A 1H‐NMR study of isolated domains from human plasminogen Structural homology between kringles 1 and 4

Abstract

Kringles 1 and 4 from human plasminogen are polypeptide domains of M_r∼ 10000 each of which can be isolated by proteolysis of the zymogen. They have been studied by ¹H‐NMR spectroscopy at 300 MHz and 600 MHz. The spectra, characteristic of globular structures, show striking analogies that point to a close conformational relatedness among the two kringles, consistent with their high degree of amino acid conservancy and homology. The interaction of both kringles with p‐benzylaminesulfonic acid (BASA), an antifibrinolytic drug that binds to a lysinebinding site, results in better resolved, narrower lines for both spectra. Aromatic and methyl‐region spectra of BASA complexes of kringles 1 and 4 were compared and the latter was studied by two‐dimensional NMR spectroscopy. Analysis of the CH₃ multiplets in terms of their resonance patterns, and the amino acid compositions and sequences of the two kringles, leads to the identification of most signals and to some assignments. In particular, a doublet at‐1 ppm, exhibited by both kringles and also found in reported proton spectra of homologous bovine prothrombin fragments, has been assigned to Leu⁴⁶, a residue that is conserved in all of the kringles studied to date by ¹H‐NMR. Since this resonance is somewhat more sensitive to BASA than other methyl signals, it is likely that Leu⁴⁶ is proximal to the lysine‐binding site. Nuclear Overhauser experiments reveal that Leu⁴⁶ is surrounded by a cluster of closely interacting hydrophobic and aromatic side chains. Kringle 4 was also compared with a derivative chemically modified at Trp⁷² with dimethyl(2‐hydroxy‐5‐nitrobenzyl)sulfonium bromide. As judged from the proton spectra, the modified kringle 4 retains globularity and is perturbed mainly in the aromatic region, in analogy to that which is observed for the unmodified kringle upon BASA binding. Furthermore, although previous studies have indicated no retention of the modified kringle by lysine‐Sepharose, the NMR studies point to a definite interaction between BASA and the kringle derivative. The spectroscopic data also suggest that the His³¹ imidazole is not significantly affected by the ligand and that the lysine‐binding site is structured mostly by hydrophobic side chains, including Trp⁷² in the case of kringle 4, and probably Tyr⁷² in kringle 1.