A comparative study on the anti-inflammatory,antinociceptive and antipyretic effects of isoquinoline alkaloids from the roots of Turkish Berberis species

Roots and barks of various Berberis species are used as folk remedy for the treatment of various inflammatory diseases such as lumbago, rheumatism and to reduce fever. Six isoquinoline alkaloids namely berberine, berbamine, palmatine, oxyacanthine, magnoflorine, and columbamine were isolated as the main components of alkaloidal fraction from the roots of Turkish Berberis species and effects were studied using various in vivo models in mice. All alkaloids inhibited inflammations in varying degrees, among them berberine, berbamine and palmatine were shown to possess significant and dose-dependent inhibitory activity against serotonin-induced hind paw oedema both on oral and topical applications and acetic acid-induced increase in vascular permeability on oral administration. Moreover, these three alkaloids were also shown to possess dose-dependent antinociceptive activity, which assessed by using the model based on the inhibition of p-benzoquinone-induced writhing movements as well as antipyretic activity on FCA-induced increased rectal temperature on subacute administration. However, all alkaloids induced gastric lesions in varying degrees.     

Interaction of isoquinoline alkaloid palmatine with deoxyribonucleic acids: binding heterogeneity, and conformational and thermodynamic aspects

The binding heterogeneity, conformational aspects, and energetics of the interaction of the cytotoxic plant alkaloid palmatine have been studied with various natural and synthetic DNAs. The alkaloid binds to calf thymus and Escherichia coli DNA that have mixed AT and GC sequences in almost equal proportions with positive cooperativity, while, with Clostridium perfringens and Micrococcus lysodeikticus DNA with predominantly high AT and GC sequences, respectively, noncooperative binding was observed. On further investigation with synthetic DNAs, the binding was observed to be cooperative with polymers like poly(dA).poly(dT) and poly(dG).poly(dC) having poly(purine)poly(pyrimidine) sequences, while with polymers poly(dA-dT).poly(dA-dT), poly(dA-dC).poly(dG-dT) and poly(dG-dC).poly(dG-dC), which have alternating purine-pyrimidine sequences, a non-cooperative binding phenomenon was observed. This suggests the binding heterogeneity of palmatine to the two types of sequences of base pairs. Circular dichroism (CD) studies revealed that the binding induced conformational changes in all the DNAs, but more importantly, the bound alkaloid molecules acquired induced optical activity, and the extent was dependent on the AT content and showed AT base-pair specificity. Energetics of the interaction of the alkaloid studied by highly sensitive isothermal titration calorimetry revealed that the binding was in most cases exothermic and favored by both enthalpy and entropy changes, while, in the case of the homo and hetero AT polymers, the same was predominantly entropy-driven. This study defines base-pair-dependent heterogeneity, conformational aspects, and energetics of palmatine binding to DNA.     

Molecular aspects on the specific interaction of cytotoxic plant alkaloid palmatine to poly(A)

The interaction of the protoberberine alkaloid palmatine with single and double stranded structures of poly(A) was studied by various biophysical techniques. Comparative binding studies were also performed with double stranded DNA, t-RNA, poly(C)·poly(G), poly(U) and poly(C). The results of competition dialysis, fluorescence, and absorption spectral studies converge to reveal the molecular aspects of the strong and specific binding of palmatine to single stranded poly(A). The binding affinity of palmatine to natural DNA, t-RNA and double stranded poly(A) was weaker while no binding was apparent with single stranded poly(U), poly(C) and double stranded poly(C)·poly(G). The strong affinity of the alkaloid to single stranded poly(A) in comparison to the double stranded structure was also revealed from circular dichroic and viscometric studies. The effect of [Na⁺] ion concentration on the binding process revealed the significant role of electrostatic forces in the complexation. The presence of bound alkaloid also remarkably affected denaturation–renaturation of stacked helical poly(A). The energetics of the strong binding to poly(A) was studied from thermodynamic estimation from van Hoff’ analysis of the temperature dependent binding constants and ultra sensitive isothermal titration calorimertry, both suggesting the binding to be exothermic and enthalpy driven. This study provides detailed insight into the binding specificity of the natural alkaloid to single stranded poly(A) over several other single and double stranded nucleic acid structures suggesting its potential as a lead compound for RNA based drug targeting.     

Interaction of Isoquinoline Alkaloids with Polymorphic DNA Structures

The interaction of berberine, palmatine, and coralyne with the B, Z, and H^L form of poly[d(G‐C)] was studied. Berberine and palmatine showed moderate binding to the B form, while coralyne showed higher binding, as revealed from spectroscopic and thermodynamic data. Berberine and coralyne binding to the B form was exothermic and enthalpy‐driven, while palmatine showed exothermic binding which was favored by both negative enthalpy and negative entropy changes. Berberine and palmatine neither bind nor converted the Z‐form structure to B form. Coralyne, on the other hand, exhibited a strong binding affinity to Z DNA structure that was enthalpy‐driven. Berberine binding to the H^L form was cooperative, exothermic, and favored by both negative enthalpy and negative entropy changes with the formation of an induced CD band. Palmatine showed weak binding, while coralyne showed a strong binding with the H^L form. The structural differences in the isoquinoline alkaloids appear to influence the affinity and mode of interactions with these polymorphic DNA structures.     

用双波长薄层层析扫描法测定中药黄柏中小檗碱等生物碱含量的研究

本文以乙酸异戊酯—无水乙醇—甲酸(7:1:2)作展开剂,用双波长薄层扫描法测定了三种不同来源以及同种来源而产地不同黄柏药材中小檗碱及巴马汀含量,并评价黄柏质量。     

Integrating in vitro and in silico approaches to evaluate the “dual functionality” of palmatine chloride in inhibiting and disassembling Tau-derived VQIVYK peptide fibrils

Background

Alzheimer's disease (AD) is the most common neurodegenerative disorder which is characterized by the deposits of intra-cellular tau protein and extra-cellular amyloid-β (Aβ) peptides in the human brain. Understanding the mechanism of protein aggregation and finding compounds that are capable of inhibiting its aggregation is considered to be highly important for disease therapy.