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Query: UMLS:C0392525 (
nephrolithiasis
)
2,669
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Calcific kidney stones in both humans and mildly hyperoxaluric rats are located on renal papillary surfaces and consist of an organic matrix and crystals of calcium oxalate and/or calcium phosphate. The matrix is intimately associated with the crystals and contains substances that can promote as well as inhibit calcification. Osteopontin, Tamm-Horsfall protein,
bikunin
, and prothrombin fragment 1 have been identified in matrices of both human and rat stones. Hyperoxaluria can provoke calcium oxalate
nephrolithiasis
in both humans and rats. Kidney-stone-forming rats are hypomagnesuric and hypocitraturic during
nephrolithiasis
. Human stone formers may have the same disorders. Males of both species are prone to develop calcium oxalate
nephrolithiasis
, whereas females tend to form calcium phosphate stones. Oxalate metabolism is considered to be almost identical between rats and humans. Thus, there are many similarities between experimental
nephrolithiasis
induced in rats and human kidney-stone formation, and a rat model of calcium oxalate
nephrolithiasis
can be used to investigate the mechanisms involved in human kidney stone formation.
...
PMID:Animal models of kidney stone formation: an analysis. 928 52
Inter-alpha-inhibitor and other
bikunin
-containing proteins are synthesized in relatively large quantities by the liver. These proteins function as Kunitz-type serine protease inhibitors and appear capable of inhibiting calcium oxalate (CaOx) crystallization in vitro. Preliminary studies have shown that renal tubular epithelial cells synthesize
bikunin
in response to CaOx challenge. To examine this response in vivo, a sensitive reverse transcription-quantitative competitive template-PCR was developed to detect and quantify poly(A)+ -tailed
bikunin
mRNA expression in kidney tissue from normal rats and rats developing CaOx
nephrolithiasis
after challenge with ethylene glycol. Bikunin mRNA expression in rat liver tissue was assessed as a positive control. The expression of
bikunin
mRNA in liver did not differ significantly between normal control rats and experimental rats with induced hyperoxaluria and renal CaOx crystallization. In contrast, there were significant temporal increases in the levels of
bikunin
mRNA expression in rat kidneys during CaOx
nephrolithiasis
after challenge with ethylene glycol. Urinary excretion of
bikunin
-containing proteins seemed to increase concomitantly. These findings indicate an association between the induction of hyperoxaluria/CaOx
nephrolithiasis
and the expression of the
bikunin
gene in rat kidneys.
...
PMID:Temporal changes in mRNA expression for bikunin in the kidneys of rats during calcium oxalate nephrolithiasis. 1023 84
In the past two decades an increasing number of
nephrolithiasis
-related urinary proteins have been identified. This paper focuses on two of them, namely prothrombin fragment 1 and
bikunin
, members of the prothrombin and inter-alpha-trypsin inhibitor families of proteins, respectively. Besides their role as inhibitors of crystallization, these proteins are also involved in inflammation-mediated tissue repair. This is the basis for the concept that the response of renal tissue to injury might play an important role in the aetiology of kidney stones.
...
PMID:Changing concepts in the aetiology of renal stones. 1114 22
We reported that expression of both HSPG and of
bikunin
are increased in calcium oxalate (CaOx) nephrolithic rat kidneys (lida et al., J. Am. Soc. Nephrol. 1999, Urol. Res. 1997). However, these findings were obtained from separate experiments. The present study evaluates whether levels of HSPG and
bikunin
expression differ in the rat kidney during calcium oxalate
nephrolithiasis
. Twenty-four male Wistar rats weighing 200-250 g were assigned to one of four groups (n = 6 each group) and administered with 0.5% ethylene glycol daily and 0.5 microgram of 1 alpha-OH-D3 every other day to induce CaOx
nephrolithiasis
. Animals were sacrificed 1 or 2 weeks later and both kidneys were excised. The cortex was separated from the medulla and papillary tips in the right kidney, then stored in liquid nitrogen for quantitative competitive-reverse transcription-polymerase chain reaction (QC-RT-PCR). The left kidney was fixed in 10% buffered formalin for histochemical studies. We assessed the variable gene expression of both HSPG and
bikunin
by QC-RT-PCR. Immunohistochemical analyses of left kidney tissue samples determined the localization of HSPG and
bikunin
. Normal rats serving as controls (n = 6 each) were also sacrificed and processed in the same manner as the experimental groups. QC-RT-PCR confirmed that HSPG and
bikunin
mRNA expression is significantly increased in nephrolithic kidneys (p < 0.05; Mann-Whitney test), and that medulla and papillary tips tended to express more mRNA of both. Immunohistochemical studies revealed that the production of HS and
bikunin
was increased in both the distal and proximal tubules of nephrolithic kidneys. These findings suggest that the increased expression of both HSPG and
bikunin
play an important role during calcium oxalate stone formation. In addition, this phenomenon might be associated with the progression of urothelial damage.
...
PMID:Heparan sulfate (HS)/heparan sulfate proteoglycan (HSPG) and bikunin are up-regulated during calcium oxalate nephrolithiasis in rat kidney. 1247 24
Urine contains compounds that modulate the nucleation, growth and aggregation of crystals as well as their attachment to renal epithelial cells. These compounds may function to protect the kidneys against: 1, the possibility of crystallization in tubular fluid and urine, which are generally metastable with respect to calcium salts, 2, crystal retention within the kidneys thereby preventing stone formation and 3, possibly against plaque formation at the nephron basement membrane. Since oxalate is the most common stone type, the effect of various modulators on calcium oxalate (CaOx) crystallization has been examined in greater details. Most of the inhibitory activity resides in macromolecules such as glycoproteins and glycosaminoglycans while nucleation promotion activity is most likely sustained by membrane lipids. Nephrocalcin, Tamm-Horsfall protein, osteopontin, urinary prothrombin fragment 1, and
bikunin
are the most studied inhibitory proteins while chondroitin sulfate (CS), heparan sulfate (HS) and hyaluronic acid (HA) are the best studied glycosaminoglycans. Crystallization modulating macromolecules discussed here are also prominent in cell injury, inflammation and recovery. Renal epithelial cells on exposure to oxalate and CaOx crystals produce some of the inflammatory molecules such as monocyte chemoattractant protein-1 (MCP-1) with no apparent role in crystal formation. In addition, macrophages surround the CaOx crystals present in the renal interstitium. These observations indicate a close relationship between inflammation and
nephrolithiasis
.
...
PMID:Modulators of urinary stone formation. 1497 59
Nephrolithiasis
is a result of formation and retention of crystals within the kidneys. The driving force behind crystal formation is urinary supersaturation with respect to the stone-forming salts, which means that crystals form when the concentrations of participating ions are higher than the thermodynamic solubility for that salt. Levels of supersaturation are kept low and under control by proper functioning of a variety of cells including those that line the renal tubules. It is our hypothesis that crystal deposition, i.e., formation and retention in the kidneys, is a result of impaired cellular function, which may be intrinsic and inherent or triggered by external stimuli and challenges. Cellular impairment or dysfunction affects the supersaturation, by influencing the excretion of participating ions such as calcium, oxalate and citrate and causing hypercalciuria, hyperoxaluria or hypocitraturia. The production and excretion of macromolecular promoters and inhibitors of crystallization is also dependent upon proper functioning of the renal epithelial cells. Insufficient or ineffective crystallization modulators such as osteopontin, Tamm-Horsfall protein,
bikunin
, etc. are most likely produced by the impaired cells.
...
PMID:Genetic basis of renal cellular dysfunction and the formation of kidney stones. 1951 3
Experimental animal model studies suggest that calcium oxalate (CaOx) crystal deposition in the kidneys is associated with the development of oxidative stress, epithelial injury and inflammation. There is increased production of inflammatory molecules including osteopontin (OPN), monocyte chemoattractant protein-1 (MCP-1) and various subunits of inter-alpha-inhibitor such as
bikunin
. What does the increased production of such molecules suggest? Is it a cause or consequence of crystal deposition? We hypothesized that over-expression and increased production of MCP-1 is a result of the interaction between renal epithelial cells and CaOx crystals after their deposition in the renal tubules. We induced hyperoxaluria in MCP-1 null as well as wild type mice and examined pathological changes in their kidneys and urine. Both wild type and MCP-1 null male mice became hyperoxaluric and demonstrated CaOx crystalluria. Neither of them developed crystal deposits in their kidneys. Both showed some morphological changes in their renal proximal tubules. Significant pathological changes such as cell death and increased urinary excretion of LDH were not seen. Results suggest that at least in mice (1) Increase in oxalate and decrease in citrate excretion can lead to CaOx crystalluria but not CaOx
nephrolithiasis
; (2) MCP-1 does not play a role in crystal retention within the kidneys; (3) Expression of OPN and MCP-1 is not increased in the kidneys in the absence of crystal deposition; (4) Crystal deposition is necessary for significant pathological changes and movement of monocytes and macrophages into the interstitium.
...
PMID:Experimentally induced hyperoxaluria in MCP-1 null mice. 2116 47
The expression of renal inhibitors of crystallization (Tamm-Horsefall protein, osteopontin,
bikunin
) in experimental
nephrolithiasis
was studied in rats receiving 1% ethylene glycol solution for drinking for 3 weeks. The expression of Tamm-Horsefall protein increased, while osteopontin and
bikunin
expression decreased in experimental
nephrolithiasis
.
...
PMID:Expression of renal crystallization inhibitors in experimental nephrolithiasis. 2281 2
