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1.
Nutr Metab Cardiovasc Dis ; 25(6): 588-93, 2015 Jun.
Article in English | MEDLINE | ID: mdl-25921845

ABSTRACT

BACKGROUND AND AIMS: Animal protein intake may cause an acid load that predisposes individuals to stones by influencing calcium and citrate excretion. These associations were not confirmed in recent studies. Therefore the present study was aimed to compare acid load of diet in stone formers and controls. METHODS AND RESULTS: Participants to the study were 157 consecutive calcium stone formers and 144 controls. Diet was analyzed in these subjects using a software that evaluated nutrient intake from a three-day food intake diary. This software also estimated the potential renal acid load (PRAL, mEq/day). Twenty-four-hour urine excretion of ions and citrate was measured in stone formers. Stone former diet had lower intake of glucose, fructose, potassium and fiber and higher PRAL in comparison with controls. The multinomial logistic regression analysis showed that stone risk decreased in association with the middle and the highest tertiles of fiber intake and increased in association with the highest tertile of PRAL. The linear multiple regression analysis showed that calcium excretion was associated with the sodium excretion and that citrate excretion was associated with the PRAL and animal protein intake in stone formers. CONCLUSION: Our findings suggest that stone formers may undergo a greater dietary acid load sustained by a low vegetable intake and base provision. Dietary acid load does not appear as the main determinant of calcium excretion, but may promote stone risk by decreasing citrate excretion. Sodium intake may predispose to stones by stimulating calcium excretion.


Subject(s)
Calcium/urine , Dietary Proteins/adverse effects , Feeding Behavior , Kidney Calculi/etiology , Adult , Biomarkers/urine , Case-Control Studies , Citrates/urine , Dietary Fiber , Female , Humans , Hydrogen-Ion Concentration , Italy , Kidney Calculi/diagnosis , Kidney Calculi/urine , Linear Models , Logistic Models , Male , Middle Aged , Multivariate Analysis , Nutrition Assessment , Nutritional Status , Odds Ratio , Protective Factors , Renal Elimination , Risk Factors , Sodium/urine , Sodium, Dietary/adverse effects , Urinalysis , Vegetables
2.
J Endocrinol Invest ; 34(7 Suppl): 8-12, 2011 Jul.
Article in English | MEDLINE | ID: mdl-21985973

ABSTRACT

Calcium sensing receptor (CaSR) is a component of the C family of the G protein-coupled receptors. It is ubiquitously expressed in human and mammal cells but is more expressed in parathyroid glands and kidney cells. It is located on the cell plasma membrane and senses the changes of extracellular calcium concentrations. Thus, it may modify cell functions according to serum calcium levels. CaSR has a key role in calcium homeostasis because it allows parathyroid glands and kidney to regulate PTH secretion and calcium reabsorption in order to keep serum calcium concentration within the normal range. CaSR appears as an important player in the regulation of renal calcium handling and body calcium metabolism. Thus, CaSR may protect human tissues against calcium excess. In kidneys, its protective effect includes the stimulation of diuresis and phosphate retention, along with the potential prevention of calcium precipitation and deposition in kidney tubules and interstitium.


Subject(s)
Calcium/metabolism , Kidney/metabolism , Animals , Calcium/blood , Homeostasis/physiology , Humans , Kidney Tubules, Collecting/metabolism , Kidney Tubules, Distal/metabolism , Kidney Tubules, Proximal/metabolism , Loop of Henle/metabolism , Parathyroid Glands/metabolism , Parathyroid Hormone/metabolism , Phosphates/metabolism , Receptors, Calcium-Sensing/physiology
3.
J Endocrinol Invest ; 32(4 Suppl): 21-6, 2009.
Article in English | MEDLINE | ID: mdl-19724162

ABSTRACT

Chronic kidney disease (CKD) is characterized by phosphate retention and reduced synthesis of 1.25(OH)2-vitamin D stimulating parathyroid hyperplasia. These changes cause a complex osteopathy, defined as renal osteodystrophy, and vascular calcification. Renal osteodystrophy increases the risk of fracture and causes deformities and disability. Vascular calcification occurs in a large proportion of hemodialysis patients and is a marker of arteriopathy. Calcifying arteriopathy induces arterial stiffness and contributes to the high cardiovascular mortality and morbidity among CKD patients. Vascular calcification results from a process of local bone formation induced by osteoblast-like cells developing in the vascular wall from resident cells. Osteoblast differentiation of resident vascular cells may be mediated by metabolic factors and may be induced by high concentrations of phosphate. Therefore, phosphate retention appears as the most detrimental factor affecting arteries in CKD patients. There is no specific therapy to revert soft tissue calcification, but calcification must be prevented in the early stages of CKD.


Subject(s)
Calcinosis/etiology , Chronic Kidney Disease-Mineral and Bone Disorder/complications , Vascular Diseases/etiology , Animals , Calcinosis/metabolism , Calcium/metabolism , Chronic Kidney Disease-Mineral and Bone Disorder/metabolism , Humans , Models, Biological , Phosphates/metabolism , Renal Insufficiency, Chronic/complications , Renal Insufficiency, Chronic/metabolism , Vascular Diseases/metabolism
4.
G Ital Nefrol ; 26(1): 64-72, 2009.
Article in Italian | MEDLINE | ID: mdl-19255965

ABSTRACT

Genetic studies of calcium kidney stones have so far assessed single candidate genes by testing linkage disequilibrium or association between a locus and stone disease. They showed the possible involvement of the calciumsensing receptor gene, vitamin D receptor gene, and bicarbonate-sensitive adenylate cyclase gene. In addition to research in humans, the study of different strains of knock-out mice let us include the gene of phosphate reabsorption carrier NPT2, caveolin-1, protein NHERF-1 modulating calcium and urate reabsorption, osteopontin and Tamm-Horsfall protein among the possible determinants. However, the interactions between genes and also between environmental factors and genes are generally considered fundamental in calcium stone formation. Thus, the genetic studies carried out to date have not led to a significant growth of the knowledge about the causes of calcium kidney stones, even though they have allowed us to assess the size of the problem and define criteria to address it. Further knowledge of the causes of calcium stones may be obtained using the instruments that modern biotechnology and bioinformatics have made available to researchers.


Subject(s)
Calcium , Kidney Calculi/genetics , Animals , Calcium/analysis , Disease Models, Animal , Forecasting , Genetic Linkage , Humans , Kidney Calculi/chemistry , Time Factors
5.
Kidney Int ; 71(11): 1155-62, 2007 Jun.
Article in English | MEDLINE | ID: mdl-17332735

ABSTRACT

An association between the R990G polymorphism of the CaSR gene, coding for calcium-sensing receptor, and primary hypercalciuria was found in kidney stone formers. To confirm this relationship, we investigated hypercalciuric women without stones and studied the effect of CaSR gene in human embryonic kidney cells (HEK-293). We genotyped for CaSR A986S, R990G, and Q1011E polymorphisms, 119 normocalciuric and 124 hypercalciuric women with negative history of kidney stones. Homozygous (n=2) or heterozygous (n=21) women for the 990G allele considered as one group had an increased risk to be hypercalciuric (odds ratio=5.2; P=0.001) and higher calcium excretion (P=0.005) in comparison with homozygous women for the 990R allele (n=220). HEK-293 cells were transfected with the variant allele at the three CaSR gene polymorphisms and with the most common allele with no variants. The transient increment of intracellular calcium caused by the stepwise increase of extracellular calcium was evaluated in stable transfected cells loaded with fura-2 AM. The extracellular calcium concentration producing the half-maximal intracellular calcium response was lower in HEK-293 cells transfected with the 990G allele than in those transfected with the wild-type allele (P=0.0001). Our findings indicate that R990G polymorphism results in a gain-of-function of the calcium-sensing receptor and increased susceptibility to primary hypercalciuria.


Subject(s)
Genetic Predisposition to Disease , Hypercalciuria/genetics , Polymorphism, Genetic , Receptors, Calcium-Sensing/genetics , Alleles , Amino Acid Substitution , Blotting, Western , Case-Control Studies , Cell Line , Codon , Electrophoresis, Polyacrylamide Gel , Exons , Female , Fluorescent Dyes , Fura-2/analogs & derivatives , Gene Frequency , Glycine/metabolism , Haplotypes , Heterozygote , Homozygote , Humans , Linkage Disequilibrium , Middle Aged , Odds Ratio , Polymorphism, Single Nucleotide , Protein Structure, Secondary , Risk Factors , Transfection
6.
G Ital Nefrol ; 24(6): 535-46, 2007.
Article in Italian | MEDLINE | ID: mdl-18278757

ABSTRACT

Kidney stone disease is one of the main causes of hospitalization in Italy. Its prevalence increased in the last century and is probably still increasing. The pathogenesis of the disease is not known, although two main theories have been elaborated. The first hypothesizes that hydroxyapatite deposition in the interstitium of the renal papillae (Randall's plaque) precedes urinary calcium oxalate precipitation on the ulcered surface of the papilla to form a stone. The second presumes the tubular lumen of Bellini's duct to be the site where calcium-oxalate salts precipitate to form the nucleus for stone formation within the urinary tract. These pathogenetic processes may be favored by different dietary and genetic factors. The genes involved are not known, although many studies have been performed. Polymorphisms of genes coding for the vitamin D receptor, calcium-sensing receptor, interleukin-1 receptor antagonist, and urokinase were found to be associated with kidney stones, but these results have not been replicated. Different nutrients are suspected to predispose patients to calcium kidney stone disease. A high intake of animal proteins, sodium, vitamin C and oxalate has been implicated in stone formation, whereas calcium, alkalis and phytate may have a protective effect. The prevention of calcium stone formation is based on the recognition of risk factors like those already mentioned here. Furthermore, a family history of kidney stones may be useful in identifying subjects predisposed to become calcium stone formers. However, the expectations of the scientific community are turned to the advances in genetics and to the findings of genetic studies, which may provide diagnostic tools and criteria to define the risk profile of the single individual.


Subject(s)
Calcium , Kidney Calculi/diagnosis , Kidney Calculi/prevention & control , Calcium/analysis , Calcium, Dietary/adverse effects , Humans , Kidney Calculi/chemistry , Kidney Calculi/etiology , Kidney Calculi/genetics
7.
Eur J Endocrinol ; 155(5): 687-92, 2006 Nov.
Article in English | MEDLINE | ID: mdl-17062884

ABSTRACT

CONTEXT: Primary hyperparathyroidism (PHPT) shows a great variability in clinical course and severity. Data concerning the association between polymorphic variants of the gene encoding the calcium-sensing receptor (CaSR) and clinical characteristics of PHPT are not conclusive. OBJECTIVE: To evaluate the frequency of three polymorphisms; A986S, R990G, and Q1011E of CaSR in patients with PHPT and to correlate the genotypes with clinical and biochemical parameters. PATIENTS AND METHODS: The study included 94 consecutive unrelated patients referred to our Departments for PHPT diagnosis and management between 2000 and 2005 and 137 age and sex-matched healthy subjects. Patients and controls were genotyped according to standard procedures. Due to the rarity of 990G allele, homozygous and heterozygous subjects were grouped in R/G+G/G set. All PHPT patients were studied for calcium metabolism parameters and renal and bone complications. RESULTS: The proportion of CaSRvariants was similar in PHPT patients and controls. In PHPT patients, only R990G polymorphism was associated with disease parameters; in comparison with R/R, R/G+G/G patients showed lower mean serum parathyroid hormone (PTH) and phosphate levels (139.9 +/- 62.2 vs 199.9 +/- 136.3 pg/ml, P < 0.05 and 0.69 +/- 0.12 vs 0.81 +/- 0.18 mmol/l, P = 0.031 respectively), higher mean 24-h urine calcium concentration and calcium excretion (9.05 +/- 2.05 vs 6.77 +/- 4.31 mmol/24 h, P = 0.012 and 67 +/- 20 vs 51 +/- 26 mumol/l GF, P = 0.039), and increased prevalence of nephrolithiasis (90.0 vs 44.2%, P = 0.007). CONCLUSIONS: The study showed that patients with PHPT, bearing the 990G allele, had lower serum PTH levels and higher urinary calcium excretion in comparison with the other genotype, suggesting an increased sensitivityof the variant receptor to extracellular calcium. Since this variant was associated with increased occurrence of nephrolithiasis, analysis of this polymorphism might help to predict renal complication of the disease.


Subject(s)
Calcium/urine , Hyperparathyroidism, Primary/genetics , Receptors, Calcium-Sensing/genetics , Aged , Amino Acid Substitution , Female , Humans , Hyperparathyroidism, Primary/urine , Hypertension/genetics , Male , Nephrolithiasis/genetics , Osteoporosis/genetics , Polymorphism, Genetic
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