Abstract
Medullary nephrocalcinosis is a hallmark of medullary sponge kidney (MSK). We had the opportunity to study a spontaneous calcification process in vitro by utilizing the renal cells of a patient with MSK who was heterozygous for the c.-27 + 18G>A variant in the GDNF gene encoding glial cell-derived neurotrophic factor. The cells were obtained by collagenase digestion of papillary tissues from the MSK patient and from two patients who had no MSK or nephrocalcinosis. These cells were typed by immunocytochemistry, and the presence of mineral deposits was studied using von Kossa staining, scanning electron microscopy analysis and an ALP assay. Osteoblastic lineage markers were studied using immunocytochemistry and RT-PCR. Staminality markers were also analysed using flow cytometry, magnetic cell separation technology, immunocytochemistry and RT-PCR. Starting from p2, MSK and control cells formed nodules with a behaviour similar to that of calcifying pericytes; however, Ca2PO4 was only found in the MSK cultures. The MSK cells had morphologies and immunophenotypes resembling those of pericytes or stromal stem cells and were positive for vimentin, ZO1, αSMA and CD146. In addition, the MSK cells expressed osteocalcin and osteonectin, indicating an osteoblast-like phenotype. In contrast to the control cells, GDNF was down-regulated in the MSK cells. Stable GDNF knockdown was established in the HK2 cell line and was found to promote Ca2PO4 deposition when the cells were incubated with calcifying medium by regulating the osteonectin/osteopontin ratio in favour of osteonectin. Our data indicate that the human papilla may be a perivascular niche in which pericyte/stromal-like cells can undergo osteogenic differentiation under particular conditions and suggest that GDNF down-regulation may have influenced the observed phenomenon.
Highlights
We discovered a renal mass diagnosed as a renal carcinoma in an 80year-old female with medullary sponge kidney (MSK) who was heterozygous for the rare variant
The results demonstrate that the MSK cells contained undetectable levels of the GDNF transcript at p1 and exhibited only weak expression of GDNF at p2 and p4, whereas GDNF mRNA was observed in the control cells beginning in the first passages (Fig. 9)
The most accredited hypothesis that can explain the formation of interstitial nephrocalcinosis is that spontaneous calcium-phosphate crystallization occurs in the interstitium because this region is oversaturated with calcium-phosphate salts [2, 3]
Summary
The notion that resident renal cells could be prompted to trans-differentiate or differentiate along an osteogenic lineage was based on the following observations: Miyazawa et al [5] reported data demonstrating that CaOx crystals up-regulated vimentin in normal rat kidney proximal cells, Peerapen et al [6] showed that CaOx crystals caused a marked decrease in tight junction proteins in Madin-Darby canine kidney cells, and Kumar et al [7] found that rat inner medullary collecting duct cells grown in a calcifying medium formed calcifying nodules that were positive for typical bone proteins It is currently unclear whether this phenomenon occurs in human kidneys
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