Clinical-grade Garcinia cambogia extract dissolves calcium oxalate crystals in Drosophila kidney stone models.

OBJECTIVE: Kidney stone formers have a high rate of stone recurrence after kidney stone removal surgery and there is no effective medication for treatment. Hydroxycitric acid (HCA), which is the major component of Garcinia cambogia extract, can dissolve calcium oxalate crystals in vitro, suggesting that Garcinia cambogia could be used to treat calcium oxalate kidney stone. In this study, we used the Drosophila kidney disease model to evaluate the effect of Garcinia cambogia on the prevention and removal of calcium oxalate stones in vivo. MATERIALS AND METHODS: Flies were reared in fly food containing different concentrations of GCE for one week. The effect of GCE on preventing the formation of calcium oxalate stone was examined. WT and v-ATPase gene RNAi knockdown flies were reared in fly food with 0.3% NaOx for one week, then fed different concentrations of GCE for one week. The effect of GCE on the removal of calcium oxalate stone was examined. RESULTS: Garcinia cambogia extract dissolves calcium oxalate crystals from Malpighian tubules in both genetic and non-genetic Drosophila kidney stone models compared to citric acid. Hydroxycitric acid also directly dissolves calcium oxalate crystals in Drosophila Malpighian tubules ex vivo. CONCLUSIONS: Garcinia cambogia extract removes calcium oxalate kidney stones from Drosophila Malpighian tubules via directly dissolving calcium oxalate stones by HCA. Our study strongly suggests that clinical-grade Garcinia cambogia extract could be used to treat patients with nephrolithiasis in the future.

Pharmacokinetic and tissue distributions study of adenosine, 4-hydroxybenzyl alcohol and Parishin C from Gastrodia elata extract in rats.

The plant Gastrodia elata is a type of the orchid plant Gastrodia elata Bl. which contains glycosides, phenols, polysaccharides, sterols, and organic acids and a variety of active ingredients are proved to have certain pharmacological activities. To understand the process in the body of Gastridua elata, we used HPLC to study pharmacokinetics and tissue distributions of adenosine, 4-hydroxybenzyl alcohol and Parishin C in rats. The results showed that the three ingredients could be detected in plasma and different organizations at various time points. There was no significant difference in systemic clearance at three ingredients and it may be show that the three ingredients distributed (0.475±0.025, 0.518±0.033, 0.699±0.051) quickly and eliminated (5.37±0.87, 4.54±0.69, 5.34±0.82) slowly in plasma. There was the highest content of adenosine in spleen, followed by liver and lung. The highest content of 4-hydroxybenzylacohol in liver, and was higher in spleen. Parishin C was highest in heart, followed by liver and spleen. It is obvious that the contents of three ingredients are all higher in liver. The trends of the three ingredients' contents in G. rhizome extract were consistent with the contents in the plasma after intravenous administration.

Secreted Citrate Serves as Iron Carrier for the Marine Pathogen Photobacterium damselae subsp damselae.

Photobacterium damselae subsp damselae (Pdd) is a Vibrionaceae that has a wide pathogenic potential against many marine animals and also against humans. Some strains of this bacterium acquire iron through the siderophore vibrioferrin. However, there are virulent strains that do not produce vibrioferrin, but they still give a strong positive reaction in the CAS test for siderophore production. In an in silico search on the genome sequences of this type of strains we could not find any ORF which could be related to a siderophore system. To identify genes that could encode a siderophore-mediated iron acquisition system we used a mini-Tn10 transposon random mutagenesis approach. From more than 1,400 mutants examined, we could isolate a mutant (BP53) that showed a strong CAS reaction independently of the iron levels of the medium. In this mutant the transposon was inserted into the idh gene, which encodes an isocitrate dehydrogenase that participates in the tricarboxylic acid cycle. The mutant did not show any growth impairment in rich or minimal media, but it accumulated a noticeable amount of citrate (around 7 mM) in the culture medium, irrespective of the iron levels. The parental strain accumulated citrate, but in an iron-regulated fashion, being citrate levels 5-6 times higher under iron restricted conditions. In addition, a null mutant deficient in citrate synthase showed an impairment for growth at high concentrations of iron chelators, and showed almost no reaction in the CAS test. Chemical analysis by liquid chromatography of the iron-restricted culture supernatants resulted in a CAS-positive fraction with biological activity as siderophore. HPLC purification of that fraction yielded a pure compound which was identified as citrate from its MS and NMR spectral data. Although the production of another citrate-based compound with siderophore activity cannot be ruled out, our results suggest that Pdd secretes endogenous citrate and use it for iron scavenging from the cell environment.

Discovery and characterization of NK13650s, naturally occurring p300-selective histone acetyltransferase inhibitors.

The histone acetyltransferase (HAT) activity of p300 is essential for androgen receptor (AR) function. Androgen-independent prostate cancer cells require AR-mediated transcriptional activation for their growth. These observations indicate that p300 HAT is a promising target to overcome such hormone-resistant cancer cells. We sought p300 HAT inhibitors among microbial metabolites. By culturing a production strain belonging to Penicillium, we identified two new compounds, NK13650A and NK13650B, which were obtained as specific p300 HAT inhibitors. Structural analyses of these compounds elucidated that NK13650s have novel chemical structures comprising several amino acids and citrate. We applied a newly developed biosynthesis-based method to reveal the absolute configuration at the citrate quaternary carbon. This was accomplished by feeding a (13)C-labeled biosynthetic precursor of citrate. NK13650s selectively inhibited the activity of p300 HAT but not that of Tip60 HAT. NK13650s showed inhibitory activity against agonist-induced AR transcriptional activation, and NK13650A treatment inhibited hormone-dependent and -independent growth of prostate cancer cells.

Evaluation of different column types for the hydrophilic interaction chromatographic separation of iron-citrate and copper-histidine species from plants.

Hydrophilic interaction chromatography (HILIC) has emerged as a very useful separation method for polar analytes, including non-covalent metal species. Several types of stationary phases are available for HILIC applications, differing mainly in their chemical functionalities that supply additional interaction modes and alternative selectivities for the separation of special analytes. With regard to the separation of metal species only few of these stationary phases have been applied to date, and it is not completely clear what are their differences with respect to the chromatographic separation of metal species, but also with respect to species stability during chromatography. Here, a comparison of different column types for the HILIC separation of iron citrate and copper histidine species is presented and the results are discussed with respect to retention mechanisms and chromatographic stability of these metal species. It is shown that different stationary phases display very different separation patterns. In particular, three types of HILIC columns enable successful separation of iron citrates and copper histidine at pH 5.5, namely a crosslinked diol phase, a zwitterionic phase, and an amide phase. Two groups of iron-citrates are separated on all three columns, consisting of a species of 3:3 stoichiometry and another one of mainly 3:4 stoichiometry (plus 1:2 and 2:2 species). For copper-histidine only one stable species is found based on the 1:2 stoichiometry. Detection and unambiguous identification of the different species is possible by employing electrospray mass spectrometry in the negative ionization mode. Species found in standard solutions are consistent with species found in spiked plant samples. Also in unspiked solutions iron citrate of 3:4 stoichiometry (plus 1:2 and 2:2) is detectable, but no species of 3:3 stoichiometry. Significant differences of related species patterns are found in real plant samples.

Vibrioferrin, an unusual marine siderophore: iron binding, photochemistry, and biological implications.

Vibrioferrin (VF) is a member of the carboxylate class of siderophores originally isolated from Vibrio parahaemolyticus, an enteropathogenic estuarine bacterium often associated with seafood-borne gastroenteritis. Recently we have also isolated this siderophore from several species of Marinobacter, which are closely associated or "symbiotic" with toxic, bloom-forming dinoflagellates such as Gymnodinium catenatum. We have measured the overall metal-ligand binding constant for iron-vibrioferrin (FeVF) as 10(24.02(5)) making vibrioferrin one of the weakest iron chelators of any known marine siderophore. FeVF is also shown to be considerably more sensitive to photolysis under relatively low illumination conditions than other photoactive siderophores leading primarily to a monodecarboxylated photoproduct that has no significant affinity for Fe(III). The consequences that these features have on bacterial-algal interactions with potential importance to understanding the origin and sustenance of harmful algal blooms are discussed.

Nannochelins A, B and C, new iron-chelating compounds from Nannocystis exedens (myxobacteria). Production, isolation, physico-chemical and biological properties.

Novel citrate-hydroxamate siderophores, named nannochelins A, B and C, were isolated from the culture broth of the myxobacterium Nannocystis exedens strain Na e485. The new substances showed weak growth-inhibitory activity against some bacteria and fungi.

Isolation of 2-fluorocitrate produced by in vivo dealkylation of 29-fluorostigmasterol in an insect.

A novel pro-insecticide, 29-fluorostigmasterol, is proposed to cause mortality due to release of fluoroacetate during side chain dealkylation. The 29-3H-labeled substrate was fed to third instar tobacco hornworms (Manduca sexta) and erythro-2-fluoro-[2-3H] citrate was isolated in 0.012% yield by ion-exchange, silica gel, and reverse-phase chromatography of the tricarboxylic acid, trimethyl ester, and trimethyl ester benzoate, respectively. The less toxic 29-fluoro-[29-3H]sitosterol did not provide sufficient labeled fluorocitrate to allow isolation, while a more toxic 16-3H-labeled 16-fluorofatty acid gave nearly 1% conversion to labeled fluorocitrate. This is the first direct chemical evidence for the fate of the two carbons removed during phytosterol dealkylation in an insect. It is also the first use of labeled fluoroacetate precursors to identify labeled 2-fluorocitrate as an in vivo metabolite of these precursors.