The effect of vitamin D3 metabolites on membrane proteins of chick duodenal brush borders.

Chick intestinal brush border proteins were examined by polyacrylamide-gel electrophoresis in the presence of sodium dodecyl sulfate. Following injection of 25-hydroxyvitamin D₃ and 1,25-dihydroxyvitamin D₃, a large molecular weight protein present in the vitamin D-deficient brush borders diminishes and a larger protein appears. This change occurs before calcium binding protein can be detected by Chelex assay and prior to the increase in total alkaline phosphatase but correlates closely with increased intestinal calcium absorption in response to the metabolites. The two brush border proteins have been solubilized with n-butanol and partially characterized. The vitamin D-deficient protein has a molecular weight of about 200,000 and has alkaline phosphatase activity but no detectable calcium binding activity. The protein which appears in response to metabolites has a molecular weight of 230,000, binds calcium, and also has alkaline phosphatase activity.     

Characterisation of the binding sites for Escherichia coli heat-labile toxin type I in intestinal brush borders

Intestinal brush borders from Wistar rats contained a total of 20-30-times more binding sites for Escherichia coli heat-labile enterotoxin (LT-1) than for cholera toxin (CT). The results suggest that LT-1 binds to sites in addition to ganglioside GM1, the binding site for CT. Brush border proteins were separated by SDS-PAGE, blotted to nitrocellulose and the filters incubated with 125I-labeled toxins. [125I]LT-1 was shown to bind to a series of brush border galactoproteins ranging in size from 130-140 kDa. Binding was inhibited by unlabeled LT-1 (but not CT), and by ricin and free galactose. A number of brush border enzymes are large glycoproteins which can be solubilised by papain. The papain-solubilised sucrase-isomaltase complex was purified by affinity chromatography and shown to bind LT-1, as did the proteins in fractions enriched in maltase activity. However, such brush border galactoproteins do not account for all of the additional LT-1 binding sites. Thus, brush borders prepared from 1-15-day-old rabbits contained many more binding sites for LT-1 than CT despite the absence of any sucrase-isomaltase activity, and no [125I]LT-1 binding proteins could be detected by blotting. There was a marked variation in the number of LT-1 binding sites in different strains of rat, and between different species.     

Induced production of chitinase to enhance entomotoxicity of Bacillus thuringiensis employing starch industry wastewater as a substrate

Induced production of chitinase during bioconversion of starch industry wastewater (SIW) to Bacillus thuringiensis var. kurstaki HD-1 (Btk) based biopesticides was studied in shake flask as well as in computer-controlled fermentors. SIW was fortified with different concentrations (0%; 0.05%; 0.1%; 0.2%; 0.3% w/v) of colloidal chitin and its consequences were ascertained in terms of Btk growth (total cell count and viable spore count), chitinase, protease and amylase activities and entomotoxicity. At optimum concentration of 0.2% w/v colloidal chitin, the entomotoxicity of fermented broth and suspended pellet was enhanced from 12.4 × 10⁹ (without chitin) to 14.4 × 10⁹ SBU/L and from 18.2 × 10⁹ (without chitin) to 25.1 × 10⁹ SBU/L, respectively. Further, experiments were conducted for Btk growth in a computer-controlled 15 L bioreactor using SIW as a raw material with (0.2% w/v chitin, to induce chitinase) and without fortification of colloidal chitin. It was found that the total cell count, spore count, delta-endotoxin concentration (alkaline solubilised insecticidal crystal proteins), amylase and protease activities were reduced whereas the entomotoxicity and chitinase activity was increased with chitin fortification. The chitinase activity attained a maximum value at 24 h (15 mU/ml) and entomotoxicity of suspended pellet reached highest (26.7 × 10⁹ SBU/L) at 36 h of fermentation with chitin supplementation of SIW. In control (without chitin), the highest value of entomotoxicity of suspended pellet (20.5 × 10⁹ SBU/L) reached at 48 h of fermentation. A quantitative synergistic action of delta-endotoxin concentration, spore concentration and chitinase activity on the entomotoxicity against spruce budworm larvae was observed.     

Labelling of intestinal brush border membrane proteins in vivo using diazotised [125I]iodosulfanilic acid

Membrane proteins of the intestinal brush border were labelled in vivo by intraluminal injection of diazotised [¹²⁵I]iodosulfanilic acid, a highly polar molecule. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of brush border membranes labelled in this manner showed 20 protein bands, 11 of which contained significant radioactivity. The most heavily labelled proteins had molecular weights greater than 150 000, indicating that they were the most exposed to the intestinal lumen. Little radioactivity was detected in proteins with molecular weights of less than 94 000. The majority of these smaller proteins were likely to have been brush border core proteins. The evidence that diazotised [¹²⁵I]iodosulfanilic acid bound primarily to brush border membrane proteins when administered in this way, was: (a) the specific activity of brush border proteins was up to 3-fold greater than that of total cell particulate proteins (pelleted at 27 000 × $\text{g}$ from mucosal homogenates); (b) principal peaks in the gel radioactivity profile of total cell particulate proteins corresponded to the most heavily labelled proteins of the isolated brush border membrane; and (c) brush border core proteins showed minimal radioactivity in vivo, but considerably higher radioactivity when brush border membranes were labelled in vitro. A small amount of label was absorbed across the intestinal mucosa. However, secondary labelling of brush border proteins by this absorbed label was minimal, since the specific activity of brush border proteins in jejunum adjacent to the labelled loop was only 0.22% of the level for those proteins in the labelled segment. Since this technique did not affect the cellular morphology, enzyme activity or biochemical integrity of the membrane, it should prove useful as a means of accurately studying in vivo turnover rates of brush border membrane proteins.     

Sequential changes in amylase isozymes during grain maturation in barley

Summary Changes in amylase isozyme patterns on polyacrylamide gels were followed during maturation in grains of Deba Abed barley. Early stage seeds contained a single, high-mobility enzyme (Band A) which had an estimated molecular weight of 4.2×10⁴ and a high activity with -limit dextrin as a substrate. It was shown, by dissection, that Band A was confined to the aleurone layer and probably represented the initial product of amylase synthesis.This form was succeeded, in mid-course, by a less mobile form (Band B), a -amylase with a molecular weight of approximately 1.3×10⁵. Late-dough stage grains contained a complex of low-mobility -amylase bands which were shown, by papain digestion, to be protein-bound forms of Band B.The changes are discussed on the basis of a unified series consisting of elaborated forms of the initial Band A type of activity.     

Prednisolone enhances aminopeptidase turnover in adult rat small intestine

In adult male rats, fed prednisolone (0.75 mg/kg/day) for 7 days, brush border aminopeptidase activity was increased (P < 0.001) by 106% compared to pair-fed controls. [¹⁴C]Tyrosine was injected intraperitoneally 16 h and [³H]tyrosine 6 h before death. The ³H/¹⁴C ratio was 1.79 ± 0.21 (S.D.) in purified microvillus membranes from treated rats compared to 1.30 ± 0.16 (P < 0.01) in controls. Polyacrylamide gel electrophoresis of brush border membranes under denaturing conditions showed that the increased double-isotope ratio in membranes from treated rats was mainly in the high molecular weight protein subunits (> 80 kDa) Detergent-solubilized aminopeptidase was purified after in vivo labeling by protein A-Sepharose-antiaminopeptidase affinity chromatography. The ³H/¹⁴C ratio in aminopeptidase was 2.42 ± 0.15 (P < 0.05) in treated rats compared to 1.63 ± 0.13 in controls. Over the experimental period steady-state isotope reutilization and protein labeling was demonstrated and there was no isotope metabolism. Total microvillus membrane lipid content was unaffected by prednisolone. We conclude that prednisolone increases brush border aminopeptidase activity by increasing enzyme turnover. Other high molecular weight brush border proteins were similarly affected.     

Effect of limited trypsin digestion on the renal Na+−H+ exchanger and its regulation by cAMP-Dependent protein kinase

Summary The Na⁺–H⁺ exchanger from solubilized rabbit renal brush border membranes is inhibited by cAMP-dependent protein kinase (PKA) mediated protein phosphorylation. To characterize this inhibitory response and its sensitivity to limited proteolysis, the activity of the transporter was assayed after reconstitution of the proteins into artificial lipid vesicles. Limited trypsin digestion increased the basal rate of proton gradient-stimulated, amiloride-inhibitable sodium uptake in reconstituted proteoliposomes and blocked the inhibitory response to PKA-mediated protein phosphorylation. To determine if the inhibitory response to PKA-mediated protein phosphorylation could be restored to the trypsin-treated solubilized proteins, nontrypsinized solubilized brush border membrane proteins were separated by column chromatography. The addition of small molecular weight polypeptides, fractionated on Superose-12 FPLC (V _e=0.7), to trypsinized solubilized brush border membrane proteins restored the inhibitory response to PKA-mediated protein phosphorylation. Similarly, the addition of the 0.1m NaCl fraction from an anion exchange column, Mono Q-FPLC, also restored the inhibitory response to PKA. Both protein fractions contained a common 42–43 kDa protein which was preferentially phosphorylated by PKA.These results indicate that limited trypsin digestion dissociates the activity of the renal Na⁺–H⁺ exchanger from its regulation by PKA. It is suggested that trypsin cleaves an inhibitory component of the transporter and that this component is the site of PKA-mediated regulation. Phosphoprotein analysis of fractions that restored PKA regulation raises the possibility that a polypeptide of 42–43 kDa is involved in the inhibition of the renal Na⁺–H⁺ exchanger by PKA-mediated, protein phosphorylation.     

Fractionation of Soluble Copper- and Zinc-Binding Proteins From Cattle Liver

The distribution of copper and zinc among soluble proteins in liver from normal slaughter cattle was examined after gel filtration of the proteins. Gopper- and zinc-binding proteins were mainly separated into three fractions. Varying amounts of zinc were eluted in a fourth fraction of molecular weight less than 2,000. A clear relationship was noted between the amount of copper bound to the low molecular weight fraction (m.w. ~ 10,000) and the total liver zinc concentration. The high molecular weight protein fraction (m.w. > 65,000) dominated in liver with zinc concentrations below 40 µg/g wet weight and total copper concentrations from 16 to 240 µg/g, while in liver with zinc concentrations above 40 µg/g and copper concentrations ranging from 20 to 107 µg/g, the low molecular weight metallothionein-like fraction dominated.     

Isolation and characterization of Brush border fragments from mosquito mesenterons

Brush border fragments were isolated from homogenates of mesenterons from the mosquito, Culex tarsalis, by a combination of Ca²⁺ precipitation and differential centrifugation. These preparations were routinely enriched seven- to eightfold for the brush border marker enzyme, leucine aminopeptidase. Alkaline phosphatase, a putative brush border marker for both vertebrate and invertebrate brush borders, was found to be unsuitable for Cx. tarsalis. Isoelectric focusing electrophoresis coupled with histochemical enzyme detection was used to enumerate isozymic species of nonspecific esterases [3], leucine aminopeptidase [1], and alkaline phosphatase [1] in isolated brush border fragments. Leucine aminopeptidase activity was solubilized by papain digestion, suggesting an extrinsic active site for this membrane-bound enzyme. The predominant nonspecific esterase isozyme remained membrane-bound. Conventional staining (ie, Coomassie Blue and silver) of proteins separated by isoelectric focusing, sodium dodecylsulfate, and two-dimensional electrophoresis indicated a simple pattern for brush border fragments, with two proteins predominating among the 11–14 routinely detected.     

Partial purification of the sugar carrier of intestinal brush border membranes. Enrichment of the phlorizin-binding component by selective extractions

Summary The [³H] phlorizin-binding component of brush border vesicles was enrichedin situ by negative purification. Several procedures, known to effect selective solubilization of membrane components, were used separately or in combination to remove proteins unrelated to the binding. Deoxycholate ruptured the vesicles and released 67% of their protein, thereby increasing the specific [³H] phlorizin-binding activity of the pellet three-to fourfold. Extracting the deoxycholate-pellets with either NaI or alkaline solutions released up to 38% of the deoxycholate-insoluble protein without significantly affecting phlorizin binding. The polypeptide composition of the membranes at the different stages was analyzed by NaDodSO₄-polyacrylamide gel electrophoresis. A number of polypeptides present in the original vesicles could be ruled out as essential components of the [³H] phlorizin binding entity.Intact and deoxycholate-treated vesicles were subjected to proteolytic attack. Papain liberated sucrase and isomaltase from intact vesicles, but affected neither other Coomassiestained bands nor phlorizin binding. Neither the protein composition nor the binding properties of sealed vesicles were influenced by trypsin or chymotrypsin. However, all the proteolytic enzymes tested on deoxycholate-treated membranes substantially reduced [³H] phlorizin binding and produced concomitantly the disappearance of several bands from the electrophoretic profile.Pretreatment of vesicles with papain, followed by deoxycholate extraction and incubation in alkaline media, increased the specific binding activity of the membranes up to ninefold by removing close to 90% of the protein. A limited number of polypeptides are suggested as possible candidates for the glycoside-binding site of intestinal brush borders.     

Characterization of the membrane matrix derived from the microsomal fraction of rat hepatocytes

A highly purified membrane preparation derived from the microsomal fraction of rat hepatocytes has been chemically characterized and fractionated by means of gel filtration. The preparation has been freed of ribosomes and intravesicular protein and has a composition on a w/w basis of 52.1% protein, 45.0% phospholipid, 2.9% carbohydrate and no RNA. $\text{97 ± 2\%}$ of the total membrane phosphorus is accounted for as phospholipid phosphorus.Determination of the molecular weight distribution of the constituent polypeptides by sodium dodecyl sulfate-polyacrylamide gel electrophoresis gave values ranging from 171 000 to 16 000 for the major classes of proteins. Although several membrane glycoproteins have been identified, the most prominent species has an apparent molecular weight of 171 000, 40% of the total microsomal protein is present' in the 49 000–60 000 molecular weight region. Examination of the intrinsic polypeptide composition of membranes obtained from smooth and degranulated rough endoplasmic reticulum revealed no detectable qualitative differences.Sodium dodecyl sulfate-solubilized microsomal membrane proteins were separated by gel filtration into much simplified molecular weight classes, some of which showed predominantly a single electrophoretic component. Amino acid analysis of individual fractions showed a noticeable trend toward a decreasing ratio of acidic to basic residues with decreasing molecular weight.Membrane phosphorus was distributed between two chromatographic fractions: one containing the membrane phospholipid (97% of the total) as well as essentially all the cholesterol, the other, at the inclusion volume of the gel filtration system, containing small molecular weight species (3% of the total phosphorus). The absence of a ribonuclease-resistant RNA component eluting near the void volume clearly distinguishes the microsomal membrane from the nuclear envelope.     

Identification of a mucosal form of enteropeptidase in triton X-100 extracts of porcine duodenal mucosa

Porcine enteropeptidase (EC 3.4.21.9) purified from acetone powders of fresh duodenal fluid shows a molecular weight, as determined on Ultragel AcA-34, of 190000. Enteropeptidase has been solubilised from pig intestinal mucosa using 1% (v/v) Triton X-100. When Triton X-100 extracts of freeze-dried mucosa after partial fractionation on DEAE-cellulose were chromatographed on Sephadex G-200, the bulk of the activity eluted in the void volume rather than with an expected Ve/V0 ratio of about 1.24 corresponding to a molecular weight of around 200000. Gel filtration of aqueous mucosal extracts obtained in the absence of Triton X-100 showed two regions of enzymic activity in approximately equal proportions, one in the void volume, and the other with the expected Ve/V0 ratio of 1.24, whereas the Triton X-100 extracts of the residue from the above extract showed the presence of only the macromolecular species of enteropeptidase. This species was excluded from Sepharose 4B. It was confirmed that aminopeptidase was also extracted by Triton X-100 in a molecular form which was excluded from Sepharose 4B. The results suggest that Triton X-100 extracts enteropeptidase with a membrane component attached and in agreement with this it was found that proteolysis rapidly converted the macromolecular form to a stable smaller molecular species corresponding in size to that found in solution in the duodenal fluid. There was full recovery of the enzymic activity following this conversion. Papain and trypsin brought about an almost complete conversion to the smaller form of enteropeptidase whereas chymotrypsin, pancreatin and an intestinal peptidase preparation were only partially effective. It is concluded that membrane bound enzymes such as enteropeptidase and aminopeptidase are bound to the intestinal brush border membrane in a similar manner and are not actively secreted into the lumen but rather are largely released or solubilised by the combined action of the bile and pancreatic secretions.     

The effect of solubilisation on the character of an ethylene-binding site from Phaseolus vulgaris L. cotyledons

The ethylene-binding site (EBS) from Phaseolus vulgaris cv. Canadian Wonder cotyledons can be solubilised from 96,000 g pelleted material by Triton X-100 or sodium cholate. Extraction of 96,000 g pellets with acetone, butanol or butanol and ether results in a total loss of ethylene-binding activity. Like the membrane-bound form, the solubilised EBS has an apparent K_D(liquid) of 10^-10 M at a concentration of 32 pmol EBS per gram tissue fresh weight. Propylene and acetylene act as competitive inhibitors, carbon dioxide appears to promote ethylene binding and ethane has no significant effect. The solubilised EBS is completely denatured affect. The solubilised EBS is completely denatured after 10 min at 70°C, by 1 mM mercaptoethanol and 0.1 mM dithiothreitol, but not by trypsin or chymotrypsin. However, solubilisation decreases the rate constant of association from 10³ M^-1 s^-1 to 10¹–10² M^-1 s^-1 and hence does not permit experimental determination of the rate constant of dissociation. The pH optimum for ethylene binding is altered from the range pH 7–10 in the membrane-bound form to the pH range 4–7 in the solubilised form. The EBS appears to be a hydrophobic, intergral membrane protein, which requires a hydrophobic environment to retain its activity. Partitioning of the EBS into polymer phases is determined by the detergent used for solubilisation indicating that when solubilised, the EBS forms a complex with detergent molecules.Abbreviations EBS ethylene-binding site - PEG polyethylene glycol     

Factors effecting the solubilisation of stearoyl-coA desaturase of hen liver microsomes.

1. The lipid requirement for maximum desaturase activity was investigated using acetone/water mixtures. It was shown that for maximum stearoyl-CoA desaturase activity of hen liver microsomes neither the total neutral lipid fraction nor 44% of the phospholipid fraction were required. 2. The effect of sodium deoxycholate, Triton X-100, Nonidet P-40 and Bio-solv on the enzyme activity indicated that the neutral detergents had a milder effect than the ionic detergent but both classes could cause considerable irreversible loss of activity. 3. The treatment of the microsomes with 2.5% (v/v) water in acetone greatly improved the effective solubilising power of Triton X-100. The yield of desaturase in the 100 000 X g supernatant obtained by treating the microsomal fraction in this way was strongly dependent upon protein concentration. Maximum solubilisation was achieved with25 mg protein per ml 1% (w/v) Triton X-100 in 0.1 M potassium phosphate buffer pH 7.4. 4. A comparison of the properties of the solubilised and membrane-bound enzyme was made by an investigation of: (i) the temperature and pH optimum, (ii) activation energy and (iii) the effect of inhibitors on the enzyme activity.     

Characterization of Zn2+-binding nuclear proteins present in the myocardium

Nonhistone nuclear proteins were isolated from 3–5 day old neonatal as well as 3 month-old adult myocardium. The nuclear proteins were separated and analyzed by two-dimensional polyacrylamide gel electrophoresis. Using a blot transfer technique equilibrated with⁶⁵Zn²⁺, at least four polypeptides exhibited Zn²⁺-binding activity over the spectrum of nonhistone nuclear proteins. A protein with a molecular weight of 68kDa pI7.8, which has been characterized for its involvement in nucleosome structure, consistently binds Zn²⁺ in both the neonatal and adult myocardium. This nuclear protein has now been further characterized by partial amino acid microsequencing. It was found that this novel polypeptide is distinct from the pore-complex lamina proteins. Three other polypeptides with M90kDa, pI7.8, M68kDa, pI6.5 and M35 kDa, pI7.5 exhibited increased Zn²⁺-binding activity in neonatal myocardium as compared to adult myocardium. Together with results from our previous studies, this study provides the first evidence implicating Zn⁺⁺-binding nuclear proteins in the processes of growth and differentiation of myocardial development. (Mol Cell Biochem121: 175–179, 1993)     

Use of polyethylene glycol in isolation and assay of stable, enzymically active starch granules from developing wheat endosperms

A procedure using polyethylene glycol (PEG), molecular weight 1000, was developed for the isolation of starch granules from wheat endosperm. Immature endosperm tissue was cut repeatedly in 300 millimolar PEG 1000 and filtered through Miracloth. Centrifugation separated a pellet from a supernatant with inhibitory activity. The pellet contained several enzyme activities, including soluble and bound components of starch synthase, starch phosphorylase, and sucrose synthase activities. The starch phosphorylase activity was unaffected by several washings with 300 millimolar PEG 1000 but was lost when the granules were washed once without PEG or washed with sucrose, glycerol, or sorbitol (up to 30%, w/v). The fraction of starch synthase, remaining on the granules after a wash without PEG (the `bound' activity) was not affected by the addition of 30% sorbitol to the wash buffer. This fraction became larger with grain development (0.2-0.7).

To obtain high activity, PEG was required not only during isolation of granules but also in the assay of both starch phosphorylase and starch synthase giving optimum activity at 225 to 255 millimolar. PEG reduced the requirement for glycogen as primer with soluble starch synthase. However, the `bound' starch synthase activity was unaffected by PEG. PEG of different size were compared by their effects in the assay of starch granules: with increase in molecular size, the same effect was obtained at ever lower polymer concentration (w/v) down to a limit.

Treatment of granules with Triton X-100 did not affect their starch synthase activity, but it removed the capacity to incorporate label from UDP [¹⁴C]G into non-starch polymers.

It is concluded that PEG, like some other active compounds (ethanol Na₃-citrate, and Ficoll) could mediate enzyme-primer interaction by exclusion.

     

Comparison of the size and physical properties of gamma-glutamyltranspeptidase purified from rat kidney following solubilization with papain or with Triton X-100.

gamma-Glutamyltranspeptidase is associated with the brush border membrane of kidney proximal straight tubule cells. It can be solubilized qualitatively by treatment with papain or Triton X-100. Neither procedure affects its catalytic activity but the two resulting forms of the enzyme differ considerably in their physical properties. The papain-solubilized transpeptidase is soluble in aqueous buffers and was purified 430-fold. It has an s20,w of 4.9 S, a Stokes radius of 36 A, and a calculated molecular weight of 69,000. It appears homogeneous by sedimentation equilibrium centrifugation (Mr=66,700). In contrast, the Triton-solubilized transpeptidase is soluble only in the presence of detergents and was purifed 300-fold. This form of the enzyme has a Stokes radius of 70 A but an s20,w of only 4.15 S. Aggregation of the enzyme just below the critical micelle concentration of Triton X-100 and its ability to bind 1.16 mg of Triton X-100-protein complex was calculated to be 169,000, but the glycoprotein portion of the complex is 52% of the total mass (87,000). The mass of Triton X-100 (82,000) is consistent with its reported micelle molecular weight. Treatment of the Triton-purified transpeptidase with papain or bromelain results in a form of the enzyme identical in all respects with the papain-purified enzyme. Both the Triton- and papain-purified transpeptidase exhibit two protein bands on sodium lauryl sulfate-polyacrylamide gel electrophoresis. The smaller subunits of the two forms appear identical (Mr=27,000), while the larger subunits of the Triton- and papain-purified enzyme have apparent molecular weights of 54,000 and 51,000, respectively. These data suggest that a peptide (3,000 to 19,000) in the larger subunit of gamma-glutamyltranspeptidase is responsible for its binding to Triton micelles and probably for holding the enzyme in the brush border membrane.     

Isolation and chemical properties of multiple active principles from miracle fruit

The active principle of miracle fruit which modifies the taste of sour stimuli into a sweet taste was purified by electrofocusing and its chemical propeorties were determined. The electrofocusing resulted in separation of three species of the active proteins (I, II and III) whose isoelectric points were 9.3, 9.0 and 8.0, respectively. Application of three proteins to polyacrylamide gel electrophoresis gave single bands, respectively. All the proteins had the same molecular weight of 40 000–41 000. Essential difference was not found between amino acid compositions of these proteins. N-terminal amino acid residue of the three proteins was determined to be 16% (w/w) for protein I, 20% (w/w) for protein II and 41% (w/w) for protein III. Eight species of carbohydrates (l-fucose, d-mannose, d-galactose, d-glucose, d-xylose, l-arabinose, l-rhamnose and d-glucosamine) were identified by gas chromatography and amino acid analysis as being carbohydrate components of protein II, which was an abundant component, and their relative contents were determined. 1·10⁻⁸ M protein II was sufficient to induce the half-maximal sweet-inducing activity.     

The effect of cyclic nucleotides and cholera toxin on in vivo and in vitro phosphorylation of small intestinal brush border membranes

The effect of cyclic nucleotides and cholera toxin on the phosphorylation of the brush border membrane proteins of the rat jejunum was studied. Phosphorylation was analyzed by autoradiography of brush border membrane proteins separated by SDS-polyacrylamide gel electrophoresis. Phosphorylation was performed either in vivo by perfusion of the jejunum with [³²P]orthophosphate followed by an analysis of the isolated membranes or in vitro by phosphorylation of isolated brush border membranes by [γ-³²P]ATP in the presence of saponin. The addition of cholera toxin (10 μg/ml) or dibutyryl-cAMP (5 mmol/l) to the perfusate was unable to produce significant changes in the phosphoprotein pattern. On the other hand, cAMP (at 5 μmol/l) induced an increase of the phosphorylation of a 86 kDa protein when freshly isolated brush border membranes were phosphorylated by [γ-³²P]ATP. However, the same effect could also be induced by low concentrations of cGMP (0.1 μmol/l). It is concluded that brush border membranes from rat jejunum do not contain cAMP-dependent protein kinase activity and that cAMP-dependent protein phosphorylation of this membrane does probably not represent the final event of cholera toxin-induced secretion.     

Effect of the conditions of isolation and incubation of the nuclei on digestion of DNA chromatin by calcium- and magnesium-dependent endonuclease. Change in the spectrum of chromosomal proteins and possible role of DNA-protein interactions]

Digesting of chromosomal DNA of interphase rat liver nuclei by Ca, Mg-dependent endonuclease in situ in the presence of chelating agents results in the appearance of the soluble DNP--up to 30% of the total DNA. In addition, 50% of the chromatin is solubilised after mild ultrasonication. In the absence of the chelating agents the degree of fragmentation is considerably increased. The process is accompanied by a loss of some histone and nonhistone chromosomal proteins; the nonhistone proteins are lost selectively. The preliminary removal of the nuclear membrane and significant part of the proteins by tritone X-100 promotes the chromatin degradation and the appearance of low molecular weight fragments. The DNA-fragments of solubilised chromatin are similar to the DNA-fragments of residual chromatin, but in the presence of the chelating agents the latter does not contain monomeric fragments.