Connor J H, Quan H N, Ramaswamy N T, Zhang L, Barik S, Zheng J, Cannon J F, Lee E Y, Shenolikar S
Department of Pharmacology and Cancer Biology, Duke University Medical Center, Durham, North Carolina 27710, USA.
J Biol Chem. 1998 Oct 16;273(42):27716-24. doi: 10.1074/jbc.273.42.27716.
Inhibitor-1 (I-1), a cyclic AMP-regulated phosphoprotein, inhibits protein phosphatase-1 (PP1) activity in response to hormones. The molecular mechanism for PP1 inhibition by I-1 remains unknown. Mutation of nine acidic residues lining a proposed I-1-binding channel in rabbit PP1alpha yielded one mutant (E256A) slightly impaired in its inhibition by I-1, with the IC50 increased by 3-fold, and one mutant (E275R) located in the beta12-beta13 loop that showed 4-fold enhanced inhibition by I-1. Substituting Tyr-272, a proposed binding site for the toxins okadaic acid and microcystin-LR, in the beta12-beta13 loop with Trp, Phe, Asp, Arg, or Ala impaired PP1alpha inhibition by I-1 by 8-10-fold. Chemical mutagenesis of the Saccharomyces cerevisiae PP1 gene (GLC7) yielded 20 point mutations in the PP1 coding region. Two-hybrid analyses and biochemical assays of these yeast enzymes identified four additional residues in the beta12-beta13 loop that were required for PP1 binding and inhibition by I-1. Ten-fold higher concentrations of I-1 were required to inhibit these mutants. Finally, deletion of the beta12-beta13 loop from PP1alpha maintained full enzyme activity, but attenuated inhibition by I-1 by >100-fold. These data identified the beta12-beta13 loop in the PP1 catalytic subunit as a domain that mediates binding and enzyme inhibition by I-1.
抑制因子1(I-1)是一种受环磷酸腺苷调节的磷蛋白,可响应激素抑制蛋白磷酸酶-1(PP1)的活性。I-1抑制PP1的分子机制尚不清楚。对兔PP1α中一个假定的I-1结合通道内衬的九个酸性残基进行突变,产生了一个突变体(E256A),其对I-1的抑制作用略有受损,IC50增加了3倍,还有一个位于β12-β13环的突变体(E275R),其对I-1的抑制作用增强了4倍。用色氨酸、苯丙氨酸、天冬氨酸、精氨酸或丙氨酸取代β12-β13环中假定的冈田酸和微囊藻毒素-LR结合位点酪氨酸-272,使I-1对PP1α的抑制作用降低了8-10倍。酿酒酵母PP1基因(GLC7)的化学诱变在PP1编码区产生了20个点突变。对这些酵母酶进行的双杂交分析和生化分析确定了β12-β13环中另外四个I-1结合和抑制PP1所需的残基。抑制这些突变体需要高10倍浓度的I-1。最后,从PP1α中删除β12-β13环可保持酶的全部活性,但使I-1的抑制作用减弱了100倍以上。这些数据确定了PP1催化亚基中的β12-β13环是介导I-1结合和酶抑制的结构域。
