Albrecht F. Kiderlen

Abietane diterpenoids and triterpenoic acids from Salvia cilicica and their antileishmanial activities

Bioguided-fractionation of an acetone extract of the roots of Salvia cilicica (Lamiaceae) led to isolation of two new diterpenes, 7-hydroxy-12-methoxy-20-nor-abieta-1,5(10),7,9,12-pentaen-6,14-dione and abieta-8,12-dien-11,14-dione (12-deoxy-royleanone), together with oleanolic acid, ursolic acid, ferruginol, inuroyoleanol and cryptanol. Their structures were determined spectroscopically, which included HREIMS and 2D NMR spectroscopic analysis. The new abietane derivatives showed appreciable in vitro antileishmanial activity against intracellular amastigote forms of both Leishmania donovani (IC(50) values of 170 and 120 nM, respectively) and Leishmania major (IC(50) values of 290 and 180 nM, respectively). The triterpenoic acids were found to be potently active against amastigote (IC(50) values of 7-120 nM) and moderately active against promastigote stages (IC(50) values of 51-137 nM) of the two Leishmania species.

Natural Products as potential antiparasitic drugs.

Abstract Pharmaceutical research in natural products represents a major strategy for discovering and developing new drugs. The use of medicinal plants for the treatment of parasitic diseases is well known and documented since ancient times e.g. by the use of Cinchona succiruba (Rubiaceae) as an antimalarial. This chapter provides a comprehensive review of the latest results in the field of antiparasitic drug development from biologic sources (plants, bacteria, fungi and marine organisms) focussing on the treatment of protozoal infections ( Plasmodium, Leishmania, Trypanosoma spp.). The status of validated in vitro and in vivo assays is reviewed, discussing theirdifferent features, problems and limitations. Because of the high number of natural products tested against the aforesaid protozoa in the last years, we limit the discussion to lignans, phenolics, terpenoids, and alkaloids as defined natural product classes. The review also covers essential research topics of recent publications on specific natural products (e.g. licochalcone A, benzyl- and naphthylisoquinoline alkaloids, and artemisinin) and gives an outlook to semi-synthetic approaches of drugsalready introduced in clinics or in clinical trial studies.

A highly sensitive cytotoxicity assay based on the release of reporter enzymes, from stably transfected cell lines

The well-established methods of generating stably transfected cell lines, and the detection of nanomolar amounts of an enzyme in a fast and reproducible assay, were utilised to establish non-radiometric cytotoxicity assays. In these assay systems, the detection of released enzymes was used to quantitate the leakage of intracellular proteins after membrane disintegration. Target cell lines were transfected with a luciferase reporter gene under the control of a strong eucaryotic promoter. Release of the intracellular expressed enzyme into the culture supernatant occurred after membrane perforation and was measured as an indicator of cellular death. The quantitation of released enzyme was a reliable indicator of cell death initiated either by complement-mediated killing, or by cell-mediated cytotoxicity. This system was initially established with P815 mastocytoma cells as an example of a target cell line. Transfection with the firefly luciferase gene provided an intracellular enzyme absent in mammalian cells. In a parallel approach, P815 and BW5147 target cells were transfected with bacterial beta-galactosidase to provide a similar cytotoxicity system. This enzyme, however, has a considerably longer half life in tissue culture medium than luciferase. In a direct comparison between the standard 51Cr release and beta-galactosidase release, the enzyme release showed a much higher signal-to-noise ratio, i.e., low background and high induced release if spontaneous release and detergent induced maximal lysis were measured. Since a wide range of human and murine cell lines can be stably transfected and several reporter genes are available, the system should provide an alternative for conventional cytotoxicity assays. The detection of released enzymes by colorimetric or luminometric methods makes this cytotoxicity assay independent of radionuclides. The sensitivity of luminometric enzyme detection systems should also permit the measurement of apoptotic processes and might make in vivo studies of cellular death using transgenic animals feasible.

Leishmania major infection in C57BL/10 mice differing at the Lps locus: a new non-healing phenotype.

Abstract The course of cutaneous leishmaniasis was examined in mice from two genetically closely related strains, C57BL/10ScCr (Cr) and C57BL/10ScSn (Sn). Sn mice are able to heal Leishmania major infections, while Cr mice are unable to heal. The cutaneous lesions of the Cr mice progressed continuously and the increase in lesion size was paralleled by an unrestricted growth of the parasites in vivo. Cr mice, in contrast to their Sn counterparts, are highly resistant to all effects of lipopolysaccharide (LPS). The nonhealing L. major infection in Cr mice is in sharp contrast to the course of infection in another endotoxin-nonresponder mouse strain, C3H/HeJ, which heal infections with L. major. Cr mice exhibit, in addition to the defective LPS responsiveness, an impaired interferon-γ (IFN-γ) response after infection with a variety of microorganisms. The insufficient activation of parasitized macrophages to kill intracellular L. major could be due to the inability of splenocytes from infected Cr mice to secrete IFN-γ upon restimulation with L. major. IFN-γ is essential for the efficient activation of parasitized macrophages to kill intracellular L. major by producing nitric oxide (NO). Although bone marrow-derived Cr macrophages do not produce NO in response to LPS, both Sn and Cr macrophages release NO upon stimulation with IFN-γ and tumor necrosis factor, indicating that they are responsive to activation by these cytokines.

Evaluation of sage phenolics for their antileishmanial activity and modulatory effects on interleukin-6, interferon and tumour necrosis factor-α-release in RAW 264.7 cells

Abstract A series of sage phenolics was tested for activity against a panel of Leishmania parasites and for immunomodulatory effects on macrophage functions including release of tumour necrosis factor (TNF), interleukin-6 (IL-6), and interferon (IFN)-like activities. For this, functional bioassays were employed including an in vitro model for leishmaniasis in which macrophage- like RAW 264.7 cells were infected with Leishmania parasites, an extracellular Leishmania growth-inhibition assay, a fibroblast-lysis assay for TNF-activity, a cell proliferation assay using IL-6 sensitive murine B9 hybridoma cells, and a virus protection assay for IFN-like activity. Whereas none of the test samples exhibited marked activities against extracellular Leishmania promastigotes (IC50 > 700 to > 2800 nм; > 500 μg/ml), caffeic acid, salvianolic acids K and L as well as the methyl ester of salvianolic acid I showed pronounced antileishmanial activities against intracellular amastigote stages within RAW cells (IC50 3-23 nм vs. 10-11 nм for the reference Pentostam®). Noteworthy, the phenolic samples showed no cytotoxicity against the host cells (IC50 > 600 to > 2200 nм; > 400 μg/ml). Tested sage phenolics activated Leishmania-infected RAW 264.7 for release of TNF ranging 22-117 U/ml and IL-6 ranging 3-42 U/ml. In contrast, their TNF- or IL-6-inducing potential in experiments with non-infected host cells was negligible. Furthermore, caffeic acid and salvianolic acid K induced a modest release of IFN-like activity (5-9 and 2-4 U/ml, respectively) as reflected by inhibition of the cytopathic effect of encephalomyocarditis virus on L929 cells. The results support the emerging picture that plant polyphenols may be credited for the profound healthbeneficial properties of various herbal medicines and agricultural products.

Delivery of amphotericin B nanosuspensions to the brain and determination of activity against Balamuthia mandrillaris amebas

Amphotericin B was formulated as nanosuspensions to develop a nanoparticulate brain delivery system. Nanosuspensions were produced with different surfactant solutions by high-pressure homogenization and then characterized by laser diffractometry and photon correlation spectroscopy. Before in vitro and in vivo testing all nanosuspensions were investigated for protein adsorption by two-dimensional polyacrylamide gel electrophoresis to predict brain-targeting capacities. Selected nanosuspensions were tested for amebicidal activity against Balamuthia mandrillaris, an agent of lethal encephalitis. Our results indicate that nanosuspensions coated with polysorbate 80 and sodium cholate markedly increased drug brain delivery and inhibited the parasite in vitro, though less in vivo. From the clinical editor: The antifungal Amphotericin B was formulated as nanosuspensions to develop a nanoparticulate brain delivery system. The results indicate that nanosuspensions coated with polysorbate 80 and sodium cholate markedly increased drug brain delivery and inhibited the parasite in vitro, though less in vivo.

Intracellular parasite kill: flow cytometry and NO detection for rapid discrimination between anti-leishmanial activity and macrophage activation.

Transgenic Leishmania expressing fluorescent reporter proteins such as green fluorescent protein (GFP) have opened the way for a flow cytometry (FACS)-based method to assess the killing of Leishmania parasites inside their macrophage host. Compared with counting parasites in microscopic preparations, the assessment of anti-leishmanial effects by FACS analysis promises both strict objectivity and significant reduction of labour-per-sample while scanning thousands of cells within seconds. Compared with other semi-automated methods based on host cell lysis and biochemical quantification of released parasites, the procedure is more direct and simple, reducing handling artefacts. An assay system is described using highly pure murine bone marrow-derived macrophages infected in vitro as a suspension culture with GFP-transfected Leishmania major promastigotes. The cells were rested for 24 h, allowing intracellular promastigotes to transform into amastigotes, and then exposed to macrophage-activating agents (IFN-gamma, LPS) or standard anti-leishmanial therapeutics. Within 48 h, the GFP signal from parasitized macrophages became indiscernible by FACS analysis, both in activated host cells and in cultures treated with the anti-leishmanials. In cultures activated with rIFN-gamma+LPS this coincided with the release of nitric oxides, but this was not the case in cultures treated with anti-leishmanials. Furthermore, by adding propidium iodide immediately before FACS analysis, the effect of treatment on the viability of the host cell was assessed at the same time. The combination of FACS analysis, and PI and NO detection offers a rapid and objective means of testing for intracellular anti-leishmanial effects and general cytotoxicity and gives a first indication of whether the former is due to direct leishmanicidal activity or indirect functions via macrophage activation.

Activation and Suppression of Natural Cellular Immune Functions by Pneumocystis carinii

The regulatory role of soluble cytokines in innate cellular immune responses induced by Pneumocystis carinii was assessed in vitro in direct comparison to induction by Listeria monocytogenes. This report shows that P. carinii organisms, as well as L. monocytogenes, stimulated in whole spleen cell cultures of SCID mice the release of IFN-gamma, TNF-alpha/beta, IL-10, IL-12, and iNO. This response was independent of functional T cells. Both macrophages (M phi) and natural killer (NK) cells were necessary for either microorganism to induce release of these cytokines. Cocultures of purified M phi--including alveolar M phi--and purified NK cells indicated that no other cell population was necessarily involved. Microbial induction of NK cell-derived IFN-gamma has been reported to be mediated by the combined effects of TNF-alpha and IL-12 released by M phi upon adequate microbial stimulation. Interestingly, only L. monocytogenes, but not P. carinii organisms could directly induce detectable amounts of TNF-alpha/beta, IL-12, or iNO in purified M phi cultures. In dose-response experiments, release of IFN-gamma, TNF-alpha/beta, and iNO was reduced at high relative concentrations of either microorganism. This high-dose suppression was at least partially controlled by M phi-produced IL-10. Our data show that, P. carinii potently induces activating and inhibitory innate cellular immune response mechanisms and indicate that the initial step of macrophage-mediated NK cell activation might also involve other pathways than those described to date.

Functional heterogeneity of murine macrophage precursor cells from spleen and bone marrow

We previously reported that highly purified bone marrow-derived macrophage precursors can exert strong spontaneous cytotoxicity against YAC-1 tumor cells, Candida albicans, and protozoa of the genus Leishmania. In the present paper, evidence is shown that macrophage precursors in normal untreated mice are not confined to the bone marrow compartment but can also be found in the spleen. These organ-associated cells, which have the same buoyant density as large granular lymphocytes, have been positively sorted by means of an indirect rosetting technique employing the macrophage-specific monoclonal antibodies F4/80 and M143. The rosetting fractions represented an extremely homogeneous population of macrophage precursors characterized by high candidacidal and natural killer activity and by a strong proliferative response to the macrophage-specific colony-stimulating factor CSF-1. Spleen- and bone marrow-derived macrophage precursors differed in their target selectivity. In addition, the mature macrophages derived in vitro from these two precursor populations displayed striking differences in their candidacidal activity. The implications of these findings in relationship to heterogeneity in the macrophage differentiation line are discussed.

Stimulus (polyphenol, IFN-γ, LPS)-dependent nitric oxide production and antileishmanial effects in RAW 264.7 macrophages

The effects of interferon (IFN-gamma), lipopolysaccharide (LPS), and some polyphenols as individual stimuli, as well as in various combinations on NO production in non-infected and infected macrophage-like RAW 264.7 cells were investigated, with emphasis on the NO/parasite kill relationship. In non-infected and in Leishmania parasitized cells, gallic acid significantly inhibited the IFN-gamma and LPS-induced NO detected in the supernatant. This effect was less prominent in IFN-gamma- than in LPS-stimulated cells. Interestingly, and in contrast to non-infected cells, gallic acid inhibited NO production only when added within 3h after IFN-gamma+LPS. Addition of gallic acid following prolonged incubation with IFN-gamma+LPS periods (24 h) no longer inhibited, sometimes even enhanced NO release. Notably, an excellent NO/parasite kill relationship was evident from all the experiments. This study was extended to a series of polyphenols (3-O-shikimic acid, its 3,5-digalloylated analogue, catechin, EGCG, and a procyanidin hexamer) with proven immunostimulatory activities. Although these compounds themselves were found to be weak NO-inducers, the viability of intracellular Leishmania parasites was considerably reduced. Furthermore, their dose-dependent effects on macrophage NO release was determined in the presence of IFN-gamma and/or LPS. Again, non-infected and infected cells differed significantly in the NO response, while inhibition of IFN-gamma and/or LPS-induced NO production by the tested polyphenols strongly depended on the given time of exposure and the sequence of immunological stimuli. A strong inverse correlation between NO levels and intracellular survival rates of Leishmania parasites supported the assumption that the observed inhibition of NO was not simply due to interference with the Griess assay used for detection.