Nuclear factor kappa B (NF-B) is a ubiquitous, inducible transcription factor that regulates the initiation and progression of immune and inflammatory stress responses. NF-B activation depends on phosphorylation and degradation of its inhibitor protein, IB, initiated by an IB kinase (IKK) complex. This IKK complex includes a catalytic heterodimer composed of IB kinase 1 (IKK1) and IB kinase 2 (IKK2) as well as a regulatory adaptor subunit, NF-B essential modulator. To better understand the role of IKKs in NF-B activation, we have cloned, expressed, purified, and characterized the physiological isoform, the rhIKK1/rhIKK2 heterodimer. We compared its kinetic properties with those of the homodimers rhIKK1 and rhIKK2 and a constitutively active rhIKK2 (S177E, S181E) mutant. We demonstrate activation of these recombinantly expressed IKKs by phosphorylation during expression in a baculoviral system. The K m values for ATP and IB␣ peptide for the rhIKK1/rhIKK2 heterodimer are 0.63 and 0.60 M, respectively, which are comparable to those of the IKK2 homodimer. However, the purified rhIKK1/rhIKK2 heterodimer exhibits the highest catalytic efficiency (k cat / K m ) of 47.50 h ؊1 M ؊1 using an IB␣ peptide substrate compared with any of the other IKK isoforms, including rhIKK2 (17.44 h ؊1 M ؊1 ), its mutant rhIKK2 (S177E, S181E, 1.18 h ؊1 M ؊1 ), or rhIKK1 (0.02 h ؊1 M ؊1 ). Kinetic analysis also indicates that, although both products of the kinase reaction, ADP and a phosphorylated IB␣ peptide, exhibited competitive inhibitory kinetics, only ADP with the low K i of 0.77 M may play a physiological role in regulation of the enzyme activity.
To probe the effects of N-glycosylation on the fibrin-dependent plasminogenolytic activity of tissue-type plasminogen activator (t-PA), we have expressed a human recombinant t-PA (rt-PA) gene in Chinese hamster ovary (CHO) cells and in a murine C127 cell line. The resulting rt-PA glycoproteins were isolated and their associated N-linked oligosaccharide structures determined by using a combination of high-resolution Bio-Gel P-4 gel filtration chromatography, sequential exoglycosidase digestion, and methylation analysis. The results show that CHO rt-PA is N-glycosylated differently from murine C127 derived rt-PA. Further, both rt-PA's are N-glycosylated differently from t-PA derived from a human colon fibroblast and the Bowes melanoma cell line (Parekh et al., 1989), confirming that N-glycosylation of the human t-PA polypeptide is cell-type-specific. Both CHO and murine rt-PA were fractionated on lysine-Sepharose chromatography. The N-glycosylation of the major forms was analyzed and their fibrin-dependent plasminogenolytic activity determined by using an indirect amidolytic assay with Glu-plasminogen and a chromogenic plasmin substrate. The results suggest that the various forms of rt-PA differ from one another with respect to the kinetics of their fibrin-dependent activation of plasminogen. Together, these data support the notion (Wittwer et al., 1989) that N-glycosylation influences the fibrin-dependent catalytic activity of t-PA and that t-PA when expressed in different cell lines may consist of kinetically and structurally distinct glycoforms.
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