Tianma Gouteng Decoction Exerts Cardiovascular Protection by Upregulating OPG and TRAIL in Spontaneously Hypertensive Rats.

Tianma Gouteng Decoction (TGD) is widely used in traditional Chinese medicine for the treatment of hypertension and its related complications, but its mechanisms remain incompletely defined. We now aim to assess the protective effect of TGD against cardiovascular damage and to investigate its characteristics and underlying mechanisms. Blood pressure was determined in TGD-treated spontaneously hypertensive rats (SHR) by noninvasive measurements. Echocardiography was performed to assess cardiac function and structure and sirius red staining to evaluate cardiac fibrosis, and the degree of vascular remodeling was evaluated. Additionally, vasoconstriction and relaxation factor expression changes were examined by means of ELISA. Protein expression changes were verified by western blot. Compared with untreated SHR, TGD-treated SHR exhibited cardiovascular traits more akin to those of the normotensive Wistar Kyoto (WKY) rats. That is, they had lower diastolic blood pressure, systolic blood pressure and mean BP, and increased expression of vasodilation factor. We also found that TGD reduces ventricular and vascular remodeling and improves cardiac function in SHR. Finally, we tested the antiapoptosis effect TGD exerts in SHR, ostensibly by upregulating the expression of OPG, TRAIL, and death receptor 5 (DR5) and downregulating caspases 8, 7, and 3. TRAIL may also exert antiapoptotic and prosurvival effects by upregulating AKT expression. Therefore, TGD may reverse cardiovascular remodeling in SHR by upregulating the expression of OPG and TRAIL, upregulating AKT, and inhibiting apoptosis, at least in part. For the first time, we have shown that OPG and TRAIL play complimentary cardioprotective roles in SHR.

Tetrapisispora taiwanensis sp. nov. and Tetrapisispora pingtungensis sp. nov., two ascosporogenous yeast species isolated from soil.

Two novel yeast species, Tetrapisispora taiwanensis sp. nov. and Tetrapisispora pingtungensis sp. nov., belonging to the Saccharomycetaceae within the Saccharomycetales, are proposed to accommodate six strains isolated from samples of Taiwanese forest soil between 2005 and 2010. Sequence analysis of the internal transcribed spacer (ITS) and the D1/D2 domains of the large-subunit (LSU) rRNA gene revealed that the two species are phylogenetically closely related to species of the genus Tetrapisispora. Moreover, the assimilation spectrum of carbon and nitrogen sources and morphological characteristics are very similar to those of other Tetrapisispora species. The molecular, morphological and physiological characteristics described above indicate that these two species should be classified as members of the genus Tetrapisispora. The two species can be differentiated from each other and from other Tetrapisispora species based on their LSU D1/D2 rRNA gene and ITS sequences. Thus, the two species could be regarded as novel species of the genus Tetrapisispora, and the names Tetrapisispora taiwanensis sp. nov. (type strain SJ6S04(T) =CBS 10586(T) =NBRC 102652(T) =BCRC 23090(T)) and Tetrapisispora pingtungensis sp. nov. (type strain NC2S06(T) =CBS 12780(T) =BCRC 23409(T)) are proposed. The type strains of the two species were isolated from forest soil in Leinhuatsu Park, Nantou, in 2006 and from Hungchun, Pingtung, in 2009, respectively.

Five novel species of the anamorphic genus Candida in the Cyberlindnera clade isolated from natural substrates in Taiwan.

Twelve strains representing five novel yeast species were isolated from natural samples distributed in mountain areas in Taiwan during 2007 and 2009. Sequence analysis of the D1/D2 domain of the large subunit (LSU) rRNA gene revealed that these species are members of the Cyberlindnera clade. These five new species have a greater than 1% difference from their closest relatives in the sequences of the D1/D2 domain of the LSU rRNA gene and were well separated from their closest relatives in terms of physiological characteristics. Moreover, a sexual state could not be found in these five novel yeast species. Therefore, the scientific names of Candida maesa sp. nov. (type strain GJ8L01(T)), Candida takata sp. nov. (type strain EN25S01(T)), Candida taoyuanica sp. nov. (type strain GY15S07(T)), Candida hungchunana sp. nov. (type strain NC3W71(T)) and Candida stauntonica sp. nov. (type strain GY13L05(T)) were proposed to accommodate these yeasts.

Candida theae sp. nov., a new anamorphic beverage-associated member of the Lodderomyces clade.

Four strains representing a novel yeast species belonging to the genus Candida were independently isolated in Taiwan and Ecuador. Two strains (G17(T) and G31) were isolated in Taiwan, by pellet precipitation from plastic-bottled tea drinks produced in Indonesia, while two additional strains (CLQCA 10-049 and CLQCA 10-062) were recovered from ancient chicha fermentation vessels found in tombs in Quito, Ecuador. These four strains were morphologically, and phylogenetically identical to each other. No sexual reproduction was observed on common sporulation media. Large-subunit (LSU) rRNA gene sequence analysis revealed the four strains to belong to the Lodderomyces clade, closely related to members of the Candida parapsilosis species complex. The four strains, which have identical LSU D1/D2 sequences, differ from their closest phylogenetic neighbors, Candida orthopsilosis and Candida parapsilosis, by 6-9 nt substitutions, respectively. Physiologically, the four strains are similar to Candida parapsilosis, although they can be distinguished from their closest relative by the assimilation of arbutin, nitrite, and creatine. The Indonesian and Ecuadorian strain sets can also be distinguished from one another based on ITS sequencing, differing by 4 substitutions in ITS1 and 1 single nucleotide indel in ITS2. Collectively, the results indicate that the four strains represent a previously unrecognized species of Candida. The name Candida theae sp. nov. is proposed to accommodate these strains, with G-17(T) (BCRC 23242(T)=CBS 12239(T)=ATCC MYA-4746(T)) designated as the type strain.

Kloeckera taiwanica sp. nov., an ascomycetous apiculate yeast species isolated from mushroom fruiting bodies.

Three apiculate yeast strains, EJ7M09(T), GJ5M15 and GJ15M04, isolated from mushrooms in Taiwan were found to represent a novel species of the genus Kloeckera. The phylogenetically closest relative of this novel species is Hanseniaspora occidentalis, but the type strain of H. occidentalis differed by 4.6 % divergence (25 substitutions; 5 gaps) in the sequence of the D1/D2 domain of the large subunit rRNA gene. This difference clearly suggests that the three strains represent a distinct species. As none of the strains that were examined in this study produced ascospores or exhibited conjugation on common sporulation medium either alone or in a pairwise mixture, this species could be considered as an anamorphic member of the genus Hanseniaspora, and a novel species, Kloeckera taiwanica sp. nov., is proposed, with EJ7M09(T) ( = BCRC 23182(T) = CBS 11434(T)) as the type strain.

Oral administration of 5-methoxypsoralen affects the distribution and metabolism of 2-aminofluorene in Sprague-Dawley rats.

BACKGROUND: The effects of 5-methoxypsoralen (5-MOP) on the distribution and metabolism of chemical carcinogens such as 2-aminofluorene (AF) has not been previously reported. In this study, the influences of 5-MOP on the metabolism of AF in Sprague-Dawley (SD) rats were investigated. MATERIALS AND METHODS: After receiving 5-MOP in 24 hours, AF was introduced into each animal by gastric intubation. After 12, 24, 48 and 72 hours the urine, feces, and cytosol of the liver, kidneys, stomach, colon, bladder and blood of rats were collected and assayed for AF and its metabolites by HPLC. RESULTS: Compared to the control regimen, 5-MOP caused an increase of the metabolites excreted in urine and feces. The largest dose of metabolites were excreted between 48-72 hours. The major metabolite excreted in the urine was 9-hydroxy-AAF (9-OH-AAF) and in the feces was 7-hydroxy-AAF (7-OH-AAF). There was no time-effect for the tissues, and the liver was the main target organ for the AF and its metabolites. The major residual metabolite of AF in the liver, kidneys, stomach, colon and bladder was 7-OH-AAF. In blood it was 9-OH-AAF. The bladder had the lowest metabolic residue in tissues, and blood played the role of transportation but was not the target organ. 5-MOP decreased the concentration of AF and its residual metabolites of liver, stomach, kidneys, bladder and blood at various times. CONCLUSION: 5-MOP increased the metabolism of AF in order to transform to ring-hydroxylated metabolites and increased excretion of the ring-hydroxylated metabolites, therefore decreasing AF and its residual metabolites in vivo. Although 5-MOP was shown to be an inhibitor of CYP 2A6 and CYP 2B1, somehow it causes an increase of activity in AF metabolism in vivo; it induces more CYPs involved in the metabolism of AF.