Conformations and stabilities of human Glu1- and Lys78-plasminogen and of the fragments mini- and microplasminogen, analysed by circular dichroism and differential scanning calorimetry.

The conformations and stabilities of two forms of human plasminogen, Glu1-plasminogen (Glu1-HPg, Glu1-Asn791) and Lys78-plasminogen (Lys78-HPg, Lys78-Asn791), and two enzymatically derived plasminogen fragments, miniplasminogen (mini-HPg, Val443-Asn791) and microplasminogen (micro-HPg, Lys531-Asn791) were analysed by circular dichroism and differential scanning calorimetry. The two plasminogen forms differ by the lack of 77 N-terminal amino acids in Lys78-HPg in comparison to Glu1-HPg. Mini-HPg is composed of kringle 5 and the protease domain of HPg whereas micro-HPg is built from the protease domain of HPg and a stretch of about 15 amino acids from kringle 5. Differential scanning calorimetric measurements of Glu1-HPg and Lys78-HPg reveal seven thermal transitions for both plasminogen forms. The results obtained for Lys78-HPg largely agree with recently published data (Novokhatny, V. V., Kudinov, S. A. and Privalov, P. L. J. Mol. Biol. 1984, 179, 215). Three thermal transitions corresponding to kringle 5 and to two subdomains of the C-terminal protease region were identified for mini-HPg. In micro-HPg, the two thermal transitions of the protease region were found but one of the protease subdomains was modified and its stability was much higher than in any of the other studied proteins. According to the microcalorimetric data obtained for mini-HPg and micro-HPg, transitions 5 and 6 of Glu1-HPg and Lys78-HPg were reassigned to kringle 5 and to a subdomain of the protease region, respectively, in contrast to literature data.(ABSTRACT TRUNCATED AT 250 WORDS)