AIMS: To determine whether protein acylation plays a role in the effects of glucose on the insulin secreting β-cell. MAIN METHODS: The measurement of (3)H-palmitate incorporation into protein in the INS 832/13 cell that has a robust and well-characterized biphasic insulin secretory response to stimulation with glucose. KEY FINDINGS: Stimulating the cells with glucose increased the incorporation of (3)H-palmitic acid into protein by up to 90%. Similarly, 2-aminobicyclo [2.2.1] heptane-2-carboxylic acid (BCH) the non-metabolizable analog of leucine that mimics the stimulatory effect of glucose on insulin secretion also increased the incorporation of (3)H-palmitic acid into protein. Treatment of cell lysates with hydroxylamine substantially reduced the incorporation indicating that most of the incorporation was due to enzymatic palmitoylation of proteins. Cerulenin, a classical inhibitor of protein acylation also substantially reduced the incorporation. Using PAGE and autoradiography a glucose-induced increase in protein palmitoylation and specific glucose-induced increases in the palmitoylation of proteins of 30, 44, 48 and 76kD were identified. SIGNIFICANCE: The data suggest that protein acylation plays multiple roles in β-cell function.
AIMS: To determine whether protein acylation plays a role in the effects of glucose on the insulin secreting β-cell. MAIN METHODS: The measurement of (3)H-palmitate incorporation into protein in the INS 832/13 cell that has a robust and well-characterized biphasic insulin secretory response to stimulation with glucose. KEY FINDINGS: Stimulating the cells with glucose increased the incorporation of (3)H-palmitic acid into protein by up to 90%. Similarly, 2-aminobicyclo [2.2.1] heptane-2-carboxylic acid (BCH) the non-metabolizable analog of leucine that mimics the stimulatory effect of glucose on insulin secretion also increased the incorporation of (3)H-palmitic acid into protein. Treatment of cell lysates with hydroxylamine substantially reduced the incorporation indicating that most of the incorporation was due to enzymatic palmitoylation of proteins. Cerulenin, a classical inhibitor of protein acylation also substantially reduced the incorporation. Using PAGE and autoradiography a glucose-induced increase in protein palmitoylation and specific glucose-induced increases in the palmitoylation of proteins of 30, 44, 48 and 76kD were identified. SIGNIFICANCE: The data suggest that protein acylation plays multiple roles in β-cell function.
Authors: J T Deeney; J Gromada; M Høy; H L Olsen; C J Rhodes; M Prentki; P O Berggren; B E Corkey Journal: J Biol Chem Date: 2000-03-31 Impact factor: 5.157
Authors: H Yajima; M Komatsu; S Yamada; S G Straub; T Kaneko; Y Sato; K Yamauchi; K Hashizume; G W Sharp; T Aizawa Journal: Diabetes Date: 2000-05 Impact factor: 9.461