Zheng-Xiang Xia scite author profile

Zheng-Xiang Xia

2Publications

34Citation Statements Received

73Citation Statements Given

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Tongji University, Shanghai University of Traditional Chinese Medicine

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Bioassay-Guided Isolation of Prenylated Xanthones and Polycyclic Acylphloroglucinols from the Leaves of Garcinia nujiangensis

et al. 2012

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Bioassay-guided fractionation of the acetone extract of the leaves of Garcinia nujiangensis resulted in the isolation of two new prenylated xanthones, nujiangexanthones A (1) and B (2), three new polycyclic polyprenylated acylphloroglucinols, nujiangefolins A-C (3-5), and 10 known related analogues. The structures of compounds 1-5 were elucidated by interpretation of their spectroscopic data. Compounds 3 and 4 are unusual polycyclic polyprenylated acylphloroglucinols in which the enol hydroxy group forms a six-membered ring with a benzene ring carbon. The compounds isolated were evaluated for their cytotoxic effects against 11 cancer cell lines and immortalized MIHA normal liver cells, and the test substances demonstrated selectivity toward the cancer cells. Isojacareubin (6) was found to be the most potent cytotoxic compound of those tested.

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Metabolomics analysis reveals perturbations of cerebrocortical metabolic pathways in the Pah^enu2 mouse model of phenylketonuria

Xia

Guo

et al. 2019

CNS Neurosci Ther

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Aims Phenylketonuria (PKU), which is caused by mutations in the phenylalanine hydroxylase (PAH) gene, is one of the most common inherited diseases of amino acid metabolism. Phenylketonuria is characterized by an abnormal accumulation of phenylalanine and its metabolites in body fluids and brain tissues, subsequently leading to severe brain dysfunction. Various pathophysiological and molecular mechanisms underlying brain dysfunction in PKU have been described. However, the metabolic changes and their impacts on the function of cerebral cortices of patients with PKU remain largely unknown. Methods We measured the levels of small molecule metabolites in the cerebrocortical tissues of PKU mice and wild‐type control mice using liquid chromatography‐mass spectrometry (LC‐MS)‐based metabolome analysis. Differential metabolites were further subjected to metabolic pathway and enrichment analysis. Results Metabolome analysis revealed 35 compounds among 143 detected metabolites were significantly changed in PKU mice as compared to those in their wild‐type littermates. Metabolic pathway and enrichment analysis of these differential metabolites showed that multiple metabolic pathways, including phenylalanine, tyrosine, and tryptophan biosynthesis; valine, leucine, and isoleucine biosynthesis; alanine, aspartate, and glutamate metabolism; purine metabolism; arginine and proline metabolism and methionine metabolism, were impacted in the cerebral cortices of PKU mice. Conclusions The data revealed that multiple metabolic pathways in cerebral cortices of PKU mice were disturbed, suggesting that the disturbances of the metabolic pathways might contribute to neurological or neurodevelopmental dysfunction in PKU, which could thus provide new insights into brain pathogenic mechanisms in PKU as well as mechanistic insights for better understanding the complexity of the metabolic mechanisms of the brain dysfunction in PKU.

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Zheng-Xiang Xia

Bioassay-Guided Isolation of Prenylated Xanthones and Polycyclic Acylphloroglucinols from the Leaves of Garcinia nujiangensis

Metabolomics analysis reveals perturbations of cerebrocortical metabolic pathways in the Pah^enu2 mouse model of phenylketonuria

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Zheng-Xiang Xia

Bioassay-Guided Isolation of Prenylated Xanthones and Polycyclic Acylphloroglucinols from the Leaves of Garcinia nujiangensis

Metabolomics analysis reveals perturbations of cerebrocortical metabolic pathways in the Pahenu2 mouse model of phenylketonuria

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Metabolomics analysis reveals perturbations of cerebrocortical metabolic pathways in the Pah^enu2 mouse model of phenylketonuria