Structural Characteristics of Pneumolysin and Its Domains in a Biomimetic Solution.

Pneumolysin (PLY) and its truncated fragments, domains 1-3 (D), and domain 4 (D), were purified as recombinant proteins after being cloned and over-expressed in . The three-dimensional structures of these proteins were quantitatively investigated in a biomimetic condition, phosphate buffered saline (PBS) by synchrotron X-ray scattering. X-ray scattering analysis revealed important structural features including structural parameters. PLY was present as a monomeric form in PBS. The monomeric form resembled its crystallographic structure with a discrepancy of only 6.3%, confirming that PLY forms a stable structure and, thus, retains its structure in the crystalline state and even in PBS solution. D was also present as a monomeric form, but its structure was very different from that of the corresponding part in the crystallographic PLY structure; the discrepancy was 92.0%. Such a dissimilar structure might originate from a less folded-chain conformation. This result suggested that the structure of D is highly dependent on the crystalline or solution state and further on the presence or absence of the D unit. In contrast, D was dimeric rather than monomeric. Its structure was close to the most probable dimeric form of the corresponding part in the crystallographic PLY structure with 13.1% discrepancy. This fact indicated that the D unit forms a stable structure and, indeed, such structure is well maintained in the crystalline state as well as in PBS although presented as a dimer. This result further supported that the whole structural stability of PLY is mainly attributed to the structure of D. All of PLY, D, and D revealed aggregation tendencies during purification and storage. Overall, the structural characteristics of PLY and its domains in PBS may correlate to the PLY oligomer formation yielding large pore structures for the penetration of cell membranes.