UMLS:C0344329 - FACTA Search

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The relationship between physical stability of freeze-dried cakes and protein stability during storage was studied using beta-galactosidase as a model protein and inositol as an excipient. Amorphous samples freeze-dried from solutions containing the enzyme and various concentrations of inositol in sodium phosphate buffer (50 mM, pH 7.4) were stored for 7 days over P2O5 at 40 to 70 degrees C. Structural collapse and inositol crystallization were observed in some of the samples, depending on the formulation and storage temperature. The physical stability of freeze-dried samples was also studied by differential scanning calorimeter (DSC). Inositol showed a protein-stabilizing effect when its amorphous form was retained during storage, regardless of structural collapse. However, crystallization of inositol during storage removed its stabilizing effect. Addition of water-soluble polymers such as dextran, Ficoll and carboxymethyl cellulose sodium salt (CMC-Na) preserved activity of the enzyme by preventing inositol crystallization.
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PMID:Physical stability and protein stability of freeze-dried cakes during storage at elevated temperatures. 793 61

The stability of nucleosomes in long chromatin fragments was observed by differential scanning calorimetry over a wide range of solution conditions. The thermal denaturation of chromatin was characterized in general as three major transitions, although the process clearly is more complex. The three major transitions were (1) denaturation of the nucleosome, (2) base unstacking of DNA in the resulting denatured nucleoprotein, and (3) base unstacking of naked DNA. In very low salt concentrations (e.g., 2 mM sodium cacodylate), these three processes were essentially coincident (near 76 degrees C), but in medium salt concentrations (e.g., 100 mM NaCl) the nucleosome denaturation occurred first at about 69 degrees C and then base unstacking occurred at 85 degrees C. As [NaCl] was increased, all three processes were resolved with the observation of increasing amounts of naked DNA being melted, until at 2000 mM NaCl the calorimetric profile showed mainly the melting of DNA. The transition temperature for nucleosome denaturation decreased from 76 to 63 degrees C as the salt concentration increased from 1 to 600 mM. Destabilization of the nucleosome by increasing [NaCl] was also evident above 100 mM as a decrease in enthalpic change attributable to nucleosome denaturation. Similarly, as [NaCl] was increased above 100 mM, less and less denatured nucleoprotein was evident as more and more of the DNA melted as naked DNA. The fatty acid salts, sodium valerate and sodium caproate, destabilized the nucleosome but not the denatured nucleoprotein that resulted from the collapse of the nucleosome. In the series acetate, butyrate, valerate, caproate, it was clear that destabilization of the nucleosome increased as hydrophobicity (chain length) increased.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of various salts and pH on the stability of the nucleosome in chromatin fragments. 804 28

Hypomagnesaemia with magnesuria are common findings in cyclosporin-(CsA)-treated patients and have been proposed as both a cause and a consequence of nephrotoxicity. To investigate the role of Mg depletion in the pathogenesis of acute CsA nephrotoxicity, rats kept on a low-salt diet were maintained on plain water (Mg(-)group) or water supplemented with 2% MgCl2 (Mg(+)group) and randomly assigned to treatment with CsA 15 mg/kg (CsA) or vehicle (VH) s.c. for 7 days. Water and food ingestion in VH animals was adjusted to the intake of CsA animals. CsAMg(-) group showed a significant plasma magnesium (PMg) reduction as compared to baseline (1.13 versus 1.53 mg/dl, P < 0.001) or VH values (versus 1.60 mg/dl, P < 0.001) and a significantly greater posttreatment fractional excretion of magnesium (FeMg) as compared to VH (9.4 versus 5.4%, P < 0.01). Magnesium supplementation increased PMg (2.11 versus 1.57 mg/dl P < 0.001) and FeMg (13.6 versus 6.2%, P < 0.001) but did not prevent a reduction in GFR with CsA treatment. Alanine aminopeptidase (AAP) excretion at 7 days was significantly greater than baseline (130 versus 44 IU/gCr, P < 0.05) or VH (36 IU/gCr, P < 0.05) values only in the CsAMg(-) rats. No differences were observed in intraerythrocyte Mg, blood pressure, and urinary excretion of N-acetyl-beta-D-glucosaminidase among groups. Renal histology was similar in CsA rats independent of magnesium supplementation: mild vacuolization and tubular collapse in proximal tubules.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of oral magnesium supplementation on acute experimental cyclosporin nephrotoxicity. 817 71

Poly(dI-dC).poly(dI-dC) was studied using vibrational circular dichroism and IR spectroscopy in both the base deformation C = O and symmetric PO2- stretching regions. VCD spectra of this duplex under low salt conditions are consistent with its having a B-form structure. Addition of 5 M NaCl leads to relatively uniform VCD intensity loss which is consistent with loss of helical structure rather than formation of an intermediate state between the B and Z forms. This duplex polymer under high salt conditions with added NiCl2 shows aggregation effects, but its IR and VCD spectra have characteristic features of the Z-form DNA conformation. The cooperative change of backbone and base pair structure upon thermal denaturation is indicated by the simultaneous collapse of the VCD at 65 degrees C in both the PO2- and C = O stretching regions. This study further demonstrates that the VCD bandshape of a specific localized nucleic acid vibrational transition can be a useful indicator of the helical handedness. The empirical conformational interpretations are supported by simulated VCD spectra, which are in excellent agreement with the experimental results, based on dipole coupling calculations.
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PMID:Helical nature of poly(dI-dC).poly(dI-dC). Vibrational circular dichroism results. 837 87

Evidence is presented to show that small unilamellar phosphatidylcholine vesicles with a diameter of approx. 20 nm are osmotically sensitive. Such vesicles respond to osmotic pressure by swelling or shrinking depending on the direction of the applied salt gradient. This is true for small unilamellar vesicles of egg phosphatidylcholine and dimyristoylphosphatidylcholine below and above their crystal-to-liquid crystal transition temperature. At the transition temperature the vesicles are osmotically insensitive due to the increased bilayer permeability resulting in rapid dissipation of salt gradients. Positive salt gradients produce shrinking and collapse of spherical phospholipid vesicles to disks. Shrinking of vesicles is associated with H2O and solute efflux, but only limited solute influx. Clustering of lipid molecules in the bilayers of the resulting disks can be detected by EPR spin labeling. Negative salt gradients produce swelling of vesicles which is associated with H2O and solute influx. Our experiments are consistent with an osmotically perturbed bilayer. In the presence of osmotic gradients the influx and efflux of H2O is coupled with the movement of ions and small molecules which in the absence of salt gradients or osmotic stress cannot pass the phospholipid bilayer. However, during osmotically induced shrinking and swelling of SUV the integrity of the phospholipid bilayer is maintained to the extent that vesicles do not break, and therefore equilibration between external medium and vesicle cavity does not take place.
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PMID:Thermodynamic stability and osmotic sensitivity of small unilamellar phosphatidylcholine vesicles. 839 5

1. FK 506 (Tacrolimus, Prograf) is a novel immunosuppressant which is effective in solid organ transplantation and autoimmune diseases. The lack of a suitable animal model has hindered the study of the nephrotoxicity of the drug which has emerged as a common adverse effect in clinical trials. We report both acute and chronic nephrotoxicity with tacrolimus (FK) in which renal structure and function are worsened by sodium depletion. 2. Pair fed male Sprague-Dawley rats were given FK (3 or 6 mg/kg, p.o.) or vehicle for 7, 21 and 42 days on low salt or normal diet. The FK whole blood trough levels achieved (3-10 ng/mL) were similar to those observed in FK treated transplant patients. 3. In salt depleted animals treated for 7 days, FK (6 mg/kg) decreased renal blood flow and glomerular filtration rate (1.8 +/- 0.1 and 0.2 +/- 0.1 mL/min per 100 g vs 2.9 +/- 0.2 and 1.1 +/- 0.1 mL/min per 100 g in the vehicle group, P < 0.01). 4. After 21 days of treatment of FK on low salt diet but not normal salt, FK induced focal collapse and vacuolization in proximal tubules and discrete or confluent zones of tubulointerstitial oedema and mononuclear cell infiltration. 5. After 42 days in salt depleted rats, there was significant tubulointerstitial scarring that was associated with an increased plasma renin activity (PRA) (64 +/- 10 vs 30 +/- 4 ng AI/mL per h in the vehicle group, P < 0.05). Animals given normal salt diets did not develop significant histological lesions even up to 42 days.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functional and structural characteristics of experimental FK 506 nephrotoxicity. 854 79

In vitro excystation of Spironucleus muris cysts, purified by sequential sucrose and Percoll gradients from mouse feces, was studied. Three in vitro excystation procedures, used for Giardia, were assessed to determine the most useful method. Excystation was monitored by light microscopy and subsequently characterized by transmission and scanning electron microscopy. Spironucleus muris excysted routinely at a level greater than 90% when induced in Hanks' balanced salt solution containing sodium bicarbonate at pH 2.0 and transferred to Tyrodes' salt solution as an excystation medium. Similarly, high rates of excystation were recorded after induction of S. muris cysts in 0.1 M potassium phosphate buffer (pH 7.0) with sodium bicarbonate and excystation in trypticase-yeast extract-iron medium (TYI medium) or phosphate-buffered saline. A lower rate and percentage of excystation were observed after induction of S. muris cysts in an aqueous hydrochloric acid solution (pH 2.0) followed by excystation in TYI medium. All excystation methods produced extremely active S. muris trophozoites with normal morphology. Nonexcysting S. muris cysts have a wall composed of an outer fibrous and an inner membranous portion. Following induction, numerous vesicles appeared in the peritrophic space. Excystation began by the cyst wall opening at one pole, and the anterior part of the trophozoite protruding from the cyst wall. The trophozoite emerged progressively from the cyst wall and the empty cyst wall appeared to collapse. Excysted trophozoites exhibited normal morphological features of S. muris trophozoites isolated from the mouse intestine.
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PMID:In vitro excystation of Spironucleus muris. 856 11

Long-term nitric oxide blockade by N omega -nitro-L-arginine methyl ester (L-NAME) leads to severe and progressive hypertension. The role of salt intake in this model is unclear. To verify whether salt dependence in this model is related to the extent of nitric oxide inhibition, we gave adult male Munich-Wistar rats a low salt, standard salt, or high salt diet and oral L-NAME treatment at either 3 or 25 mg/kg per day. At 10 to 15 days of treatment, the slope of the pressure-natriuresis line was decreased in rats receiving low-dose L-NAME compared with untreated controls. In rats treated with the higher dose, the line was shifted to the right but remained parallel to that obtained in untreated controls. Renal vascular resistance was moderately increased in rats receiving low-dose L-NAME, whereas high-dose L-NAME induced a marked vasoconstriction that was aggravated by salt overload. Low-dose L-NAME treatment induced hypertension only when associated with sodium overload. In rats receiving high-dose L-NAME, hypertension was aggravated by sodium excess but was not ameliorated by sodium restriction. Long-term (6 weeks) L-NAME treatment was associated with progressive hypertension, which was aggravated by salt overload, and with the development of albuminuria, focal glomerular collapse, glomerulosclerosis, and renal interstitial expansion. These abnormalities were worsened by salt overload and largely prevented by salt restriction. In the model of chronic nitric oxide blockade, salt dependence is a function of the inhibitor dose, and renal injury varies directly with the level of salt intake.
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PMID:Effect of salt intake and inhibitor dose on arterial hypertension and renal injury induced by chronic nitric oxide blockade. 862 Dec 12

Glucocorticoid receptors (GRs) have the capacity to shuttle between the nuclear and cytoplasmic compartments, sharing that trait with other steroid receptors and unrelated nuclear proteins of diverse function. Although nuclear import of steroid receptors, like that of nearly all other karyophilic proteins examined to date, requires ATP, there appear to be different energetic requirements for export of proteins, including steroid receptors, from nuclei. In an attempt to reveal which steps, if any, in the nuclear export pathway utilized by steroid receptors require ATP, we have used indirect immunofluorescence to visualize GRs within cells subjected to a reversible ATP depletion. Under conditions which lead to >95% depletion of cellular ATP levels within 90 min, GRs remain localized within nuclei and do not efflux into the cytoplasm. Under analogous conditions of ATP depletion, transfected progesterone receptors are also retained within nuclei. Importantly, GRs which accumulate within nuclei of ATP-depleted cells are distinguished from nuclear receptors in metabolically active cells by their resistance to in situ extraction with a hypotonic, detergent-containing buffer. GRs in ATP-depleted cells are not permanently trapped in this nuclear compartment, as nuclear receptors rapidly regain their capacity to be extracted upon restoration of cellular ATP, even in the absence of de novo protein synthesis. More extensive extraction of cells with high salt and detergent, coupled with DNase I digestion, established that a significant fraction of GRs in ATP-depleted cells are associated with an RNA-containing nuclear matrix. Quantitative Western blot (immunoblot) analysis confirmed the dramatic increase in GR binding to the nuclear matrix of ATP-depleted cells, while confocal microscopy revealed that GRs are bound to the matrix throughout all planes of the nucleus. ATP depletion does not lead to wholesale collapse of nuclear proteins onto the matrix, as the interaction of a subpopulation of simian virus 40 large tumor antigen with the nuclear matrix is not quantitatively altered in ATP-depleted Cos-1 cells. Nuclear GRs which are not bound to the nuclear matrix of metabolically active cells (i.e., a DNA-binding domain deletion mutant and a beta-galactosidase chimera possessing the GR nuclear localization signal sequence) are not recruited to the matrix upon depletion of cellular ATP. Thus, it appears that ATP depletion does not expose the GR to nuclear matrix interactions which are not normally encountered in cells but merely alters the dynamics of such interactions. The dynamic association of steroid receptors with the nuclear matrix may provide a mechanism which is utilized by these regulable transcription factors to facilitate their efficient scanning of the genome.
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PMID:ATP-dependent release of glucocorticoid receptors from the nuclear matrix. 862 65

Cyclosporine (CsA) administration and nitric oxide (NO) blockade promote similar chronic renal hemodynamic alterations in rats. We evaluated various clinical CsA doses under conditions of NO blockade using L-NAME (N-nitro L-arginine methyl ester). Groups of Sprague-Dawley rats kept on a normal salt (+NaCl) or low-salt (-NaCl) diet were given CsA 7.5 mg/kg, 2.5 mg/kg, or vehicle (VH) for 21 days. CsA or VH treatment was preceded by one week of L-NAME and continued for three weeks. Inulin clearance, CsA blood level, and weekly blood pressure change were assessed at 28 days. Marked CsA dose dependent reductions in GFR in -NaCl animals (P < 0.01 versus VH + L-NAME) and +NaCl animals (P < 0.05 versus VH + L-NAME, +NaCl) as well as blood pressure elevations (P < 0.01 versus VH + L-NAME at 28 days) occurred in groups concurrently treated with CsA and L-NAME. In addition, Impaired renal function and morphologic lesions in rats (CsA 2.5 mg/kg) receiving L-NAME or CsA alone demonstrated CsA blood levels within the therapeutic range of human renal transplant patients. VH groups treated with L-NAME alone produced blood pressure elevations but were spared of renal functional or morphological alterations. Primary renal morphologic lesions in CsA treated animals included proximal tubule collapse and vacuolization and, less frequently, interstitial edema and vacuolization of interstitial cells. Unique to rats treated simultaneously with CsA and L-NAME were vascular abnormalities consisting of endothelial and arteriolar medial hyperplasia and occasional acute medial necrosis. In conclusion, acute CsA nephrotoxicity can be enhanced by simultaneous NO blockade, suggesting NO has a protective effect in CsA-induced nephropathy. These results can be achieved with a drug exposure profile that correlates with clinical therapy.
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PMID:Clinically relevant doses and blood levels produce experimental cyclosporine nephrotoxicity when combined with nitric oxide inhibition. 863 80

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