Macromolecular crowding and supersaturation protect hemodialysis patients from the onset of dialysis-related amyloidosis

Amyloid fibrils of beta 2-microglobulin (beta 2m) can cause dialysis-related amyloidosis. Here, the authors show that a decrease in serum albumin levels in long-term dialysis deteriorates the inhibitory effects of serum milieux on supersaturation-limited amyloid formation of beta 2m, suggesting that macromolecular crowding protects the onset of amyloidosis. Dialysis-related amyloidosis (DRA), a serious complication among long-term hemodialysis patients, is caused by amyloid fibrils of beta 2-microglobulin (beta 2m). Although high serum beta 2m levels and a long dialysis vintage are the primary and secondary risk factors for the onset of DRA, respectively, patients with these do not always develop DRA, indicating that there are additional risk factors. To clarify these unknown factors, we investigate the effects of human sera on beta 2m amyloid fibril formation, revealing that sera markedly inhibit amyloid fibril formation. Results from over 100 sera indicate that, although the inhibitory effects of sera deteriorate in long-term dialysis patients, they are ameliorated by maintenance dialysis treatments in the short term. Serum albumin prevents amyloid fibril formation based on macromolecular crowding effects, and decreased serum albumin concentration in dialysis patients is a tertiary risk factor for the onset of DRA. We construct a theoretical model assuming cumulative effects of the three risk factors, suggesting the importance of monitoring temporary and accumulated risks to prevent the development of amyloidosis, which occurs based on supersaturation-limited amyloid fibril formation in a crowded milieu.

Automated summary

Amyloid fibrils of beta 2-microglobulin (beta 2m) can cause dialysis-related amyloidosis. Decrease in serum albumin levels in long-term dialysis deteriorates the inhibitory effects of serum milieux on supersaturation-limited amyloid formation of beta 2m, suggesting that macromolecular crowding protects the onset of amyloidosis.