Abstract
A Bence Jones protein isolated in the early 1960s from a patient (initials KWR) suffering from plasma-cell dyscrasia was crystallized and its structure was analyzed in four different unit cells by X-ray diffraction. The final models of the molecule in all crystal forms were virtually the same, although the elbow angles relating the constant and variable domains of the Bence Jones dimers varied over a range of 10 degrees. The tetragonal form had an R factor of 22.6% and an R(free) of 28.3% at 2.2 A resolution. Phosphate or sulfate ions (depending on the crystallization conditions) were found in the antigen-combining sites in all crystals, as well as an unidentified ligand tightly bound in the hydrophobic 'deep pocket' beneath the antigen-binding site. The ligand was treated as a phenol molecule. Two trigonal crystal forms were among those solved. One was grown at pH 4.0 and the other was only obtained after sitting for more than eight months at room temperature. The latter crystal was composed of molecules that were degraded in their constant domains. Both low pH and proteolytic degradation of constant domains are known to promote the polymerization of some Bence Jones proteins into amyloid fibrils. Indeed, in both trigonal crystal forms the molecules are organized with pseudo-hexagonal symmetry about the unique crystallographic axes in a manner suggestive of such fibrils. The arrangement of Bence Jones dimers is also consistent with other observations regarding Bence Jones amyloid-fibril structure and current models.
Highlights
In patients with multiple myeloma, a cancer of the bone marrow, clonal proliferation of monoclonal plasma cells results in the excessive production of immunoglobulin light chains, which are termed Bence Jones (BJ) proteins (Clamp, 1967)
In the trigonal crystals of the BJ protein an intermolecular hydrogen-bonding motif is formed between neighboring dimers, which is consistent with what is known to be a characteristic feature of amyloid-fibril structures (Glenner, 1980)
We analyzed the CDR-loop conformations in the models type amyloid fibrils are generally derived from fragments of refined at higher resolution, i.e. from the P43212 and P3221 monoclonal light chains and rarely from complete chains crystals
Summary
In patients with multiple myeloma, a cancer of the bone marrow, clonal proliferation of monoclonal plasma cells results in the excessive production of immunoglobulin light chains, which are termed Bence Jones (BJ) proteins (Clamp, 1967). The two light chains composing a BJ protein dimer exist as two constant domains arising from framework residues and two variable domains composed of both framework and CDR residues The latter domains display two identical sets of three hypervariable loops, which form a quasi antigen-binding site very similar to that of a conventional Fab fragment. In the trigonal crystals of the BJ protein an intermolecular hydrogen-bonding motif is formed between neighboring dimers, which is consistent with what is known to be a characteristic feature of amyloid-fibril structures (Glenner, 1980). This interaction is not present in the other crystal forms
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