Fibril-Forming Organelles in Mesangial Cells in Renal Biopsies from Patients with Light-Chain-Associated Amyloidosis

Abstract

The process of light-chain-associated amyloid (AL-Am) fibril formation in unique organelles (fibril-forming organelles) with lysosomal features has been documented in vitro in renal mesangial cells incubated with amyloidogenic light chains using electron microscopy and lysosomal gradient centrifugation to visualize intricate interactions between monoclonal light chains and endosomes/lysosomes. It is important to determine whether this process also occurs in vivo in the human renal mesangium. The present study analyzes 13 renal biopsies from patients with renal AL-amyloidosis and utilizes ultrastructural labeling techniques to define the nature and function of these organelles. Organelles were labeled for lysosomal-associated membrane protein (LAMP) and CD-68 (a macrophage marker). Furthermore, lambda was also localized inside these structures in transformed mesangial cells with a macrophage phenotype. These 11 cases from renal biopsies with a diagnosis of AL-amyloidosis (5 kappa and 8 lambda light-chain-associated) were examined ultrastructurally. All of the cases exhibited numerous fibrils forming organelles in approximately 40–50% of the remaining mesangial cells. All of the cases revealed mesangial cells engaged in active amyloidogenesis. Fibril-forming organelles are organelles with morphological/immunohistochemical and biochemical characteristics of lysosomes but with a unique, peculiar morphology. Five cases of other glomerular disorders used as controls were also carefully scrutinized for fibril-forming organelles and failed to show any. In the AL-amyloid renal cases, there was an intricate interaction between the fibril-forming organelles and lambda-/kappa-containing amyloid fibrils, supporting the notion that the monoclonal light chains participated in their formation.