Lerner-Marmarosh Nicole, Miralem Tihomir, Gibbs Peter E M, Maines Mahin D
University of Rochester School of Medicine and Dentistry, Department of Biochemistry and Biophysics, 601 Elmwood Avenue, Rochester, NY 14642, USA.
FASEB J. 2007 Dec;21(14):3949-62. doi: 10.1096/fj.07-8544com. Epub 2007 Jul 17.
Human biliverdin reductase (hBVR) is a dual function enzyme: a catalyst for bilirubin formation and a S/T/Y kinase that shares activators with protein kinase C (PKC) -zeta, including cytokines, insulin, and reactive oxygen species (ROS). Presently, we show that hBVR increases PKC-zeta autophosphorylation, stimulation by TNF-alpha, as well as cytokine stimulation of NF-kappaB DNA binding and promoter activity. S149 in hBVR S/T kinase domain and S230 in YLS230F in hBVR's docking site for the SH2 domain of signaling proteins are phosphorylation targets of PKC-zeta. Two hBVR-based peptides, KRNRYLS230F (#1) and KKRILHC281 (#2), but not their S-->A or C-->A derivatives, respectively, blocked PKC-zeta stimulation by TNF-alpha and its membrane translocation. The C-terminal-based peptide KYCCSRK296 (#3), enhanced PKC-zeta stimulation by TNF-alpha; for this, Lys296 was essential. In metabolically 32P-labeled HEK293 cells transfected with hBVR or PKC-zeta, TNF-alpha increased hBVR phosphorylation. TNF-alpha did not stimulate PKC-zeta in cells infected with small interfering RNA for hBVR or transfected with hBVR with a point mutation in the nucleotide-binding loop (G17), S149, or S230; this was similar to the response of "kinase-dead" PKC-zeta(K281R). We suggest peptide #1 blocks PKC-zeta-docking site interaction, peptide #2 disrupts function of the PKC-zeta C1 domain, and peptide #3 alters ATP presentation to the kinase. The findings are of potential significance for development of modulators of PKC-zeta activity and cellular response to cytokines.
人胆绿素还原酶(hBVR)是一种具有双重功能的酶:它是胆红素形成的催化剂,也是一种丝氨酸/苏氨酸/酪氨酸激酶,与蛋白激酶C(PKC)-ζ共享激活剂,包括细胞因子、胰岛素和活性氧(ROS)。目前,我们发现hBVR可增加PKC-ζ的自磷酸化、肿瘤坏死因子-α(TNF-α)的刺激作用,以及细胞因子对核因子-κB(NF-κB)DNA结合和启动子活性的刺激作用。hBVR丝氨酸/苏氨酸激酶结构域中的S149以及hBVR中信号蛋白SH2结构域对接位点的YLS230F中的S230是PKC-ζ的磷酸化靶点。两种基于hBVR的肽,KRNRYLS230F(#1)和KKRILHC281(#2),但不是它们各自的S→A或C→A衍生物,分别阻断了TNF-α对PKC-ζ的刺激及其膜转位。基于C末端的肽KYCCSRK296(#3)增强了TNF-α对PKC-ζ的刺激作用;为此,赖氨酸296至关重要。在用hBVR或PKC-ζ转染的经代谢性32P标记的人胚肾293(HEK293)细胞中,TNF-α增加了hBVR的磷酸化。在感染了针对hBVR的小干扰RNA或转染了核苷酸结合环(G17)、S149或S230发生点突变的hBVR的细胞中,TNF-α不会刺激PKC-ζ;这与“激酶失活”的PKC-ζ(K281R)的反应相似。我们认为肽#1阻断了PKC-ζ对接位点的相互作用,肽#2破坏了PKC-ζ C1结构域的功能,肽#3改变了激酶的ATP供应。这些发现对于开发PKC-ζ活性调节剂和细胞对细胞因子的反应具有潜在意义。
