J. Kim scite author profile

J. Kim

2Publications

30Citation Statements Received

71Citation Statements Given

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University of Wisconsin–Madison

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Role of kallikrein-kininogen system in insulin-stimulated glucose transport after muscle contractions

Dumke

Kim

Arias

et al. 2002

Journal of Applied Physiology

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Serum proteins [molecular weight (MW) > 10,000] are essential for increased insulin-stimulated glucose transport after in vitro muscle contractions. We investigated the role of the kallikrein-kininogen system, including bradykinin, which is derived from kallikrein (MW > 10,000)-catalyzed degradation of serum protein kininogen (MW > 10,000), on this contraction effect. In vitro electrical stimulation of rat epitrochlearis muscles was performed in 1) rat serum ± kallikrein inhibitors; 2) human plasma (normal or kallikrein-deficient); 3) rat serum ± bradykinin receptor-2 inhibitors; or 4) serum-free buffer ± bradykinin. 3- O-methylglucose transport (3-MGT) was measured 3.5 h later. Serum ± kallikrein inhibitors tended ( P = 0.08) to diminish postcontraction insulin-stimulated 3-MGT. Contractions in normal plasma enhanced insulin-stimulated 3-MGT vs. controls, but contractions in kallikrein-deficient plasma did not. Supplementing rat serum with bradykinin receptor antagonist HOE-140 during contraction did not alter insulin-stimulated 3-MGT. Muscles stimulated to contract in serum-free buffer plus bradykinin did not have enhanced insulin-stimulated 3-MGT. Bradykinin was insufficient for postcontraction-enhanced insulin sensitivity. However, results with kallikrein inhibitors and kallikrein-deficient plasma suggest kallikrein plays a role in this improved insulin action.

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Ethylene responses in abscission and other processes of cell separation in Arabidopsis

Patterson

Butenko

Kim

2007

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J. Kim

Role of kallikrein-kininogen system in insulin-stimulated glucose transport after muscle contractions

Ethylene responses in abscission and other processes of cell separation in Arabidopsis

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