Clinicopathologic predictors of renal outcomes in light chain cast nephropathy: a multicenter retrospective study

Light chain cast nephropathy (LCCN) in multiple myeloma often leads to severe and poorly reversible acute kidney injury. Severe renal impairment influences the allocation of chemotherapy and its tolerability; it also affects patient survival. Whether renal biopsy findings add to the clinical assessment in predicting renal and patient outcomes in LCCN is uncertain. We retrospectively reviewed clinical presentation, chemotherapy regimens, hematologic response, and renal and patient outcomes in 178 patients with biopsy-proven LCCN from 10 centers in Europe and North America. A detailed pathology review, including assessment of the extent of cast formation, was performed to study correlations with initial presentation and outcomes. Patients presented with a mean estimated glomerular filtration rate (eGFR) of 13 ± 11 mL/min/1.73 m2, and 82% had stage 3 acute kidney injury. The mean number of casts was 3.2/mm2 in the cortex. Tubulointerstitial lesions were frequent: acute tubular injury (94%), tubulitis (82%), tubular rupture (62%), giant cell reaction (60%), and cortical and medullary inflammation (95% and 75%, respectively). Medullary inflammation, giant cell reaction, and the extent of cast formation correlated with eGFR value at LCCN diagnosis. During a median follow-up of 22 months, mean eGFR increased to 43 ± 30 mL/min/1.73 m2. Age, β2-microglobulin, best hematologic response, number of cortical casts per square millimeter, and degree of interstitial fibrosis/tubular atrophy (IFTA) were independently associated with a higher eGFR during follow-up. This eGFR value correlated with overall survival, independently of the hematologic response. This study shows that extent of cast formation and IFTA in LCCN predicts the quality of renal response, which, in turn, is associated with overall survival.info:eu-repo/semantics/publishedVersio

Role of the podocyte in proteinuria

In recent years, the podocyte, with its elaborate cytoarchitecture and slit diaphragm, has been the focus of extensive research, yet its precise role in the glomerular filtration barrier is still debated. There are puzzling observations indicating that a comprehensive mechanistic model for glomerular filtration is still necessary. There is no doubt that podocytes are essential for glomerular filtration barrier integrity. However, most albumin never reaches the podocyte because it is prevented from entering the glomerular filter at the endothelium level. Another puzzling observation is that the glomerular filter never clogs despite its high load of several kilograms of plasma proteins per day. Recently, we proposed a novel model in which an electrical potential difference is generated across the glomerular filtration barrier by filtration. The model offers novel potential solutions to some of the riddles regarding the glomerular filter

Course of renal injury in the Mpv17-deficient transgenic mouse

The mutant Mpv17 mouse is a transgenic strain that fails to express a protein that is normally expressed in the kidney and that is associated with peroxisomes. The present studies provide a quantitative examination of renal function and structure in this strain compared to its control CFW strain. By 52 wk of age, the mutant strain developed proteinuria (urinary protein to creatinine ratio: 25 +/- 14 versus 3 +/- 1, mutant versus control), albuminuria (urinary albumin to creatinine ratio: 23 +/- 15 versus 0.1 +/- 0.1, mutant versus control), and hypoalbuminemia (2.1 +/- 0.4 versus 2.5 +/- 0.2 G/dl, mutant versus control), but without arterial hypertension or major reduction in filtration (serum creatinine 0.14 +/- 0.04 versus 0.18 +/- 0.12 mg/dl, mutant versus control). The Mpv17 glomeruli were enlarged (0.98 +/- 0.12 versus 0.52 +/- 0.02 micrometer(3) x 10(6), mutant versus control). Glomerular sclerosis became widespread (95 +/- 3 versus 23 +/- 32%, mutant versus control) and was preceded by mesangiolysis and microaneurysms. Tubulointerstitial disease was conspicuous by its absence. The intrarenal vasculature was normal in the mutant mice. Electron microscopy demonstrated focal foot process fusion and mesangiolysis. Thus, this mutant strain of mouse develops proteinuria and a distinct glomerulopathy including mesangiolysis but little interstitial injury all due to the loss of expression of a single gene