Frontiers in Medicine (Mar 2022)

Light Chain Restriction in Proximal Tubules—Implications for Light Chain Proximal Tubulopathy

  • Maike Büttner-Herold,
  • Nathalie Krieglstein,
  • Teresa Chuva,
  • Kaija Minuth,
  • Frederick Pfister,
  • Christoph Daniel,
  • Monika Klewer,
  • Anke Büttner,
  • Fulvia Ferrazzi,
  • Fulvia Ferrazzi,
  • Simone Bertz,
  • Kerstin Amann

DOI
https://doi.org/10.3389/fmed.2022.723758
Journal volume & issue
Vol. 9

Abstract

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Monoclonal gammopathy (MG) causes various nephropathies, which may suffice for cytoreductive therapy even in the absence of diagnostic criteria for multiple myeloma or B-cell non-Hodgkin lymphoma. The aim of this study was to better understand the significance of light chain (LC) restriction or crystals (LC-R/C) in proximal tubules in the spectrum of LC-induced nephropathies. A consecutive cohort of 320 renal specimens with a history of B-cell dyscrasia was characterized. Special attention was paid to immunohistochemical LC restriction in proximal tubules, tubular crystals or constipation, and ultrastructural findings. Complementary cell culture experiments were performed to assess the role of LC concentrations in generating LC restriction. Light chain restriction or crystals in proximal tubules was found in a quarter of analyzed cases (81/316) and was associated with another LC-induced disease in 70.4% (57/81), especially LC cast-nephropathy (cast-NP) and interstitial myeloma infiltration. LC restriction without significant signs of acute tubular injury was observed in 11.1% (9/81). LC-R/C was not associated with inferior renal function compared to the remainder of cases, when cases with accompanying cast-NP were excluded. Besides crystals, cloudy lysosomes were significantly associated with LC-R/C on an ultrastructural level. In summary, LC-R/C is frequent and strongly associated with cast-NP, possibly indicating that a high load of clonal LC is responsible for this phenomenon, supported by the observation that LC restriction can artificially be generated in cell culture. This and the lack of significant tubular injury in a subgroup imply that in part LC-R/C is a tubular trafficking phenomenon rather than an independent disease process.

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