UMLS:C0344329 - FACTA Search

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1. The effect of gossypol in the presence of K+ or Mg2+, or both, was studied on ATPase activity and respiration of rat liver mitochondria. 2. Respiration was uncoupled in the presence of gossypol, Mg2+, and K+, whereas in the presence of gossypol and Mg2+ a partial inhibition was observed. 3. Gossypol stimulated ATPase activity in the presence of K+ or Mg2+, but maximal activity was observed when both cations were in the incubation medium. 4. Stimulation of ATPase activity in the presence of Mg2+ was dose related. 5. EDTA reverted the stimulation produced by gossypol on ATPase activity. 6. Gossypol had no effect on the ATPase activity of submitochondrial particles, which suggests an indirect action of gossypol on the enzyme. 7. Mitochondrial membrane potential showed a higher collapse in the presence of gossypol and 1 mM MgCl2. 8. The observed effects of gossypol could be explained by the collapse of the mitochondrial membrane potential.
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PMID:The antifertility agent, gossypol, changes several mitochondrial functions in the presence of Mg2+. 136 Mar 78

Swelling of isolated rat liver mitochondria is shown to be induced by metal-catalyzed 5-aminolevulinic acid (ALA) aerobic oxidation, a putative endogenous source of reactive oxygen species (ROS), at concentrations as low as 50-100 microM. In this concentration range, ALA is estimated to occur in the liver of acute intermittent porphyria patients. Removal of Ca2+ (10 microM) from the suspension of isolated rat liver mitochondria by added EGTA abolishes both the ALA-induced transmembrane-potential collapse and mitochondrial swelling. Prevention of the ALA-induced swelling by addition of ruthenium red prior to mitochondrial energization by succinate demonstrates the deleterious involvement of internal Ca2+. Addition of MgCl2 at concentrations higher than 2.5 mM, prevents the ALA-induced mitochondrial swelling, transmembrane potential collapse and Ca2+ efflux. This indicates that Mg2+ protects against the mitochondrial damage promoted by ALA-generated ROS. The ALA-induced mitochondrial damage might be a key event in the liver mitochondrial damage of acute intermittent porphyria patients reported elsewhere.
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PMID:Calcium-dependent mitochondrial oxidative damage promoted by 5-aminolevulinic acid. 146 71

Fixation and staining procedures were developed for the electron microscopic demonstration of glycosaminoglycans (GAGs) in human epidermis. En bloc staining with cuprolinic blue (CB), ruthenium red (RR) and tannic acid (TA) in the primary fixative were applied for the localization of the GAGs. Removal of the epidermal basal lamina and underlying dermis was a prerequisite for stain penetration. In CB-fixed specimens 50 nm long, rod-like granules were found attached to keratinocyte cell surfaces, while the RR- and TA-fixed specimens contained round granules (luminal diameter 10 and 30 nm, respectively). The stainability of the CB-positive granules in the presence of 0.3 mol/l MgCl2 indicated that they contained sulphated GAGs. Prefixation digestions of epidermal sheets with chondroitinase ABC. Streptomyces hyaluronidase, and heparitinase showed that the RR-positive granules also contained sulphated GAGs, mostly heparan sulphate. The granules visualized with TA on keratinocytes were susceptible to heparitinase treatment, but the abundance of TA-staining suggested that TA also stained structures other than heparan sulphate. The EM data was in accordance with the 35SO4 labelling experiments showing that heparan sulphate was the major sulphated GAG synthesized in epidermis, whereas chondroitin/dermatan sulphates comprised about one fifth of the total activity incorporated. The distributions of the CB-, RR- and TA-positive granules on cell surfaces were similar. The morphology of the proteoglycan granules was probably determined by the extent of the GAG-chain collapse following binding to each of the dyes.
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PMID:Ultrastructural localization of keratinocyte surface associated heparan sulphate proteoglycans in human epidermis. 244 72

Changes in linking number and the apparent winding angle of pBR322 DNA have been evaluated in mixed ethanol-water solvents containing either Na or Mg as the major counterion contributing to the electrostatic shielding of the duplex. The average number of superhelical turns (tau) produced in the standard electrophoresis buffer (Tris-borate-EDTA, pH 8.0) by the transfer of DNA, relaxed in 200 mM NaCl, 10 mM NaH2PO4/Na2HPO4, and 2 mM EDTA, pH 7, by calf thymus topoisomerase or ligated in 6.6 mM MgCl2, 1 mM KCl, 1 mM ATP, 1 mM dithiothreitol, and 66 mM Tris, pH 7.6, by T4 ligase, was determined as a function of the EtOH concentration. At low enzyme concentrations, the tau values became increasingly more positive in the presence of both cations as the ethanol concentration increased, indicating that the duplex structure was overwound in the ethanol solvents. Winding angle changes between 0 and 20% ethanol, calculated from these values of tau, exhibited the same correlations with CD spectral properties as had been previously observed for 100% aqueous systems containing monovalent cations [Kilkuskie, R., Wood, N., Shinn, R., Ringquist, S., & Hanlon, S. (1988) Biochemistry 27, 4377-4386]. The results at higher concentrations of ethanol (25-30%), however, were anomalous for the Mg-ligase system. The anomalies increased with higher ethanol, ligase, or Mg concentration. Gel run under these conditions showed enhanced concentrations of slow-moving components, indicative of ligation of intermolecular associated DNA species. At a 10-fold higher level of ligase, ethanol appeared to unwind the duplex, confirming the results of Lee, Mizusawa, and Kakefuda [(1981) Proc. Natl. Acad. Sci. U.S.A. 78, 2838-2842]. All of these anomalies occur under solvent conditions which are close to conditions which produce a heterogeneous dispersion of sedimenting species in ultracentrifugal experiments and compact rodlike structures, visualized by electron microscopy. The circular dichroism spectra at the onset of the formation of these structures show the characteristics of a chirally packed array of DNA duplexes. The reversal of the trend of the ethanol effect on linking number at higher enzyme and Mg(II) concentrations can be most easily explained by the promotion of the condensation phenomenon by either the ligase or a contaminating factor in the preparation. We suggest that the anomalies in the linking number and winding angle values are due to either ligation of chirally bent DNA species or a change in the helical period as the linear DNA adapts to the conformation required for collapse.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Linking number anomalies in DNA under conditions close to condensation. 265 31

Previous studies of chromatin melting had been done at low salt concentrations to maintain optically clear solutions permitting observation of hyperchromic effects that accompany the unstacking of bases in DNA. Scanning calorimetry does not require clear solutions and so allowed more nearly physiological levels of salt to be used in the present work. HeLa chromatin went through two major structural transitions of 73 and 85 degrees C in 150 mM NaCl, 1 mM MgCl2, 1 mM CaCl2. Proteinase K treatment eliminated the 73 degrees C transition without affecting the other one. DNase I digestion eliminated the 85 degrees C transition and shifted the other from 73 to 58 degrees C. Supported by previous reports that salt concentrations like these would largely eliminate the effect of histones on the Tm of DNA, the present observations indicate that the collapse of the core histone complex occurs at 73-76 degrees C (transition II) and the nucleosomal DNA unstacks at 85-87 degrees C (transition III). They also show that the thermal stability of the histone octamer is enhanced by the DNA folded around it in the nucleosome; although the histone core raises the Tm of the DNA in low salt, in physiological salt conditions it is the DNA that stabilizes the protein complex.
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PMID:In physiological salt conditions the core proteins of the nucleosomes in large chromatin fragments denature at 73 degrees C and the DNA unstacks at 85 degrees C. 270 3

The cause of 50S ribosomal subunit collapse reportedly triggered by hybridization of a 14-base cDNA probe to the alpha-sarcin region of 23S rRNA was investigated by physical measurement of probe-subunit complexes in varying buffer conditions. The results reported here show that this probe was unable to hybridize to its target site in the intact 50S subunit and the physical characteristics of 50S subunits remained unchanged in its presence. Subunit collapse was induced in buffer containing 20mM Tris-HCl (pH 7.5), 600 mM NH4Cl, 1 mM MgCl2, 1 mM DTT, and 0.1 mM EDTA in the absence of probe. The probe bound specifically to its target site in the collapsed particle, but did not promote further unfolding. The results demonstrate that a DNA probe bound to the alpha-sarcin region cannot cause the 50S subunit to unfold or cause 23S rRNA to degrade. We suggest that the previously reported collapse was most probably the result of the ionic conditions used.
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PMID:Probing the alpha-sarcin region of Escherichia coli 23S rRNA with a cDNA oligomer. 306 Aug 50

Proteoglycan in foetal- and adult-rat tail tendon and adult-rabbit achilles tendon was stained for electron microscopy with a cationic phthalocyanin-like dye, based on cinchomeronic acid, in a 'critical electrolyte concentration' method [Scott (1973) Biochem. Soc. Trans. 1, 787-806). Provided that the tissue was fixed with glutaraldehyde or formaldehyde, regular orthogonal perifibrillar arrays of filamentous material (proteoglycan) were observed, but no intra-fibrillar proteoglycan was seen. Specific proteoglycan-collagen interactions are inferred, and a model is proposed. Without fixation, the filamentous arrays disaggregated in the MgCl2 solutions (0.3 M) used during staining. End-to-end proteoglycan aggregation is implied. Tendon and cartilage are compared. Problems of electron-histochemical localization of extended space-filling polyanions by the use of cationic electron-dense precipitants are discussed, particularly polyanion-domain collapse, specificity of staining and fixation. A two-stage staining procedure that markedly enhances contrast is described, based on the multivalent nature of the dye, and the consequent anion-exchange properties of the dye-polyanion complex.
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PMID:Collagen--proteoglycan interactions. Localization of proteoglycans in tendon by electron microscopy. 718 29

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

Collagen fibrils in extracellular matrices of connective tissues (tendon, cornea, etc.) are bridged and linked by the anionic glycosaminoglycans (AGAGs) of the small proteoglycans (decoron, etc.). It was proposed that these bridges and ties maintain the collagen fibril dispositions in relation to each other, helping to define tissue shape, and hence called shape modules. This investigation describes chemical and physicochemical conditions in which these structures are stable and what treatments cause their disruption. The effects on fixed and unfixed sections of tendon, cornea, lung and ear from rat, mouse and rabbit of pH, electrolyte concentration, EDTA, mercaptoethanol, hydrogen peroxide, free radicals, periodate, acetylation, urea, nonionic detergent and organic solvents were assessed by staining with Cupromeronic blue or Alcec blue in CEC techniques to localise AGAG bridges or their disintegration products. Ca2+ was not involved in the structures, oxidation/reduction had no effect and Triton X100, a nonionic detergent did not damage them. They were stable between pH 4.5 and 9.5. Periodate as a glycol-cleaving reagent did not affect them. High concentrations of urea (> 2.0 M) and MgCl2 (0.5 M) disrupted the tissues. The combination of Triton and urea at concentrations too low to cause damage separately was disruptive. Free radicals in periodate solutions were damaging. Organic solvents caused collapse and rearrangements of the AGAG filaments. Acetylation caused considerable disruption of shape modules. Dermochondan but not keratan sulphate AGAGs were removed by treatment with NaOH. After fixing with glutaraldehyde only free radical and NaOH treatments were severely disruptive of shape modules. The results are compatible with a previously proposed structure for the shape modules, stabilised by hydrophobic and hydrogen bonding.
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PMID:The structure of interfibrillar proteoglycan bridges (shape modules') in extracellular matrix of fibrous connective tissues and their stability in various chemical environments. 968 5

The process of DNA condensation into nanometer-scale particles has direct relevance to several fields, including cell biology, virology, and gene delivery for therapeutic purposes. DNA condensation has also attracted the attention of polymer physicists, as the collapse of DNA molecules from solution into well defined particles represents an exquisite example of a polymer phase transition. Here we present a quantitative study of DNA toroids formed by condensation of 3 kb DNA with hexammine cobalt (III). The presence or absence of static loops within this DNA molecule demonstrates the effect of nucleation loop size on toroid dimensions and that nucleation is principally decoupled from toroid growth. A comparison of DNA condensates formed at low ionic strength with those formed in the presence of additional salts (NaCl or MgCl2) shows that toroid thickness is a salt-dependant phenomenon. Together, these results have allowed the development of models for DNA toroid formation in which the size of the nucleation loop directly influences the diameter of the fully formed toroid, whereas solution conditions govern toroid thickness. The data presented illustrate the potential that exists for controlling DNA toroid dimensions. Furthermore, this study provides a set of data that should prove useful as a test for theoretical models of DNA condensation.
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PMID:Controlling the size of nanoscale toroidal DNA condensates with static curvature and ionic strength. 1287 99

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