1998
DOI: 10.1002/pro.5560070911
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Lysine‐50 is a likely site for anchoring the plasminogen N‐terminal peptide to lysine‐binding kringles

Abstract: Interactions between the kringle 4 (K4) domain of human plasminogen (Pgn) and segments of the N-terminal GlulLys77 peptide (NTP) have been investigated via 'H-NMR at 500 MHz. NTP peptide stretches devoid of Lys residues but carrying an internal Arg residue show negligible affinity toward K4 (equilibrium association constant K, < 0.05 mM"). In contrast, while most fragments containing an internal Lys residue exhibit affinities comparable to that shown by the blocked Lys derivative Ne-acetyl-L-lysine-methyl este… Show more

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Cited by 36 publications
(26 citation statements)
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“…Thus, by providing an anchoring site for the prodomain, COL-3 would stabilize the pro-MMP-2 in a compact conformation; in contrast, the main role of COL-2 may be that of promoting the binding interaction with the gelatin substrate. This is reminiscent of what has been observed for plasminogen, the proenzyme of plasmin, where the five kringle domains, which exhibit various degrees of affinity for lysinecontaining peptides (putative anchoring sites in the plasminogen-fibrin interaction), also differ in their affinities for the plasminogen N-terminal peptide, suggesting that they may selectively regulate the compact folding of the macromolecule (47,57). Following activation to plasmin, the N-terminal peptide is autolytically cleaved off, causing plasminogen to assume an "open" conformation (Ref.…”
Section: Structure and Function Of Type II Modules 2 And 3 From Mmp-2mentioning
confidence: 95%
“…Thus, by providing an anchoring site for the prodomain, COL-3 would stabilize the pro-MMP-2 in a compact conformation; in contrast, the main role of COL-2 may be that of promoting the binding interaction with the gelatin substrate. This is reminiscent of what has been observed for plasminogen, the proenzyme of plasmin, where the five kringle domains, which exhibit various degrees of affinity for lysinecontaining peptides (putative anchoring sites in the plasminogen-fibrin interaction), also differ in their affinities for the plasminogen N-terminal peptide, suggesting that they may selectively regulate the compact folding of the macromolecule (47,57). Following activation to plasmin, the N-terminal peptide is autolytically cleaved off, causing plasminogen to assume an "open" conformation (Ref.…”
Section: Structure and Function Of Type II Modules 2 And 3 From Mmp-2mentioning
confidence: 95%
“…1 Plasminogen adopts tight conformation due to intramolecular binding of Lys 50 and/or Lys 62 to the lysinebinding site in the fifth kringle domain. 3,4 The tight conformation renders plasminogen less sensitive to activation by plasminogen activators. Plasminogen binding to fibrin or cellular receptors allows relaxation of plasminogen conformation, enabling efficient activation.…”
mentioning
confidence: 99%
“…The kringle 1-5 domain of Glu-plasminogen participates an intramolecular interaction with Lys 50 and/or Lys 62 by bringing the N-terminal peptide domain in close contact with the protease domain and leads to a very tight spiral structure of Glu-plasminogen (Cockell et al 1998;An et al 1998). This structure was thought to shield the activation cleavage site (Arg 561 -Val 562 ) from easy access by plasminogen activator (Horrevoets et al 1995).…”
Section: Resultsmentioning
confidence: 98%