Identification of bikunin isolated from human urine inhibits calcium oxalate crystal growth and its localization in the kidneys

BACKGROUND: We previously reported a high molecular weight substance purified from human urine that strongly inhibited calcium oxalate (CaOx) crystal growth in vitro. In the study present herein, we identified and investigated a protein purified from human urine that strongly inhibits CaOx crystal growth using a column chromatography series. METHODS: The protein was identified by amino acid sequencing and was investigated by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), western blotting and immunohistochemical staining. RESULTS: The molecular weight of this protein was approximately 35 KDa, and it also had another band around 20 KDa. We determined that the amino acid sequence of the protein was homologous with that of bikunin, the light chain of the inter-alpha-trypsin inhibitor, which is known as a strong CaOx crystallization inhibitor in vitro. On western blotting analysis, the molecular weight was also found to be around 35K Da, the same as that of bikunin. Immunohistochemical staining revealed that it was mainly located in the epithelial cells of the proximal tubules and the thin descending segment near the loop of Henle, but not in the glomeruli, distal tubules or the collecting ducts. CONCLUSION: In the present study, the protein extracted from human urine was identical to bikunin, which may be expressed mainly in the proximal tubules and the thin descending segment near the loop of Henle, and which prevents CaOx crystallization in vitro.     

Decreased renal expression of the putative calcium oxalate inhibitor Tamm-Horsfall protein in the ethylene glycol rat model of calcium oxalate urolithiasis

PURPOSE: Tamm-Horsfall protein is believed to inhibit calcium oxalate crystallization, aggregation or adhesion to the renal epithelium. We determined whether ethylene glycol induced urolithiasis changes the expression of renal and urinary Tamm-Horsfall protein. For comparison the expression of another calcium oxalate inhibitor, osteopontin, was also analyzed. MATERIALS AND METHODS: Male rats were treated with 0.75% ethylene glycol plus an AIN-76 diet (Dyets, Bethlehem Pennsylvania) (ethylene glycol group) or standard rat chow and water (control group) for up to 8 weeks (6 per group for 8 weeks and 3 per group for 3 days to 6 weeks). Kidneys and urine (8 weeks only) were harvested and analyzed by Northern and Western blot analysis, and immunohistochemistry. RESULTS: Tamm-Horsfall protein message and protein (membrane bound form) were decreased, while those of osteopontin were increased in the kidneys of rats treated with ethylene glycol for 8 weeks. As judged by immunochemistry Tamm-Horsfall protein and osteopontin were consistently present in a few tubules in rats in the ethylene glycol and control groups, respectively. In urine expression of the free form of Tamm-Horsfall protein (approximately 75 kDa.) was decreased but detectable in ethylene glycol treated rats. Although readily detected in tissue, osteopontin was not detected in the urine of control or ethylene glycol treated rats. In the time course experiment Tamm-Horsfall protein did not decrease until 4 weeks, when calcium oxalate crystals were detectable in the kidneys of treated rats. In contrast, osteopontin was increased, although inconsistently, beginning at 3 days. CONCLUSIONS: Unlike other calcium oxalate inhibitors, such as osteopontin, renal message and protein for Tamm-Horsfall protein was decreased in ethylene glycol treated rats. Tamm-Horsfall protein expression did not decrease until aggregates of crystals had been deposited in the kidneys, while osteopontin expression began to increase almost immediately. Comparisons of the data on kidneys and urine obtained by RNA or protein blot analysis and immunochemistry underscore the need to examine tissue and urine by multiple techniques to obtain the most accurate assessment of how protein expression is changed by a given treatment.     

尿液成分对草酸钙结石的影响

目的 探讨尿液成分对草酸钙尿结石形成的影响。方珐 应用红外光谱仪对50份尿结石标本进行成分检测；对16例一水草酸钙（COM）与10例二水草酸钙（COD）尿结石患者的24h尿液进行生化检测，并比较两组生化指标。结果 87．5％的c0M结石患者和90％的c0D结石患者24h尿量减少；COM结石患者尿钙（4．94±2．11）mmol／24h，COD结石患者尿钙（9．43±3．78）mmol／24h；差异有统计学意义（P〈0．01）；COM结石患者尿磷（20．50±8．76）mmol／24h，COD结石患者尿磷（28．38±10．21）mmol／24h，差异有统计学意义（P〈0．05）；87．5％的COM结石患者尿枸橼酸低于正常水平。结论 COD结石患者尿钙、尿磷高于COM结石患者，表明COD结石的形成与高钙尿和高磷尿有关；COM结石的形成可能与低尿枸橼酸有关。     

Heat-shock protein 25 ameliorates calcium oxalate crystal-mediated oxidative stress in renal epithelial cells

OBJECTIVE: To investigate whether the antioxidant protection attributed to small heat-shock proteins (sHSPs) affects calcium oxalate stone formation, a pro-oxidant disease. MATERIALS AND METHODS: Canine distal tubular epithelial cells (Madin-Darby canine kidney, MDCK cells) were grown as confluent monolayers. Treatment regimens included control and HS-treated cells (37 degrees C and 42 degrees C for 1 h) with or without calcium oxalate monohydrate (COM) or free oxalate treatment (28 microg/cm2) 16 h later. In digitonin-permeabilized cells, O2- was measured by lucigenin-enhanced chemiluminescence over a 5-min period, to measure mitochondrial O2- production. Protein expression was assessed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis Western blot analysis using specific antibodies. RESULTS: COM significantly increased O2- production in MDCK cells. HS treatment, which up-regulated HSP25 expression, significantly decreased this O2- production (P < 0.05) but had no effect in control cells. In COM-treated cells (20 h) there was a marked and significant down-regulation of both HSP 25, HSP 70 and heme oxygenase-1 expression compared to cells treated with HS alone (P < 0.05). Free oxalate had no effect on HSP 25 expression. CONCLUSIONS: The results suggest that the COM-induced increase in mitochondrial O2- production in MDCK cells is ameliorated by HSP 25 up-regulation via HS. Specific COM inhibition of HSP 25, HSP 70 and heme oxygenase-1 up-regulation suggests that COM-induced reactive oxygen species damage is unable to benefit from HSP-associated physiological resistance.     

Changes in urine macromolecular composition during processing

PURPOSE: To determine the urinary crystallization inhibitory activity, urine is generally centrifuged and/or filtered. These preparative procedures may result in a total or partial removal of many macromolecular constituents implicated in crystallization. The main purpose of this study was to investigate the changes in urinary macromolecular composition following centrifugation and filtration. MATERIALS AND METHODS: Twenty-four hour urine samples were collected from human volunteers. Each was divided into 4 aliquots; one was filtered, the other was centrifuged, another was centrifuged and filtered. The control sample was neither filtered nor centrifuged. Total protein and lipid contents of each sample were determined. Proteins were analyzed using sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). Western blot analysis was performed using antibodies against osteopontin (OPN), prothrombin (PT) related proteins, inter-alpha-inhibitor (IalphaI) related proteins, Tamm-Horsfall protein (THP), and albumin (ALB). The effect of processing on incorporation of urinary proteins in crystal matrices was also examined. Calcium oxalate crystals were produced in processed and unprocessed urine samples by the addition of sodium oxalate. Crystals were harvested, de-mineralized and their proteins analyzed by SDS-PAGE and Western blotting. RESULTS: Processing reduced the amounts of both proteins and lipids in the urine. Previously we identified phospholipids in the matrix of calcium oxalate crystals as well as the filtrate and retentate removed during filtration and centrifugation. Phospholipids have a high affinity for calcium-containing crystals. In the case of proteins, those with high molecular weights appeared to be clearly affected by filtration and centrifugation. Processing also appeared to influence the incorporation of proteins in the crystals. The matrix of crystals produced in processed urine contained less THP than those made in unprocessed urine, apparently a result of the loss of this higher molecular weight protein during processing. Incorporation of PT-related proteins, particularly fragment 1, was increased. CONCLUSIONS: We propose that selective inclusion of macromolecules is a result of an increase in available binding sites on crystal surfaces because of the removal of certain calcium binding substances such as phospholipids and proteins. Removal of larger macromolecules from the milieu may also provide a better access to the crystal surfaces.     

Glycosaminoglycans,uric acid and calcium oxalate urolithiasis

Summary The interaction between calcium and glycosaminoglycans (GAGs) was studied using a calcium ion-selective electrode. The Ca-binding capacity of GAGs involved 16% of total calcium in the presence of chondroitin sulphate and 28% in the presence of pentosan polysulphate. The action of GAGs on the nucleation of uric acid and sodium urate was examined and inhibitory effects were observed. The action of uric acid as a heterogeneous nucleant of calcium oxalate was studied, and considerable promotion of the heterogeneous nucleation of calcium oxalate by uric acid was found, which could be inhibited by the action of GAGs. From these summarised in vitro results, we conclude that uric can constitute an important risk factor for calcium oxalate urolithiasis through heterogeneous nucleation and the GAGs can play an important role as preventive agents.     

Tamm-Horsfall蛋白对草酸钙结晶成核和聚集的影响

目的 在人工尿液中，观察不同浓度及不同性质的Tamm-Horsfall蛋白对草酸钙的成核，生长，聚集的影响。方法 通过分光光度计在620μm时的A值的测定可在过饱和溶液中观察草酸钙晶体的成核和积聚。观察参数包括诱导时间（inducetime），简写为，TI，即形成可观察微粒所需的时间；成核曲线（slope of nucleation）的速率，简写为SN，即分光光度计A620所观察的曲线上升支；聚积曲线（slopeofaggregation）的速率，简写为SA，即下降支，以及加入不同浓度的NTHP（正常人尿液中所提取的TH蛋白），SF-THP（结石患者尿液中所提取的TH蛋白）后对参数的影响。结果 草酸钙结晶实验的诱导时间为（60．0±2．0）s，成核速率（SN）（1．058±0．036）×10^-3／s，聚集速率（SA）为（0．074±0．006）×10^-3／s．NTHP浓度20mg／L时，诱导时间（59±8）s；NTHP30mg／L时，诱导时间（63±11）s；NTHP40mg／L时，诱导时间（57±6）s，NTHP既可抑制晶体成核，又可抑制晶体的聚集。SF-THP20mg／L时，诱导时间（37±2）s；SF-THP30mg／L时，诱导时间（34±3）s；SF-THP40mg／L时，诱导时间（31±5）s，ST-THP降低TI并且促进聚集。结论 NTHP和ST-THP对草酸钙晶体的结晶动力学的影响是不同的。     

The role of glycoproteins in calcium oxalate crystal development

OBJECTIVE: To assess the effects of a glycoprotein (mucine) on calcium oxalate crystal development in different conditions and situations, to clarify some of its possible effects. MATERIALS AND METHODS: Crystallization was assessed using a batch system in presence of mucine suspensions, by kinetic-turbidimetric measurements, and using a flow system in the presence of retained agglomerates of mucine, evaluating the precipitated calcium oxalate. RESULTS: In batch conditions low mucine concentrations (<15 mg/L) inhibited calcium oxalate nucleation and higher concentrations (<250 mg/L) inhibited calcium phosphate nucleation, whereas at high concentrations there was also promotion. The presence of an aggregate of mucine in the flow system provoked calcium oxalate monohydrate crystallization at 0.691 microg/h per mg of mucine. In flow conditions pyrophosphate at 11.5 micromol/L caused a decrease of 84% in the calcium oxalate crystallized on mucine, 1.32 mmol/L of citrate a decrease of a 83%, 20 mg/L of pentosan polysulphate a decrease by 80%, and 7.58 micromol/L phytate totally prevented the crystallization of calcium oxalate on mucine. CONCLUSION: All substances inhibiting calcium oxalate crystallization with the capacity to interact with calcium ions also have crystallization promoting properties when they are at sufficiently high concentrations, because of their capacity to form agglomerates or the insolubility of their calcium salts.     

Isolation and purification of a new glycoprotein from human urine inhibiting calcium oxalate crystallization

Summary A calcium oxalate crystal growth inhibitor was isolated from human urine using DEAE-Sephacel gel followed by Sephacryl S-300 chromatography and FPLC column. The isolated inhibitor was a uronic-acid-rich protein (UAP). It was found to be a glycoprotein with a molecular weight of 35 000 Da as determined by SDS-polyacrylamide gel electrophoresis. Inhibitory activity was demonstrated using a calcium oxalate crystallization system. In addition UAP, nephrocalcin (NC) or nephrocalcin-like (NC-like) activity was an effective inhibitor in this system. However, the inhibitory activity of UAP appeared to be higher than that of NC or NC-like activity. This finding suggests that NC or NC-like activity is not only urinary protein with strong inhibitory activity. UAP and probably other proteins also play a role in the control of urinary crystal growth.     

Magnesium, citrate, magnesium citrate and magnesium-alkali citrate as modulators of calcium oxalate crystallization in urine: observations in patients with recurrent idiopathic calcium urolithiasis

The effects of magnesium (Mg) and citrate on the metastable limit of calcium oxalate (CaOx) solubility (synonym: tolerable oxalate TO) were examined in artificial urine and in postprandial urine of male patients with idiopathic calcium urolithiasis (ICU). In artificial urine increasing pH, Mg and citrate elevate TO, decrease CaOx supersaturation only marginally, but elevate considerably free citrate; the effect of Mg alone was small in comparison with citrate alone, and the effects of both substances appeared additive. In ICU patients, matched for sex, age and CaOx supersaturation to non-stone-forming controls, TO was decreased (mean values 0.33 vs. 0.52 mM/l in controls, P < 0.05). Additional significant (P < 0.05) differences were found between ICU and controls: the former exhibited increased CaOx crystal growth, decreased crystal agglomeration time, a more acidic urinary pH, increased concentrations of free calcium and free Mg, and decreased free oxalate and free citrate. After ingestion of a urine-acidifying test meal, or this meal supplemented with either neutral Mg citrate or Mg-alkali citrate, by three groups of male ICU patients, matched for age and CaOx supersaturation, only the last-named preparation evoked an increase in TO and a decrease in crystal diameter, while the normally occurring pH decline from fasting urine was virtually abolished, and the ratios urinary Mg/citrate and calcium/citrate tended towards low values. In contrast, Mg citrate increased crystal agglomeration time, while changes in the other parameters were only insignificant. The crystals formed in urine were CaOx di- and monohydrate (by electron microscopy), and energy dispersive X-ray analysis showed calcium peaks exclusively. However, chemical analysis of crystals verified the presence not only of oxalate and calcium, but also of Mg, phosphate, citrate, and urate; moreover, these crystal constituents seemed to be influenced by Mg citrate and Mg-alkali citrate in different ways. It was concluded that (1) Mg and citrate are effectors of TO in artificial and natural urine; (2) in ICU, low TO and other disturbed CaOx crystallization parameters appear related to the prevailing low urinary pH and low free citrate; (3) Mg-alkali citrate inhibits CaOx crystallization, probably via actions of the citrate, but not the Mg. Because of the eminent role of Mg in human health and ICU, further studies on crystallization after oral intake of Mg in the form of citrate are warranted. Received: 15 May 1998 / Accepted: 9 October 1998     

肾结石大鼠肾组织bikunin mRNA的表达

目的 :研究bikunin在实验性肾草酸钙结石大鼠肾组织的表达及意义。方法 :采用乙二醇和氯化铵诱导大鼠肾草酸钙结石模型形成 ,检测各组大鼠肾功能、肾组织Ca2 + 含量和草酸钙晶体沉积、尿生化指标 ,并用逆转录聚合酶链反应 (RT PCR)检测bikuninmRNA在肾组织的表达情况。结果 :模型组大鼠的血清Cr、BUN、肾Ca2 + 含量、2 4h尿Ca2 + 、草酸 (Ox)分泌量和肾组织bikuninmRNA的表达均明显高于正常组 (P <0 .0 5 )。结论 :高草酸尿和草酸钙结晶的沉积能促使大鼠肾脏通过合成更多的bikunin来抑制大鼠肾组织草酸钙晶体的形成。     

Intracrystalline proteins and urolithiasis: a comparison of the protein content and ultrastructure of urinary calcium oxalate monohydrate and dihydrate crystals

OBJECTIVE: To compare the ultrastructure and protein content, particularly prothrombin fragment 1 and osteopontin, of calcium oxalate monohydrate (COM) and calcium oxalate dihydrate (COD) crystals precipitated from human urine, and their susceptibility to proteolysis, to try to clarify the role of intracrystalline proteins in urolithiasis, as differences between these types of crystal may determine whether calcium oxalate crystals nucleated in urine progress to stone formation. MATERIALS AND METHODS: Sodium dodecyl sulphate gel electrophoresis and Western blotting were used to analyse demineralized extracts of COM and/or COD crystals deposited from the same centrifuged and filtered urine (which contains abundant urinary proteins) by adjusting the calcium concentration to 2 and 7 mmol/L, respectively. Similar analyses were performed on COM and COD crystals deposited from ultrafiltered urine (which contains only proteins of < 10 kDa) and then incubated in centrifuged and filtered urine, as well as crystals generated in the presence of increasing concentrations of proteins derived from the organic matrix of urinary calcium oxalate crystals. Field-emission scanning electron microscopy was used to assess effects of proteinase K and cathepsin D on internal and superficial crystal structure. RESULTS: Osteopontin was undetectable in COM extracts, but clearly visible in COD. Prothrombin fragment 1 was abundant in COM, but present in COD in lesser amounts than osteopontin. The selectivity was also the same with crystals from ultrafiltered urine that were incubated in centrifuged and filtered urine: prothrombin fragment 1 binding was favoured by low calcium concentration, while osteopontin bound at higher levels. Scanning electron microscopy of COM and COD digested with proteinase K and cathepsin D revealed superficial and internal texture, as wells as surface erosion, in crystals from centrifuged and filtered urine, thus confirming the presence of intracrystalline proteins. Such features were absent from crystals precipitated from ultrafiltered urine. CONCLUSION: Binding of osteopontin and prothrombin fragment 1 to calcium oxalate is dictated primarily by ambient calcium concentration. Each protein may inhibit urolithiasis by inhibiting crystallization of its preferred crystal habit, and by facilitating the intracellular disintegration and dissolution of crystals attached to and internalized by renal epithelial cells.     

Inhibition of calcium oxalate crystallization in urine

Summary Chromatographic separation of urine showed inhibition of calcium oxalate (CaOx)-crystallization among substances with both large and small molecular weights. Ultrafiltration showed that approximately 80 per cent of the inhibiting activity, as determined in 2 per cent urine, orginated from substances with a molecular weight above 1,000. Dialysed urine was diluted to 7.5 mmol of creatinine per 1 and supersaturated with respect to CaOx. The rate of crystallization in these samples was slower in normal subjects than in stone formers (P< 0.05). The inhibiting activity in diluted urine from the two groups did not differ and neither did the concentration of alcian blue precipitable polyanions. From measurements in diluted urine it was apparent that inhibition was demonstrable with a urine concentration as low as 0.3 per cent.     

The effect of crystalline monosodium urate on the crystallisation of calcium oxalate in whole human urine

Summary (1) Samples of undiluted urine from normal men were preincubated with crystalline monosodium urate and their metastable limits and responses to a standard oxalate challenge were compared with results obtained from control samples preincubated without urate. (2) Preincubation with urate had no significant effect on the metastable limits of the urines, the morphology, size, or growth rates of calcium oxalate crystals precipitated from the urines, or on the total amount of calcium oxalate deposited in a given time. (3) It was concluded that particulate monosodium urate is unlikely to influence calcium oxalate stone formation by binding to and attenuating the potency of urinary inhibitors.     

Influence of gender and age on calcium oxalate crystal growth inhibition by urine from relatives of stone forming patients

PURPOSE: We define the relationships between urine inhibition of calcium oxalate crystal growth and age, gender, urine chemistries and stone formation among relatives of calcium stone forming patients. MATERIALS AND METHODS: We collected 24-hour urine samples from 366 first degree relatives of calcium stone formers. Calcium oxalate crystal growth inhibition was studied using a constant amount of dialyzed urine protein in a seeded crystallization system. Standard stone risk measurements were also performed on the urine, including supersaturation for calcium oxalate, calcium phosphate and uric acid. RESULTS: By multivariate analysis crystal growth inhibition is strongly inversely related to the amount of protein excreted per day, and the age of the subject. When corrected for protein excretion and age, urine proteins from nonstone forming male subjects inhibited crystal growth more strongly than those from corresponding female subjects. Among stone formers the sex difference was not present. CONCLUSIONS: Inhibition of calcium oxalate crystal growth is influenced by a complex combination of gender, age, stone formation and assay conditions. The effect of daily protein excretion is most likely a consequence of using a fixed amount of urine protein per assay. The influence of age is significant and unexplained, with the urine of young people (less than 20 years) demonstrating a vigorous ability to inhibit crystallization. In addition, the urine of nonstone forming male relatives appears to have a greater ability to inhibit crystallization than that of nonstone forming female relatives. Further use of this assay in clinical investigations must take age and gender into proper account.     

The effects of intracrystalline and surface‐bound proteins on the attachment of calcium oxalate monohydrate crystals to renal cells in undiluted human urine

OBJECTIVE

To compare the binding to Madin‐Darby canine kidney (MDCK)‐II cells of: (i) inorganic calcium oxalate monohydrate (iCOM) crystals and COM crystals precipitated from urine containing different concentrations of protein; and (ii) urinary COM crystals containing intracrystalline and intracrystalline + surface‐bound protein.

MATERIALS AND METHODS

Urinary COM crystals were generated in sieved (sCOM), centrifuged and filtered (cfCOM), and ultrafiltered (ufCOM) portions of a pooled human urine and their adhesion to MDCK‐II cells was compared using six different ultrafiltered urine samples as the binding medium. Crystal matrix extract (CME) was prepared by demineralizing calcium oxalate crystals precipitated from human urine and used to prepare COM crystals with intracrystalline, and intracrystalline + surface‐bound CME at protein concentrations of 0, 0.05, 0.1, 0.5 and 5.0 mg/L. The amount of protein associated with the crystals was qualitatively assessed by sodium dodecyl sulphate‐polyacrylamide gel electrophoresis and Western blotting, using prothrombin fragment 1 (PTF1) as a marker. Protein concentration was determined in sieved, centrifuged and filtered, and ultrafiltered fractions of 10 additional urine samples.

RESULTS

The median crystal attachment in the six urine types decreased in the order iCOM > ufCOM > cfCOM = sCOM, in inverse proportion to the concentration of protein in the solution or urine from which they were precipitated. sCOM and cfCOM crystals bound ≈ 23% less than iCOM crystals. The attachment of COM crystals generated in the presence of increasing concentrations of CME proteins was unaffected up to a concentration of 5 mg/L, but binding of crystals containing the same concentrations of intracrystalline + surface‐bound proteins decreased proportionally at protein concentrations from 0 to 5.0 mg/L.

CONCLUSION

Inorganic COM crystals bind significantly more strongly to MDCK‐II cells than urinary crystals precipitated from sieved, centrifuged and filtered, and ultrafiltered urine, and binding affinity is inversely related to the concentration of protein in the urine in which they are formed. While both intracrystalline and superficial CME proteins reduce the attachment of COM crystals to MDCK‐II cells, those located on the crystal surface have a greater influence than those incarcerated within the mineral bulk. Future cell–crystal interaction studies should use urinary crystals and be performed in human urine.     

瘦猪肉餐对草酸钙结石患者尿生化的影响

目的研究瘦猪肉餐对一水草酸钙（calciumoxalate monohydrate,COM）与二水草酸钙（calciumoxalate dehydrate,COD）结石患者尿生化的影响,探讨草酸钙结石形成的机制。方法正常人、COM与COD结石患者各6例,共18例同予以煮瘦猪肉350g食用,收集实验日晨5-7时2h尿为样本,餐后各留3次2h尿标本,测定尿pH值和尿晶体成分浓度;采用SPSS软件对检测结果进行方差分析。结果三组受试者瘦猪肉餐后尿钙、尿酸和尿草酸排泄逐渐增加,而尿量、尿pH值和尿枸橼酸降低;瘦肉餐前后比较,COM与COD结石患者尿pH值、尿枸橼酸、尿钙和尿草酸有显著性差异（P〈0.05）,尿酸排泄有极显著性差异（P〈0.01）;对照组,尿钙、尿酸排泄均有显著性差异（P〈0.05,P〈0.01）。结论大量饮食猪瘦肉可导致尿pH值和尿晶体成分变化,可能是尿结石形成的重要原因之一。     

Effects of chondroitin sulphate,human serum albumin and Tamm-Horsfall mucoprotein on calcium oxalate crystallization in undiluted human urine

Summary The effects of physiological concentrations of chondroitin sulphate, human serum albumin and Tamm-Horsfall mucoprotein on the crystallization of calcium oxalate in undiluted, ultrafiltered human urine were investigated using particle size analysis and scanning electron microscopy. Neither the amount of oxalate required to induce detectable calcium oxalate crystal nucleation nor crystal morphology was affected by the presence of any of these macromolecules. Chondroitin sulphate had no effect on the amount of crystalline material deposited or on the size of the particles precipitated in response to a standard oxalate load. Human serum albumin slightly reduced the size of the crystal aggregates and caused a small increase in the amount of crystal matter precipitated. By contrast, Tamm-Horsfall mucoprotein significantly inhibited crystal aggregation and markedly increased the volume of matter deposited, although this could not be attributed to a promotion of solute precipitation. It was concluded that chondroitin sulphate, human serum albumin and Tamm-Horsfall mucoprotein cannot account for the inhibitory effects of macromolecules with a relative mass greater than 10 kDa in spun and filtered urine. Nonetheless, Tamm-Horsfall mucoprotein is likely to inhibit crystal aggregation in whole urine in vivo and may therefore be instrumental in preventing calcium oxalate stone formation.     

Impact of various modifiers on calcium oxalate crystallization

OBJECTIVE: This work focuses on the behavior of in vitro calcium oxalate crystallization. The effects of several compounds on the kinetics of calcium oxalate crystallization were examined. METHODS: Rates of nucleation and aggregation of calcium oxalate crystals were derived from 30-min time-course measurements of optic density at 620 nm after mixing solutions containing calcium chloride and sodium oxalate at 37 degrees C, pH 5.7. The maximum increase of optic density with time, termed S(N), mainly reflects maximum rate of formation of new particles and thus crystal nucleation. After equilibrium has been reached, optic density decreases. No new particles were formed due to crystal aggregation. S(A) (the maximum slope of decrease of optic density at 620 nm with time, representing crystal aggregation) is derived from the maximum decrease in optic density. RESULTS: Among the modifiers studied, citrate decreased both S(N) and S(A) (P < 0.001). Magnesium was also found to inhibit the rate of nucleation and crystal aggregation, but it appeared in a non-concentrated manner. Nucleation and aggregation inhibition ratios were related inversely to concentration of albumin (P < 0.001). CONCLUSION: The growth and agglomeration of calcium oxalate crystals are differently modulated by various compounds. The treatments aiming at inhibiting crystallization of calcium oxalate can be better defined by these findings. And new treatment modalities can be developed.