肾小管上皮细胞围绕细胞的基质形成与晶体结合的关系。

Schepers Marieke S J, Asselman Marino, Duim Ronald A J, Romijn Johannes C, Schröder Fritz H, Verkoelen Carl F

Department of Urology, Erasmus MC, Rotterdam, The Netherlands.

Nephron Exp Nephrol. 2003;94(3):e103-12. doi: 10.1159/000072028.

BACKGROUND/AIM: Retention of crystals in the kidney ultimately leads to renal stone formation. Hyaluronan (HA) has been identified as binding molecule for calcium oxalate monohydrate crystals. The association of high molecular mass (M(r)) HA with cell surface receptors such as CD44 gives rise to pericellular matrix (PCM) formation by many eukaryotic cells in culture. Here, we study the ability of several renal tubular cell lines to assemble PCMs and to synthesize high-M(r) HA during proliferation in relation to crystal retention.

METHODS

PCM assembly by MDCK-I, MDCK-II, and LLC-PK1 cells was visualized by particle exclusion assay. Metabolic labeling studies were performed to estimate the cellular production of HA. The expression of CD44 and HA was studied using fluorescent probes, and crystal binding was quantified with radiolabeled calcium oxalate monohydrate.

RESULTS

PCMs were formed, and HA was expressed by most MDCK-I and some MDCK-II, but not by LLC-PK1 cells. All cell types expressed CD44 at their apical surface. MDCK-I and MDCK-II cells secreted, respectively, 14.7 +/- 1.6 and 0.5 +/- 0.2 pmol [3H]glucosamine incorporated in high-M(r) HA, whereas LLC-PK1 cells did not secrete HA. Streptomyces hyaluronidase treatment significantly decreased crystal binding (microg/cm2) to MDCK-I cells (from 8.6 +/- 0.4 to 3.9 +/- 0.9), but hardly to MDCK-II cells (from 10.2 +/- 0.2 to 9.6 +/- 0.1) or LLC-PK1 cells (from 10.2 +/- 0.8 to 9.9 +/- 0.3).

CONCLUSIONS

There are various forms of crystal binding to renal tubular cells in culture. Crystal attachment to MDCK-I and some MDCK-II cells involves PCM assembly that requires high-M(r) HA synthesis. HA production and PCM formation do not play a role in crystal binding to LLC-PK1 and the majority of MDCK-II cells. It remains to be determined which form of binding is involved in renal stone disease.

背景/目的：晶体在肾脏中的潴留最终会导致肾结石的形成。透明质酸（HA）已被确定为一水合草酸钙晶体的结合分子。高分子量（M(r)）HA与细胞表面受体（如CD44）的结合会导致许多培养的真核细胞形成细胞周基质（PCM）。在此，我们研究了几种肾小管细胞系在增殖过程中组装PCM和合成高M(r) HA的能力与晶体潴留的关系。

方法

通过颗粒排斥试验观察MDCK-I、MDCK-II和LLC-PK1细胞的PCM组装情况。进行代谢标记研究以估计细胞HA的产生。使用荧光探针研究CD44和HA的表达，并用放射性标记的一水合草酸钙对晶体结合进行定量。

结果

PCM形成，大多数MDCK-I细胞和一些MDCK-II细胞表达HA，但LLC-PK1细胞不表达。所有细胞类型在其顶端表面均表达CD44。MDCK-I细胞和MDCK-II细胞分别分泌14.7±1.6和0.5±0.2 pmol掺入高M(r) HA的[3H]葡糖胺，而LLC-PK1细胞不分泌HA。链霉菌透明质酸酶处理显著降低了晶体与MDCK-I细胞的结合（μg/cm2）（从8.6±0.4降至3.9±0.9），但对MDCK-II细胞（从10.2±0.2降至9.6±0.1）或LLC-PK1细胞（从10.2±0.8降至9.9±0.3）几乎没有影响。