Abstract
Light chain amyloidosis is an incurable protein misfolding disease where monoclonal immunoglobulin light chains misfold and deposit as amyloid fibrils, causing organ failure and death. Previously, we determined that amyloidogenic light chains AL-09 and AL-103 do not form fibrils at pH 10 (tyrosine pK(a)). There are three tyrosine residues (32, 91, and 96) clustered in the dimer interface, interacting differently in the two light chain proteins due to their two different dimer conformations. These tyrosines may be ionized at pH 10, causing repulsion and inhibiting fibril formation. Here, we characterize single and double Tyr-to-Phe mutations in AL-09 and AL-103. All AL-09 Tyr-to-Phe mutants form fibrils at pH 10, whereas none of the AL-103 mutants form fibrils at pH 10. NMR studies suggest that although both AL-09 and AL-103 present conformational heterogeneity, only AL-09 favors dimer conformations where tyrosine residues mediate crucial interactions for amyloid formation.
Highlights
Light chain amyloidosis is a protein misfolding disease characterized by the deposition of immunoglobulin light chains in vital organs
We investigate the role of tyrosine residues on in vitro fibril formation of two AL proteins, AL-09 and AL-103, which have been extensively studied by our laboratory (8 –12)
Fibril formation reactions display the typical features observed for other amyloid formation reactions: a lag phase followed by an exponential growth phase that ends in a plateau
Summary
Light chain amyloidosis is a protein misfolding disease characterized by the deposition of immunoglobulin light chains in vital organs. Conclusion: AL-09 populates amyloidogenic dimeric structures where tyrosine residues may mediate fibril formation. Light chain amyloidosis is an incurable protein misfolding disease where monoclonal immunoglobulin light chains misfold and deposit as amyloid fibrils, causing organ failure and death. We determined that amyloidogenic light chains AL-09 and AL-103 do not form fibrils at pH 10 (tyrosine pKa). There are three tyrosine residues (32, 91, and 96) clustered in the dimer interface, interacting differently in the two light chain proteins due to their two different dimer conformations. These tyrosines may be ionized at pH 10, causing repulsion and inhibiting fibril formation. We were unable to determine the experimental pKa values for each of the tyrosine residues in these proteins with the 13C-1H aromatic HSQC experiments
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