Marc E. De Broe

Interpretation and Clinical Significance of Alkaline Phosphatase Isoenzyme Patterns

AbstractAlkaline phosphatase (ALP, EC 3.1.3.1.) is a membrane-bound metalloenzyme that consists of a group of true isoenzymes, all glycoproteins, encoded for by at least four different gene loci: tissue-nonspecific, intestinal, placental, and germ-cell ALP. Through posttranslational modifications of the tissue-nonspecific gene, for example, through differences in carbohydrate composition, bone and liver ALP are formed. Nowadays, most commercially available methods for separating or measuring ALP isoenzymes are easy to perform and sensitive and allow for reproducible and quantitative results. As more isoenzymes and isoforms have been characterized, confusion has arisen due to the many different names they were given. For the sake of simplicity and because of structural analogies, we propose an alternative nomenclature for the ALP isoenzymes and isoforms based on their structural characteristics: soluble, dimeric (Sol), anchor-bearing (Anch), and membrane-bound (Mem) liver, bone, intestinal, and placental A...

Incidence of C4d Stain in Protocol Biopsies from Renal Allografts: Results from a Multicenter Trial

C4d staining of renal allografts is regarded as an in situ marker of active humoral rejection. Few data are available about the incidence of C4d deposition in protocol biopsies compared to indication biopsies. To evaluate whether center‐specific factors influence the incidence of C4d detection, we performed a multicenter study. From three European centers, 551 protocol and 377 indication biopsies were reclassified according to the updated Banff criteria and stained for C4d. C4d results were recorded as diffuse or focal positive and statistically correlated to clinical parameters, morphology and graft survival. In the protocol biopsies, a diffuse C4d stain was found in 2.0%, and a focal stain in 2.4%. In indication biopsies, 12.2% were diffusely and 8.5% focally C4d positive (protocol:indication p < 0.0001). The incidence of C4d deposition varied significantly between centers, attributable to variable numbers of presensitized patients with more C4d positive indication and protocol biopsies. Diffuse and focal C4d stain correlated with morphology of humoral rejection in protocol as well as in indication biopsies. Protocol biopsies show a significantly lower incidence of C4d deposition than indication biopsies. Subclinical C4d detection in protocol biopsies had no significant impact on allograft survival in our series.

Guanidino compounds in serum and urine of nondialyzed patients with chronic renal insufficiency

Levels of 15 guanidino compounds and urea were determined in serum and urine of nondialyzed patients with chronic renal insufficiency subdivided according to etiology and creatinine clearances. No significantly different guanidino compound levels in serum and urine were found for the interstitial nephritis, glomerulonephritis, nephrangiosclerosis, and diabetic nephropathy subgroups. Subdividing the patients according to creatinine clearance yields the following results: (1) Serum guanidinosuccinic acid (GSA) and methylguanidine levels of patients with end-stage renal failure (creatinine clearance < 10 mL/min) are up to 100 and 35 times higher than control levels, while guanidine, creatinine, and symmetrical dimethylarginine (SDMA) are increased about 10 times. Serum levels of asymmetrical dimethylarginine (ADMA) are only doubled in end-stage renal failure. Serum levels of guanidinoacetic acid (GAA) and homoarginine are significantly decreased. (2) Urinary excretion levels of most guanidino compounds decrease with decreasing creatinine clearance except for GSA and methylguanidine. (3) Greater than 90% of patients with creatinine clearance ranging from subnormal to 40 mL/min have serum SDMA levels higher than the upper-normal limit; up to 80% have increased GSA levels. (4) The clearance rates of some of the guanidino compounds could be calculated: with the exception of arginine, they decrease with decreasing creatinine clearance. This study shows specific abnormal guanidino compound levels in serum and urine of nondialyzed patients with chronic renal insufficiency that can be used as complementary diagnostic parameters. The best correlation between serum guanidino compound levels and the degree of renal insufficiency is found for GSA, SDMA, methylguanidine, and guanidine. Urinary excretion levels of ADMA correlate best with decreasing creatinine clearance. Serum levels of GSA and especially SDMA are candidate indicators for the onset of renal failure.

Calcium Oxalate Crystal Adherence to Hyaluronan-, Osteopontin-, and CD44-Expressing Injured/Regenerating Tubular Epithelial Cells in Rat Kidneys

Retention of crystals in the kidney is an essential early step in renal stone formation. Studies with renal tubular cells in culture indicate that hyaluronan (HA) and osteopontin (OPN) and their mutual cell surface receptor CD44 play an important role in calcium oxalate (CaOx) crystal binding during wound healing. This concept was investigated in vivo by treating rats for 1, 4, and 8 d with ethylene glycol (0.5 and 0.75%) in their drinking water to induce renal tubular cell damage and CaOx crystalluria. Tubular injury was morphologically scored on periodic acid-Schiff-stained renal tissue sections and tissue repair assessed by immunohistochemical staining for proliferating cell nuclear antigen. CaOx crystals were visualized in periodic acid-Schiff-stained sections by polarized light microscopy, and renal calcium deposits were quantified with von Kossa staining. HA was visualized with HA-binding protein and OPN and CD44 immunohistochemically with specific antibodies and quantified with an image analyzer system. Already after 1 d of treatment, both concentrations of ethylene glycol induced hyperoxaluria and CaOx crystalluria. At this point, there was neither tubular injury nor crystal retention in the kidney, and expression of HA, OPN, and CD44 was comparable to untreated controls. After 4 and 8 d of ethylene glycol, however, intratubular crystals were found adhered to injured/regenerating (proliferating cell nuclear antigen positive) tubular epithelial cells, expressing HA, OPN, and CD44 at their luminal membrane. In conclusion, the expression of HA, OPN, and CD44 by injured/regenerating tubular cells seems to play a role in retention of crystals in the rat kidney.

Inhibitors of HMG-CoA Reductase Reduce Receptor-mediated Endocytosis in Human Kidney Proximal Tubular Cells

The proximal tubular cells of the kidney are responsible for reabsorption of proteins from the tubular lumen. In a study using Opossum kidney (OK) cells, receptor-mediated protein endocytosis was reduced by statins, inhibitors of 3-hydroxy-3-methylglutaryl CoA (HMG-CoA) reductase, which are widely used for therapeutic reduction of plasma cholesterol levels. To explore the possible clinical relevance of the observations in OK cells, protein endocytosis in human kidney tubular cells was investigated in the presence and absence of statins. The uptake of FITC-labeled albumin in these cultures of human kidney tubular cells was investigated by microscopy, flow cytometry and spectrofluorometry. Protein uptake occurred selectively into proximal tubular cells while it was absent in distal tubular/collecting duct cells. Three statins (simvastatin, pravastatin, and rosuvastatin) significantly inhibited the uptake of protein in a concentration-dependent way. This inhibitory effect of statins could be prevented by the co-addition of mevalonate, the product of HMG-CoA reductase. This effect was not the result of a statin-induced cytotoxicity since cell-viability was unaffected. Finally, it was demonstrated that statins strongly inhibited cholesterol synthesis in the human kidney tubular cells. These data suggest that statins have the potential to inhibit albumin uptake by the human proximal nephron as a result of inhibition of HMG-CoA reductase in the proximal tubule cells. Taken into account the data of the accompanying manuscript this inhibitory effect most probably results from a reduced prenylation of some proteins critically involved in endocytosis. It is suggested that these data help to explain the occurrence of proteinuria in some patients treated with high statin doses.

Strontium and Bone

STRONTIUM (Sr; MW 87.62) is ranked fifteenth in the order of the elemental crustal abundance in which it occurs at a concentration of 450 mg/kg. The element was first isolated in an impure form in 1808 and named after “Strontian,” a Scottish town where it was found at high concentrations in calcareous rocks consisting of natural apatites in which strontium may occur at concentrations as high as 73 g/kg. In ocean water, strontium is the most abundant trace element, reaching values of up to 8 mg/l. Natural water sources, such as rivers, springs, and wells, contain smaller amounts of the element ranging from 0.021 mg/l up to 0.375 mg/l. Strontium is a natural constituent of food and beverages. Meat, poultry, vegetables, and fruit contain relatively low amounts of the element (range 0.3–5.1 mg/kg), whereas in cereals, grains, and seafood it may be present at concentrations of up to 25 mg/kg. Hence, the strontium content of the human diet and the daily intake of the element varies according to the geographic area and the type of food consumed. A limited number of the series of radioactive strontium isotopes have been applied to the fields of medicine, biology, and biochemistry. The therapeutic potential of intravenously administered strontium-89 was first recognized in 1940 with the discovery that it could be used for the treatment of bone pain from metastatic prostate cancer. The latter isotope, as well as strontium-85 and strontium-88 have been primarily used as markers of calcium metabolism. Research on the toxicity of strontium has so far been focused mainly on the biological effects of radioactive strontium-90, which is an important constituent of nuclear fallout. At that time dietary supplementation of stable strontium was reported to inhibit the intestinal absorption of strontium-90, thereby serving as a deterrent to ingestion of radioactive strontium. However, caution was warranted with these preventive measures since replacement of dietary calcium with strontium was found to result in diminished growth, improper bone mineralization, and an inhibition of intestinal calcium absorption.

Characterisation of human tubular cell monolayers as a model of proximal tubular xenobiotic handling

The aim of this study was to determine whether primary human tubular cell monolayers could provide a powerful tool with which to investigate the renal proximal tubular handling of xenobiotics. Human proximal and distal tubule/collecting duct cells were grown as monolayers on permeable filter supports. After 10 days in culture, proximal tubule cells remained differentiated and expressed a wide palette of transporters at the mRNA level including NaPi-IIa, SGLT1, SGLT2, OCT2, OCTN2, OAT1, OAT3, OAT4, MDR1, MRP2 and BCRP. At the protein level, the expression of a subset of transporters including NaPi-IIa, OAT1 and OAT3 was demonstrated using immunohistochemistry. Analysis of the expression of the ATP binding cassette efflux pumps MDR1, MRP2 and BCRP confirmed their apical membrane localisation. At the functional level, tubule cell monolayers retain the necessary machinery to mediate the net secretion of the prototypic substrates; PAH and creatinine. PAH secretion across the monolayer consisted of the uptake of PAH across the basolateral membrane by OAT1 and OAT3 and the apical exit of PAH by a probenecid and MK571-sensitive route consistent with actions of MRP2 or MRP4. Creatinine secretion was by OCT2-mediated uptake at the basolateral membrane and via MDR1 at the apical membrane. Functional expression of MDR1 and BCRP at the apical membrane was also demonstrated using a Hoechst 33342 dye. Similarly, measurement of calcein efflux demonstrated the functional expression of MRP2 at the apical membrane of cell monolayers. In conclusion, human tubular cell monolayers provide a powerful tool to investigate renal xenobiotic handling.

Useful biochemical markers for diagnosing renal osteodystrophy in predialysis end-stage renal failure patients

BACKGROUND Various biochemical markers have been evaluated in dialysis patients for the diagnosis of renal osteodystrophy (ROD). However, their value in predialysis patients with end-stage renal failure (ESRF) is not yet clear. METHODS Bone histomorphometric evaluation was performed and biochemical markers of bone turnover were determined in serum of an unselected predialysis ESRF population (N = 84). RESULTS Significant (P < 0.005) differences between the five groups with ROD (ie, normal bone [N = 32], adynamic bone [ABD; N = 19], hyperparathyroidism [N = 8], osteomalacia [OM; N = 10], and mixed lesion [N = 15]) were noted for intact parathyroid hormone, total (TAP) and bone alkaline phosphatase (BAP), osteocalcin (OC), and serum calcium levels. Serum creatinine and (deoxy)pyridinoline levels did not differ between groups. For the diagnosis of ABD, an OC level of 41 microg/L or less (< or =7.0 nmol/L) had a sensitivity of 83% and specificity of 67%. The positive predictive value (PPV) for the population under study was 47%. The combination of an OC level of 41 ng/L or less (< or =7.0 nmol/L) with a BAP level of 23 U/L or less increased the sensitivity, specificity, and PPV to 72%, 89%, and 77%, respectively. ABD and normal bone taken as one group could be detected best by a BAP level of 25 U/L or less and TAP level of 84 U/L or less, showing sensitivities of 72% and 88% and specificities of 76% and 60%, corresponding with PPVs of 89% and 85%, respectively. In the absence of aluminum or strontium exposure, serum calcium level was found to be a useful index for the diagnosis of OM. CONCLUSION OC, TAP, BAP, and serum calcium levels are useful in the diagnosis of ABD, normal bone, and OM in predialysis patients with ESRF.

Does the Phosphate Binder Lanthanum Carbonate Affect Bone in Rats with Chronic Renal Failure

Adequate control of phosphate levels remains an important issue in patients with chronic renal failure (CRF). Lanthanum carbonate has been proposed as a new phosphate binder. Previous studies have shown a high phosphate binding capacity (>97%) and low gastrointestinal absorption of lanthanum, without serious toxic side effects in the presence of a normal renal function (NRF). Because of lanthanums physicochemical resemblance to calcium, the possible effects of it on bone have to be considered. The aim of this study was to investigate the effects of lanthanum carbonate on bone histology in NRF and CRF rats after oral administration of the compound with doses of 100, 500, or 1000 mg/kg per d for 12 wk. Bone histomorphometry showed that CRF animals that received vehicle developed secondary hyperparathyroidism. Urinalysis of lanthanum-loaded CRF animals showed a dose-dependent decrease in urinary phosphorus excretion, which was clearly more pronounced in the CRF groups compared with NRF animals. Phosphatemia, however, remained normal. Lanthanum carbonate administration induced a dose-dependent decrease in bone formation rate and increase in osteoid area in CRF animals. Three of seven animals in the CRF-1000 group and one of eight animals in the NRF-100 group were classified as having a mineralization defect. The number of cuboidal osteoblasts, however, was not affected, indicating that bone changes were not due to a toxic effect of lanthanum on the osteoblast. Furthermore, lanthanum concentrations in the femur remained low and did not correlate with histomorphometric parameters. These findings suggest that the administration of high doses of phosphate binder (1000 mg/kg per d lanthanum carbonate), in combination with decreased 25-(OH) vitamin D(3) in the uremic state, resulted in phosphate depletion and followed by an increased mobilization of phosphorus out of bone and/or reduced incorporation into bone. There was no evidence that lanthanum had a direct toxic effect on osteoblasts.

Lanthanum carbonate: a new phosphate binder

Purpose of reviewHyperphosphatemia remains an important aspect in the management of end-stage renal disease patients. Consequently, there is a need for new, efficient and well-tolerated phosphate binders. In this review, a new phosphate-binding drug, lanthanum carbonate, with an attractive preclinical efficacy profile compared with existing binders, is discussed. Although the available human efficacy and safety data over 3 years are encouraging, the consequences of low-level tissue deposition continue to be evaluated in longer-term clinical studies. Recent findingsLanthanum carbonate has been shown in clinical studies of up to 3 years to be an effective, well-tolerated phosphate binder. Reported adverse effects are mainly gastrointestinal, and do not differ from those of calcium carbonate. The gastrointestinal absorption of lanthanum is very low. Whereas the element is mainly excreted by the liver, renal excretion of the absorbed fraction is less than 2%. Bone lanthanum levels seen after long-term treatment (up to 4 years) seem not to affect the physicochemical process of mineralization, or osteoblast number/function. Preliminary data on the localization of lanthanum in bone have shown the element to be present at both active and quiescent sites of bone mineralization, independent of the type of renal osteodystrophy, a profile distinct from aluminum, as well as diffusely distributed throughout the mineralized bone matrix especially in rats/humans with an increased bone turnover. A randomized, comparator-controlled, parallel group, open-label study comparing lanthanum carbonate with calcium carbonate in dialysis patients showed no evolution towards low bone turnover in the lanthanum group, and no aluminum-like effect on bone. SummaryLanthanum carbonate seems to be a potent phosphate-binding drug, minimally absorbed from the gut, with an encouraging safety profile, and no deleterious effects on bone.