Structural Analysis of Phospholipase A₂ from Functional Perspective. 2. Characterization of a Molten Globule-Like State Induced by Site-Specific Mutagenesis^†

Previous NMR studies have shown that many phospholipase A₂ (PLA2, from bovine pancreas, overexpressed in Escherichia coli) mutants display some properties reminiscent of a molten globule state. Further NMR analyses for some of the mutants indicated that formation of the “molten globule-like state” is a pH-dependent phenomenon. The mutants I9Y and I9F showed perturbed NMR properties throughout the pH range studied, while the mutants H48A and C44A/C105A displayed native-like spectra at neutral pH but molten globule-like ones under acidic conditions, with a “transition pH” around 4. On the other hand, wild-type PLA2 exhibits exceptional pH stability and turns into a similar molten globule-like state only under highly acidic conditions such as 1 M HCl. The H48A mutant was used to rigorously establish the property of the molten globule-like state of PLA2 mutants. The results of far-UV CD, near-UV CD, and ANS-binding fluorescence suggest that H48A retains native-like secondary structures but loses tertiary structure during the conformational transition. However, the tertiary structure is not completely lost, as evidenced by the retention of some long-range NOEs in two-dimensional NOESY spectra. The conclusion was further substantiated by three-dimensional NOESY−HSQC experiments on a ¹⁵N-labeled H48A sample. It was revealed that the molten globule-like state at mildly acidic pH retained some rigid tertiary structure, which consisted of partial α-helix II (Y52−L58), α-helix III (D59−V63), β-wing (S74−S85) and partial α-helix IV (A90−N97). These residual tertiary structures grouped in half of the protein could be attributed to stabilization by some of the disulfide bonds. The extreme sensitivity of the PLA2 structure to site-directed mutagenesis is unprecedented. It is interesting to note that most of the functional residues (the active site, the hydrophobic channel, the interfacial binding site, and the calcium-binding loop) are located in the remainder of the protein, which is well disrupted in tertiary interactions.