BACKGROUND: Crystal-storing histiocytosis (CSH) is a poorly described complication of monoclonal gammopathy featuring histiocyte lysosomal storage of kappa light chain (kappa LC) crystals. Although CSH is usually associated with systemic manifestations, renal involvement is uncommon. METHODS: To investigate the molecular mechanisms implicated in kappa LC crystallization, we performed immunopathological and molecular studies in three patients with CSH and renal Fanconi syndrome (CSH/FS). The V kappa sequences were determined, and resulting molecular models were compared with previously reported myeloma-associated FS kappa LC sequences. RESULTS: All patients presented with chronic tubulo-interstitial nephritis and renal FS with accumulation of monoclonal kappa LC crystals within proximal tubular cells. They showed peri-renal and interstitial infiltration by histiocytes containing eosinophilic crystalline inclusions (pseudo-pseudo-Gaucher cells). LC sequences were determined and assigned to their germline counterparts, in strong homology with previously reported myeloma-associated FS sequences. Comparison of CSH/FS V kappa domain 3D structures with the germline-encoded structures and those from patients with myeloma-associated FS underlined distinct hydrophobic residues exposed to the solvent in two patients, likely favouring the formation of a variant form of crystals that may further resist degradation after phagocytosis. CONCLUSION: Although CSH/FS and myeloma-associated FS are closely related disorders, peculiar mutations in the V domains of CSH/FS monoclonal kappa LCs, different from those in myeloma-associated FS, may account for crystal morphology, predominant accumulation within histiocytes and multiple organ involvement in CSH.
BACKGROUND: Crystal-storing histiocytosis (CSH) is a poorly described complication of monoclonal gammopathy featuring histiocyte lysosomal storage of kappa light chain (kappa LC) crystals. Although CSH is usually associated with systemic manifestations, renal involvement is uncommon. METHODS: To investigate the molecular mechanisms implicated in kappa LC crystallization, we performed immunopathological and molecular studies in three patients with CSH and renal Fanconi syndrome (CSH/FS). The V kappa sequences were determined, and resulting molecular models were compared with previously reported myeloma-associated FS kappa LC sequences. RESULTS: All patients presented with chronic tubulo-interstitial nephritis and renal FS with accumulation of monoclonal kappa LC crystals within proximal tubular cells. They showed peri-renal and interstitial infiltration by histiocytes containing eosinophilic crystalline inclusions (pseudo-pseudo-Gaucher cells). LC sequences were determined and assigned to their germline counterparts, in strong homology with previously reported myeloma-associated FS sequences. Comparison of CSH/FS V kappa domain 3D structures with the germline-encoded structures and those from patients with myeloma-associated FS underlined distinct hydrophobic residues exposed to the solvent in two patients, likely favouring the formation of a variant form of crystals that may further resist degradation after phagocytosis. CONCLUSION: Although CSH/FS and myeloma-associated FS are closely related disorders, peculiar mutations in the V domains of CSH/FS monoclonal kappa LCs, different from those in myeloma-associated FS, may account for crystal morphology, predominant accumulation within histiocytes and multiple organ involvement in CSH.
Authors: M Vignon; V Javaugue; M P Alexander; K El-Karoui; A Karras; D Roos-Weil; B Royer; B Asli; B Knebelmann; G Touchard; A Jaccard; B Arnulf; F Bridoux; N Leung; J P Fermand Journal: Leukemia Date: 2016-07-20 Impact factor: 11.528
Authors: Michael B Stokes; Anthony M Valeri; Leal Herlitz; Abdullah M Khan; David S Siegel; Glen S Markowitz; Vivette D D'Agati Journal: J Am Soc Nephrol Date: 2015-09-15 Impact factor: 10.121