Xue-Peng Wen scite author profile

Xue-Peng Wen

2Publications

40Citation Statements Received

152Citation Statements Given

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137

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Northeast Agricultural University

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FABP5 is a critical regulator of methionine‐ and estrogen‐induced SREBP‐1c gene expression in bovine mammary epithelial cells

Zhou

et al. 2018

Journal Cellular Physiology

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The intracellular fatty acid-binding proteins (FABPs) are a well-conserved family that function as lipid chaperones. Ongoing studies are focused on identification of the mechanistic complexity and vast biological diversity of different isoforms of FABPs. However, the molecular mechanism of FABP5 in the regulation of milk fat synthesis in the mammary gland of dairy cows is still largely unknown. Here, we report that FABP5 acts as a critical regulator of terol response element-binding protein-1c (SREBP-1c) gene expression induced by methionine (Met) and estrogen (E2) in bovine mammary epithelial cells (BMECs). We observed that the expression of FABP5 was markedly higher in dairy cow mammary tissue during the lactating period than the puberty period and the dry period. FABP5 is located in the cytoplasm, and Met and E2 significantly increase the protein levels of FABP5 in BMECs. Using gene function study approaches, we revealed that FABP5 positively regulates SREBP-1c gene expression and promotes milk fat synthesis. We confirmed that FABP5 is required for Met- and E2-induced SREBP-1c gene expression and milk fat synthesis. We further uncovered that fatty acids are needed for FABP5-mediated SREBP-1c gene expression. Thus, our study demonstrates that FABP5 is a critical regulator of Met- and E2-induced SREBP-1c gene expression leading to milk fat synthesis.

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The phosphorylation of Tudor‐SN mediated by JNK is involved in the regulation of milk protein synthesis induced by prolactin in BMECs

Zhang

Wen

et al. 2018

Journal Cellular Physiology

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Tudor staphylococcal nuclease (Tudor-SN) is a multifunctional protein involved in a variety of cellular processes and plays a critical role in the regulation of gene expression. Recently, Tudor-SN was found to be upregulated in mammary epithelial cells during lactation in response to prolactin, which further to regulate milk protein synthesis. However, the detailed regulatory mechanism of Tudor-SN to milk protein still remains to be elucidated. In our study, we observed that the levels of Tudor-SN and phosphor-Tudor-SN (Thr103) were both enhanced upon prolactin stimulation. Immunofluorescence assays demonstrated that prolactin treatment facilitated the nuclear transport of Tudor-SN. Further study revealed that the phosphorylation of Tudor-SN was depended on activated JNK. Coimmunoprecipitation assays disclosed that Tudor-SN might be phosphorylated directly by JNK. Using gene mutation assays, we further discovered that mutation of Thr to Ala at site of 103 prevented the nuclear transport of Tudor-SN. Thus, these results suggested the essential mechanism of the activated Tudor-SN in milk protein regulation in response to prolactin, which may provide some new sights into improve milk protein production.

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Xue-Peng Wen

FABP5 is a critical regulator of methionine‐ and estrogen‐induced SREBP‐1c gene expression in bovine mammary epithelial cells

The phosphorylation of Tudor‐SN mediated by JNK is involved in the regulation of milk protein synthesis induced by prolactin in BMECs

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