Design,synthesis, and evaluation of curcumin analogues as potential inhibitors of bacterial sialidase

Sialidases are key virulence factors that remove sialic acid from the host cell surface glycan, unmasking receptors that facilitate bacterial adherence and colonisation. In this study, we developed potential agents for treating bacterial infections caused by Streptococcus pneumoniae Nan A that inhibit bacterial sialidase using Turmeric and curcumin analogues. Design, synthesis, and structure analysis relationship (SAR) studies have been also described. Evaluation of the synthesised derivatives demonstrated that compound 5e was the most potent inhibitor of S. pneumoniae sialidase (IC₅₀?=?0.2?±?0.1?µM). This compound exhibited a 3.0-fold improvement in inhibitory activity over that of curcumin and displayed competitive inhibition. These results warrant further studies confirming the antipneumococcal activity 5e and indicated that curcumin derivatives could be potentially used to treat sepsis by bacterial infections.     

Synthesis of diethylamino-curcumin mimics with substituted triazolyl groups and their sensitization effect of TRAIL against brain cancer cells

A newly designed curcumin mimic library (11a–11k) with 2-ethylamino groups in a chalcone structure and variously substituted triazole groups as side chains was synthesized using the Huisgen 1,3-cycloaddition reaction between various alkynes (a–k) and an intermediate (10), with CuSO₄ and sodium ascorbate in a solution mixture of chloroform, ethanol, and water (5:3:1) at room temperature for 5 h. In the lactate dehydrogenase (LDH) release assay involving co-treatment with tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) and/or synthetic curcumin derivatives using TRAIL-resistant human CRT-MG astroglioma cells, the novel curcumin mimic library was found to effectively stimulate the cytotoxicity of TRAIL, causing mild cytotoxicity when administered alone. In particular, 11a and 11j are promising candidates for TRAIL-sensitizers with potential use in combination chemotherapy for brain tumors.     

Curcumin-loaded cockle shell-derived calcium carbonate nanoparticles: A novel strategy for the treatment of lead-induced hepato-renal toxicity in rats

Lead (Pb) toxicity affects the hepatic and renal systems resulting to homeostasis imbalance. Curcumin is a strong antioxidant but has restrained clinical applications due to its poor bioavailability. Nanomedicine showed promising potentials in drug delivery and has brought forth the use of cockle shell-derived aragonite calcium carbonate nanoparticles (CSCaCO₃NP) to enhance the effectiveness and targeted delivery of curcumin (Cur). Thus, this study aimed at evaluating the therapeutic effect of curcumin-loaded CSCaCO₃NP (Cur- CSCaCO₃NP) on lead-induced hepato-renal toxicity in rats. Thirty-six male adults Sprague-Dawley rats were randomly assigned into five groups. All groups contained six rats each except for group A, which contained 12 rats. All rats apart from the rats in group A (control) were orally administered a flat dose of 50 mg/kg of lead for four weeks. Six rats from group A and B were euthanized after four weeks of lead induction. Oral administration of curcumin (100 mg/kg) for group C and Cur-CSCaCO₃NP (50 and 100 mg/kg) for groups D and E respectively, commenced immediately after 4 weeks of lead induction which lasted for 4 weeks. All rats were euthanized at the 8th week of the experiment. Further, biochemical, histological and hematological analysis were performed. The findings revealed a biochemical, hematological and histological changes in lead-induced rats. However, treatments with the Cur-CSCaCO₃NP and free curcumin reversed the aforementioned changes. Although, Cur-CSCaCO₃NP presented better therapeutic effects on lead-induced toxicity in rats when compared to free curcumin as there was significant improvements in hematological, biochemical and histological changes which is parallel with attenuation of oxidative stress. The findings of the current study hold great prospects for Cur-CSCaCO₃NP as a novel approach for effective oral treatment of lead-induced hepato-renal impairments.     

Influence of side-chain changes on histone deacetylase inhibitory and cytotoxicity activities of curcuminoid derivatives

Using curcuminoids as lead compounds, fifty-nine curcuminoid derivatives with different side chains at the phenolic moiety were synthesized. All compounds were investigated for their histone deacetylase (HDAC) inhibitory activities. The potent pan-HDAC inhibitors were further tested against three human cancer cell lines including Hela, HCT116 and MCF-7 with MTT-based assay. The bisethylamide 4z and the mono-sec-butyl derivative 5j manifested good antiproliferative activities against HCT116 cancer cells with the IC₅₀ values as 14.60 ± 1.19 μg/mL and 7.33 ± 0.98 μg/mL, respectively. Molecular docking study of both compounds with Class I HDACs revealed that the compounds might bind tightly to the binding pocket of HDAC2. These findings suggested that these compounds can be putative candidates for the development of anticancer drugs via inhibiting HDACs.     

A protective effect of curcumin on cardiovascular oxidative stress indicators in systemic inflammation induced by lipopolysaccharide in rats

ObjectiveInflammation has been considered as an important factor in cardiovascular diseases (CVD). Curcumin has been well known for its anti-inflammatory effects. In current research, protective effect of curcumin on cardiovascular oxidative stress indicators in systemic inflammation induced by lipopolysaccharide (LPS) was investigated in rats.Material and methodsThe animals were divided into five groups and received the treatments during two weeks [1]: Control in which vehicle was administered instead of curcumin and saline was injected instead of LPS [2], LPS group in which vehicle of curcumin plus LPS (1 mg/kg) was administered [3-5], curcumin groups in them three doses of curcumin (5, 10 and 15 mg/kg) before LPS were administered.ResultsAdministration of LPS was followed by an inflammation status presented by an increased level of white blood cells (WBC) (p < 0.001). An oxidative stress status was also occurred after LPS injection which was presented by an increased level of malondialdehyde (MDA) while, a decrease in thiols, superoxide dismutase (SOD) and catalase(CAT) in all heart, aorta and serum (p < 0.001). The results also showed that curcumin decreased WBC (doses: 10 and 15 mg/kg) (p < 0.001) accompanying with a decrease in MDA (P < 0.01 and P < 0.001). Curcumin also improved the thiols and the activities of SOD and catalase (P < 0.05, P < 0.01 and P < 0.001).ConclusionBased on our findings, curcumin can ameliorates oxidative stress and inflammation induced by LPS in rats to protect the cardiovascular system.     

Microbial transformation of curcumin by Rhizopus chinensis

Abstract

Curcumin (1) is a potent antioxidant and antitumor natural product. In spite of its efficacy and safety, its clinical use is hindered mainly by poor water solubility and bioavailability. Structural modification to introduce hydrophilic functions is a promising approach to resolve this problem. In the present study we first found that curcumin could be efficiently converted into glucosides by filamentous fungi including Rhizopus chinensis IFFI 03043, Absidia coerulea AS 3.3389 and Cunninghamella elegans AS 3.1207. Curcumin 4′-O-β-d-glucoside (2), together with hexahydrocurcumin (3), was isolated from a preparative-scale biotransformation with R. chinensis IFFI 03043 and characterized fully by NMR and MS. A time-course study revealed that curcumin could be efficiently converted into curcumin 4′-O-β-d-glucoside within 8 h when administered at 0.05 mmol L^?1 and the productivity was 57%. Additionally, the biotransformation products of curcumin by different fungal strains were analyzed by LC/MS. At least 15 metabolites were detected, and the predominant biotransformation reaction was glucosylation. This study provides a simple, efficient and less expensive approach for the preparation of curcumin glucosides. The introduction of the glucosyl function might be able to enhance the bioavailability of curcumin.     

姜黄素诱导人胰腺癌PANC-1细胞凋亡的机制研究

目的：胰腺癌恶性程度高、进展快、预后差,姜黄素对于抑制恶性肿瘤的发生和进程具有广泛的生物学效应。但姜黄素能否诱导人胰腺癌细胞凋亡,其具体作用机制如何？目前仍无报道。本研究拟观察姜黄素对人胰腺癌PANC．1细胞凋亡的影响,探讨姜黄素诱导PANC．1细胞凋亡的机制。方法：不同浓度姜黄素处理人胰腺癌PANC-1细胞,流式细胞仪检测PANC-1细胞凋亡率,并分析Caspase-9和Caspase-3活性的变化,同时通过RT—PCR和Westemblot分析PANC-1细胞中P53表达的变化。结果：PANC-1细胞经不同浓度的姜黄素处理后,可以显著诱导细胞凋亡,并呈现一定的剂量依赖性,提示姜黄素具有一定抗肿瘤活性。姜黄素能够同时增加Caspase-9和Caspase-3的活性,并呈现一定的剂量依赖性,提示姜黄素可能通过Caspase-9和Caspase-3途径来诱导PANC．1细胞凋亡的发生。RT—PCR和westernblot结果显示,姜黄素可以显著增加PANC-1细胞中P53蛋白表达水平。结论：姜黄素可以显著诱导PANC-1细胞凋亡的发生,提高Caspase-9和Caspase-3的活性,同时增加的P53表达,并呈现一定的剂量依赖性,提示姜黄素诱导PANC-1细胞凋亡的过程可能与增加细胞中Caspase-9,Caspase-3以及P53的表达有关。本研究探讨了姜黄素诱导PANC-1细胞凋亡的分子机制,为姜黄素的进一步应用提供了新的思路和理论支持,在人胰腺癌的临床治疗中具有一定的潜在应用价值。     

姜黄素治疗代谢综合征的研究进展

姜黄素是从姜黄中提取的一种多酚类物质,近年来对姜黄素的研究日趋广泛,已明确具有抗肿瘤,抗炎,抗氧化、降糖、降脂等多种药理作用,在临床上广泛应用于治疗肿瘤、肥胖、糖尿病等多种疾病.代谢综合征是一组以代谢紊乱为特征的症候群,包括中心性肥胖、糖脂代谢异常、高血压、非酒精性脂肪肝等,这些病理状态长期发展,可进一步导致心、脑血管患病率明显升高,研究发现姜黄素能够改善代谢综合征.现就近年来有关姜黄素治疗代谢综合征的研究进展综述如下.     

Chloro and bromo-pyrazole curcumin Knoevenagel condensates augmented anticancer activity against human cervical cancer cells: design,synthesis, in silico docking and in vitro cytotoxicity analysis

Abstract

With an endeavor to develop novel curcumin analogs as potential anti-cancer agents, we designed and synthesized a series of Knoevenagel condensates by clubbing pyrazole carbaldehydes at the active methylene carbon atom of the curcumin backbone. Molecular docking studies were carried out to target the proposed derivatives on human kinase β (IKKβ), a potential anti-cancer target. The chloro derivative displayed five hydrogen bond interactions with a docking score of ?11.874?kcal/mol higher than curcumin (docking score =??7.434?kcal/mol). This was supported by the fact that the propellant shaped derivatives fitted aptly into the binding pocket. Molecular simulations studies were also conducted on the lead molecule and the results figured out that the stable complexes were developed as the minimal deviations per residue of protein within the range of 0.11–0.92 Å. The screened compounds were synthesized, characterized and evaluated in vitro for cytotoxicity against cervical cancer cell line, HeLa using standard cell proliferation assay. Chloro derivative and bromo analog demonstrated IC₅₀ (half maximal inhibitory concentration) value of 14.2 and 18.6 µg/ml, respectively, significantly lower than 42.4 µg/ml of curcumin and higher than 0.008 µg/ml of paclitaxel. Induction of apoptosis was evaluated in the terms of cleavage of caspase-3 enzyme and they also exhibited 69.6 and 65.4% of apoptosis significantly higher than 19.9% induced by curcumin. In conclusion, chloro and bromo derivatives must be evaluated under a set of stringent in vitro and in vivo parameters for translating in to a clinically viable product.

Communicated by Ramaswamy H. Sarma     

Interaction,cytotoxicity and sustained release assessment of a novel anti-tumor agent using bovine serum albumin nanocarrier

Abstract

The interaction ability of bovine serum albumin (BSA) with 2,6-divanillylidenecyclohexanone (DVH) as a stable curcumin derivative was investigated using fluorescence and circular dichroism (CD) spectroscopy techniques under simulative physiological conditions (pH = 7.2). Following the obtained results of binding studies, bovine serum albumin nanoparticles (BSANPs) were synthesized and characterized using Fourier transform infrared spectroscopy (FT-IR), filed emission scanning electron microscopy (FE-SEM), atomic force microscope (AFM) and dynamic light scattering (DLS). The stable BSANPs showed a spherical shape with a diameter of 149.14?±?46.69?nm and the formulation of BSA had no change during the fabrication process. DVH was loaded on BSANPs (DVH@BSANPs) and the release studies showed sustained release of DVH from BSANPs. The validation of DVH@BSANPs system confirmed that the Fickian release mechanism of DVH followed on Korsmeyer–Pepas model. The in vitro studies on HFFF2 and MDA-MB-231 were investigated using MTT assay, DAPI and annexinV/PI staining that showed biocompatible BSANPs reduced the cytotoxicity of DVH in normal cell lines significantly, and antitumor activity of DVH was increased when it was loaded onto BSANPs without necrosis. These results suggest that DVH@BSANPs are a novel biocompatible sustained release system for effective therapeutic approach.

Communicated by Ramaswamy H. Sarma