Zengjiao Liu scite author profile

Zengjiao Liu

5Publications

21Citation Statements Received

155Citation Statements Given

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143

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Harbin Medical University

Publications

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Genetic predisposition to impaired metabolism of the branched chain amino acids, dietary intakes, and risk of type 2 diabetes

Wang

Liu

et al. 2021

Genes Nutr

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Background and objectives Circulating branched chain amino acids (BCAAs) increase the risk of type 2 diabetes (T2D). The genetic variants in the BCAA metabolic pathway influence the individual metabolic ability of BCAAs and may affect circulating BCAA levels together with dietary intakes. So, we investigated whether genetic predisposition to impaired BCAA metabolism interacts with dietary BCAA intakes on the risk of type 2 diabetes and related parameters. Methods We estimated dietary BCAA intakes among 434 incident T2D cases and 434 age-matched controls from The Harbin Cohort Study on Diet, Nutrition and Chronic Non-Communicable Diseases. The genetic risk score (GRS) was calculated on the basis of 5 variants having been identified in the BCAA metabolic pathway. Multivariate logistic regression models and general linear regression models were used to assess the interaction between dietary BCAAs and GRS on T2D risk and HbA1c. Results Dietary BCAAs significantly interact with metabolism related GRS on T2D risk and HbA1c (p for interaction = 0.038 and 0.015, respectively). A high intake of dietary BCAAs was positively associated with diabetes incidence only among high GRS (OR 2.40, 95% CI 1.39, 4.12, P for trend = 0.002). Dietary BCAAs were associated with 0.14% elevated HbA1c (p = 0.003) and this effect increased to 0.21% in high GRS (p = 0.003). Furthermore, GRS were associated with 9.19 μmol/L higher plasma BCAA levels (p = 0.006, P for interaction = 0.015) only among the highest BCAA intake individuals. Conclusions Our study suggests that genetic predisposition to BCAA metabolism disorder modifies the effect of dietary BCAA intakes on T2D risk as well as HbA1c and that higher BCAA intakes exert an unfavorable effect on type 2 diabetes risk and HbA1c only among those with high genetic susceptibility.

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Dietary tryptophan and the risk of obesity and type 2 diabetes: Total effect and mediation effect of sleep duration

Wang

Liu

et al. 2022

Obesity

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During the past three decades, the prevalence of obesity and type 2 diabetes (T2D) has risen dramatically, with over 650 million people with obesity and 422 million people with diabetes according to the World Health Organization, which is expected to bring colossal strain to global health care (1). There is compelling evidence that diet along with other lifestyle factors is important for the prevention of obesity and T2D (2,3). The Global Burden of Disease consortium concluded that improper diet is responsible for more risk of obesity and T2D than any other risk factor globally, including smoking (4). Therefore, dietary management was suggested to be an efficient way to mitigate the burden of these diseases.Tryptophan, an essential amino acid that cannot be endogenously synthesized and thus needs to be supplied by diet, plays a key role in protein synthesis and multiple metabolic functions.Tryptophan is the sole precursor of biologically active compounds such as serotonin (5), which has been suggested to be involved in appetite and weight regulation and to modify the risk for obesity and eating disorders in numerous epidemiological studies (6,7). Previous

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Folic acid oversupplementation during pregnancy disorders lipid metabolism in male offspring via regulating arginase 1-associated NOS3-AMPKα pathway

et al. 2022

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Evaluation of liver tissue extraction protocol for untargeted metabolomics analysis by ultra‐high‐performance liquid chromatography/tandem mass spectrometry

Liu

Wang

Liu

et al. 2021

J of Separation Science

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The aim of the untargeted metabolomics study is to obtain a global metabolome coverage from biological samples. Therefore, a comprehensive and systematic protocol for tissue metabolite extraction is highly desirable. In this study, we evaluated a comprehensive liver pretreatment strategy based on ultra-highperformance liquid chromatography coupled with quadrupole time-of-flight mass spectrometry to obtain more metabolites using four different protocols.These protocols included (A) methanol protein precipitation, (B) two-step extraction of dichloromethane-methanol followed by methanol-water, (C) two-step extraction of methyl tert-butyl ether-methanol followed by methanol-water, and (D) two-step extraction of isopropanol-methanol followed by methanol-water. Our results showed that protocol D was superior to the others due to more extracted features, annotated metabolites, and better reproducibility. And then, the stability and extraction sequence of protocol D were evaluated. The results showed that extraction with isopropanol-methanol followed by methanol-water was the optimum preparation sequence, which offered higher extraction efficiency, satisfactory repeatability, and acceptable stability. Furthermore, the optimal protocol was successfully applied by liver samples of rats after high-fat intervention. In summary, our protocol enabled a comprehensive and systematic evaluation of liver pretreatment to obtain more medium-polar and nonpolar metabolites and was suitable for high-throughput metabolomics analysis.

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Front Cover: Evaluation of liver tissue extraction protocol for untargeted metabolomics analysis by ultra‐high performance liquid chromatography/tandem mass spectrometry

Li¹,

Liu²,

Wang³

et al. 2021

J of Separation Science

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Zengjiao Liu

Genetic predisposition to impaired metabolism of the branched chain amino acids, dietary intakes, and risk of type 2 diabetes

Dietary tryptophan and the risk of obesity and type 2 diabetes: Total effect and mediation effect of sleep duration

Folic acid oversupplementation during pregnancy disorders lipid metabolism in male offspring via regulating arginase 1-associated NOS3-AMPKα pathway

Evaluation of liver tissue extraction protocol for untargeted metabolomics analysis by ultra‐high‐performance liquid chromatography/tandem mass spectrometry

Front Cover: Evaluation of liver tissue extraction protocol for untargeted metabolomics analysis by ultra‐high performance liquid chromatography/tandem mass spectrometry

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