes and nuclei. The mechanism that mediates this cytotoxic activity in MCF7 cells was mediated through a decrease in the expression of Bcl-2 mRNA and an increase in caspase-9 and caspase-3 mRNA expression. Conclusion: Therefore, the leaves of the medicinal plant A. muricata contained compounds that on extraction exerted a highly effective activity as an anticancer treatment for breast cancer via induced apoptotic cell death.
Rapid resistance development of HIV-1 and Plasmodium falciparum parasite requires discovery of more potent new drugs. Aspartic protease enzymes expressed by HIV-1 and P. falciparum could be used as important drug targets. The catalytic site is located at the bottom of a cleft in the enzyme surface and consists of triad Asp25, Thr26, Gly27. Important aspartic acids are Asp32 and Asp215. Aspartic proteases are inhibited by pepstatin-A, a naturally occurring peptide containing two statins, which replace the amino acids. The hydroxyl group of the statin binds tightly to the catalytically-active aspartic acid residues in the active site of protease, thereby mimicking the transition state of the peptide cleavage. Previous study proved that ganoderiol-F, a triterpenoid isolated from the stem of Ganoderma sinense showed higher affinity towards HIV-1 protease (binding energy= -11.40 kcal/mol and K i = 4.68 nM) than to plasmepsin I (binding energy= -9.96 kcal/mol and K i = 50.94 nM). In this paper, computational studies of G. lucidum triterpenoids with aspartic protease enzymes of HIV-1 and plasmepsin I, were performed using AutoDock 4.2. Nelfinavir and KNI-10006 were used as the standards for HIV-1 protease and plasmepsin I, respectively. The four triterpenoids are able to interact with both enzymes. Ganoderat acid-B showed the best affinity to HIV-1 protease (binding energy= -7.49 kcal/mol and Ki= 0.001 mM) which is better than nelfinavir. Furthermore, the best affinity to Plasmepsin I is showed by ganodermanondiol (binding energy= -7.14 kcal/mol and Ki= 0.005 mM which is better than KNI-10006. According to the values of binding energy and inhibition constant, triterpenoids of G. lucidum could be developed further as both anti-HIV and anti-malaria.
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