Solubilization and partial characterization of rat epididymal delta 4-steroid 5 alpha-reductase (cholestenone 5 alpha-reductase).

Epididymal delta 4-steroid 5 alpha-reductase (cholestenone 5 alpha-reductase), the enzyme that catalyses the conversion of testosterone into the biologically active metabolite dihydrotestosterone (17 beta-hydroxy-5 alpha-androstan-3-one), is a membrane-bound enzyme found in both nuclear and microsomal subcellular fractions. In order to characterize epididymal delta 4-steroid 5 alpha-reductase, it was first necessary to solubilize the enzymic activity. Of the various treatments tested, a combination of 0.5% (w/v) Lubrol WX, 0.1 M-sodium citrate and 0.1 M-KCl maintained enzymic activity at control values and solubilized 66% of total epididymal delta 4-steroid 5 alpha-reductase activity in an active and stable form. The sedimentation coefficient of solubilized delta 4-steroid 5 alpha-reductase, as determined in continuous sucrose density gradients, was greater for the microsomal than for the nuclear enzyme (11.6S compared with 10.1S). Although the apparent Km values of the enzyme for testosterone were similar in nuclear and microsomal subcellular fractions (range 1.75 x 10(-7) - 4.52 x 10(-7)M), the apparent Km of the enzyme for NADPH was about 30-fold greater for the microsomal enzyme than for the nuclear enzyme. The apparent Km of the enzyme for either substrate was not significantly altered after solubilization. The relative capacity of steroids to inhibit the enzymic activity, the pH optima and the effects of Ca2+ and Mg2+ were similar for membrane-bound and solubilized delta 4-steroid 5 alpha-reductase in both the nuclear and the microsomal fractions. The results reported demonstrate that epididymal delta 4-steroid 5 alpha-reductase can be solubilized in an active and stable form with no significant changes in the kinetic characteristics of the enzyme after solubilization; furthermore, kinetic and molecular-size differences observed for the nuclear and the microsomal forms of the enzyme suggest that there may exist at least two forms of epididymal delta 4-steroid 5 alpha-reductase.     

Solubilization of human prostatic 5 alpha-reductase

A sensitive assay for 5 alpha-reductase was introduced which is capable of detecting at least 0.2 U of activity per sample. The assay was used in developing a method for the solubilization of human prostatic 5 alpha-reductase. Homogenisation conditions were devised under which 95% of the total prostatic 5 alpha-reductase was released into the microsomal fraction. A combination of 0.1 M sodium citrate, 0.1 M KCl, 20% (v/v) glycerol, 0.5 mM NADPH and 1 microM testosterone was found to stabilise 5 alpha-reductase in the presence of detergents. The effect of the presence of low concentrations of detergents in the assay on the activity of 5 alpha-reductase was studied. Triton X-100, Lubrol PX and Nonidet P-40, caused a concentration-dependent inhibition of activity. The ability of several detergents (Triton X-100 MEGA-9, Tween 20, Tween 80, digitonin, Lubrol PX and Nonidet P-40) to solubilise 5 alpha-reductase was studied. All detergents caused a concentration-dependent solubilization of 5 alpha-reductase. Significant amounts of active solubilized enzyme were recovered only with Lubrol PX at concentrations less than 1.1 mg/ml. Seventy percent of the 5 alpha-reductase was solubilized in an active form by extracting the membranes 3 times with 0.8 mg/ml Lubrol PX.     

The HLB dependency for detergent solubilization of hormonally sensitive adenylate cyclase

The HLB dependency for the solubilization of membrane proteins and adenylate cyclase activity from a plasma membrane-enriched fraction from rat liver has been determined. The HLB (hydrophilic/lipophilic/balance) number of a detergent is an empirical measure of its relative hydrophobicity. Detergent HLB numbers vary systematically with the length of the ethylene oxide chain for a homologous series of detergents such as the Triton X series. These detergents have a constant hydrophobic moiety, octylphenyl, and a variable polar portion, polyethoxyethanol. Basal-NaF-epine-phrine-, and glucagon-stimulated adenylate cyclase activities were solubilized in the HLB range of 16.8–17.4. Solubilization was most effective in 0.01 M Tris buffers at pH 7.5 containing 1–5 mM mercaptoethanol, 1 mM MgCl₂, and 0.1% Triton X-305. The detergent to membrane protein ratio used in these studies was 3:1. Criteria for solubilization included lack of sedimentation at 100,000 × g, the absence of particulate material in the supernatant when examined by electron microscopy, and inclusion of hormonally sensitive adenylate cylcase activity in Sephadex G-200 gels. The apparent molecular weight of the solubilized enzyme was approximately 200,000 in the presence of Triton X-305. The solubilized enzyme was stimulated 5-fold by NaF, 7-fold by glucagon, and 20-fold by epinephrine compared to the particulate enzyme used in this study which was stimulated 10-fold, 3,4-fold, and 4-fold by NaF, epinephrine, and glucagon, respectively. The solubilized enzyme is stable for several weeks when stored at ?60° C.     

Effects of chaotropic agents versus detergents on dihydroorotate dehydrogenase.

As chaotropic salts are generally believed to affect water structure in a manner which increases lipophilicity of water, they may seem to be capable of substituting for detergents in the solubilization of particulate enzyme. Although solubilization either by detergents or by chaotropic salts has been demonstrated with several membrane proteins, the effects these agents have on the properties and activity of an enzyme may be quite different. This is illustrated by the effects on mammalian mitochondrial dihydroorotate dehydrogenase. Stability of the solubilized enzymic activity is dependnet on the presence of a detergent and maximum enzymic activity is observed at the critical micelle concentration of the detergent. Addition of low concentrations of various anions of the chaotropic series further enhances activity while higher concentrations of these anions, although increasing solubility of the enzyme, irreversibly inhibit catalysis.     

Stabilization and crystallization of Ca2+-ATPase in detergent-solubilized sarcoplasmic reticulum

Conditions were developed for the long-term stabilization of Ca2+-ATPase in detergent-solubilized sarcoplasmic reticulum, purified Ca2+-ATPase, and purified-delipidated Ca2+-ATPase preparations. The standard storage medium contains 0.1 M KCl, 10 mM K-3-(N-morpholino)propanesulfonate, pH 6.0, 3 mM MgCl2, 20 mM CaCl2, 20% glycerol, 3 mM NaN3, 5 mM dithiothreitol, 25 IU/ml Trasylol, 2 micrograms/ml 1,6-di-tert-butyl-p-cresol, 2 mg/ml protein, and 2-4 mg of detergent/mg of protein. Preparations stored under these conditions at 2 degrees C in a nitrogen atmosphere retain significant Ca2+-stimulated ATPase activity for periods of 5-6 months or longer when assayed in the presence of asolectin. The same conditions are also conducive for the formation of three-dimensional microcrystals of Ca2+-ATPase. Of the 49 detergents tested for solubilization, optimal crystallization of Ca2+-ATPase was obtained in sarcoplasmic reticulum solubilized with octaethylene glycol dodecyl ether at a detergent/protein weight ratio of 2, and with Brij 36T, Brij 56, and Brij 96 at a detergent/protein ratio of 4. Similar Ca2+-induced crystals of Ca2+-ATPase were obtained with purified or purified delipidated ATPase preparations at lower detergent/protein ratios. The stabilization of the ATPase activity in the presence of detergents is the combined effect of high Ca2+ (20 mM) and a relatively high glycerol concentration (20%). Ethylene glycol, glucose, sucrose, or myoinositol can substitute for glycerol with preservation of ATPase activity for several weeks in the presence of 20 mM Ca2+.Ca2+-induced association between ATPase molecules may be an essential requirement for preservation of enzymatic activity, both in intact sarcoplasmic reticulum and in solubilized preparations.     

Characterization and solubilization of the membrane-bound ATPase of Mycoplasma gallisepticum.

The membrane-bound ATPase of Mycoplasma gallisepticum selectively hydrolyzed purine nucleoside triphosphates and dATP. ADP, although not a substrate, inhibited ATP hydrolysis. The enzyme exhibited a pH optimum of 7.0 to 7.5 and an obligatory requirement for divalent cations. Dicyclohexylcarbodiimide at a concentration of 1 mM inhibited 95% of the ATPase activity at 37 degrees C, with 50% inhibition occurring at 22 microM dicyclohexylcarbodiimide. Sodium or potassium (or both) failed to stimulate activity by greater than 37%. Azide (2.6 mM), diethylstilbestrol (100 micrograms/ml), p-chloromercuribenzoate (1 mM), and vanadate (50 microM) inhibited 50, 91, 89, and 60%, respectively. The ATPase activity could not be removed from the membrane without detergent solubilization. Although most detergents inactivated the enzyme, the dipolar ionic detergent N-dodecyl-N,N-dimethyl-3-ammonio-1-propanesulfonate (0.1%) solubilized approximately 70% of the enzyme with only a minor loss in activity. The extraction led to a twofold increase in specific activity and retention of inhibition by dicyclohexylcarbodiimide and ADP. Glycerol greatly increased the stability of the solubilized enzyme. The properties of the membrane-bound ATPase are not consistent with any known ATPase. We postulate that the ATPase functions as an electrogenic proton pump.     

Solubilization of Myelin Membranes by Detergents

The major proteins of myelin have classically been extracted in organic solvents. Here we investigated some of the characteristics of brain myelin solubilization in aqueous detergent solutions. At comparable molar concentrations, two nonionic detergents, i.e., octyl glucoside and Lubrol PX, proved relatively better myelin solubilizers than the detergents related to the bile salts, i.e., cholate and CHAPS. The two former detergents solubilized more protein than lipid and the two latter ones more lipid than protein from myelin membranes. All four detergents solubilized the phospholipid more efficiently than the cholesterol component of myelin. The detergent concentrations required for myelin solubilization were reduced substantially if the temperature and the salt concentration of the media were increased. As much as 3 mg of lyophilized myelin (about 1 mg of protein) were solubilized readily per milliliter of a solution containing 30 mM octyl glucoside and 0.1 M sodium sulfate in 0.1 M sodium phosphate buffer, pH 6.7. Each of the detergents studied, including the above four, sodium dodecyl sulfate (SDS). Triton X-100, and Zwittergent 3-14, had its own advantages and drawbacks as myelin protein extractors. The nonionic amphiphiles and CHAPS left a small residue mainly composed of proteins of the Wolfgram fraction, as revealed by SDS-polyacrylamide gel electrophoresis. Octyl glucoside was preferred, given its versatility as solubilizer, ultraviolet transparency, and high critical micellar concentration. Observations on possible difficulties that may be encountered are also included.     

Properties of 4-ene-5 alpha-reductase and studies on its solubilization from porcine testicular microsomes

The activity of 4-ene-5 alpha-reductase was assayed in porcine testis homogenates and subcellular fractions, using testosterone as substrate. 'Marker' enzyme activities were utilized to indicate the purity of the subcellular fractions. 4-Ene-5 alpha-reductase activity was associated with the microsomal fraction; there was no activity in the purified nuclear fraction. Enzyme activity was higher in the testes of 6 week old pigs than those of 3 and 17 week old animals, and a range of activity was found. The enzyme was unstable when stored at -20 degrees C but the addition of albumin (0.1%, w/v) or glycerol (20%, v/v) to the buffer and storage at -70 degrees C or in liquid nitrogen ensured that maximal activity was retained for at least 35 days. In addition to 5 alpha-DHT, other 5 alpha-reduced metabolites and 4-androstenedione were formed in this reaction; NADPH was the preferred cofactor, but 40% of the 4-ene-5 alpha-reductase activity was retained when NADH was used. Solubilization of the microsomal enzyme was achieved using sodium citrate (0.1 M); 4-ene-5 alpha-reductase activity was enhanced to greater than 120% and 60% of this activity was in the soluble fraction. The optimum pH and temperature for both soluble and membrane-bound 4-ene-5 alpha-reductase were 6.9 and 32 degrees C, respectively. The mean apparent Km and Vmax were 0.6 mumol/l and 158 pmol/min/mg microsomal protein for the microsomal enzyme and 1.42 mumol/l and 212.0 pmol/min/mg soluble protein for the solubilized 4-ene-5 alpha-reductase. The estimated sedimentation coefficient was 11.6.     

Pituitary progesterone 5 alpha-reductase: solubilization and partial characterization

The microsomal progesterone 5 alpha-reductase activity from female rat anterior pituitary has been solubilized and partially characterized with regard to some of its kinetic and physical properties. The solubilization of progesterone 5 alpha-reductase has been achieved through the use of either an n-octyl glucoside (OG)-KCl- or a digitonin-KCl-extraction. The total yield and specific activity of solubilized enzyme activity is greater using the OG-KCl method. Kinetic analyses of microsomal and OG-KCl-solubilized progesterone 5 alpha-reductase have indicated that both of these preparations exhibit a similar apparent Km for progesterone (microsomal Km = 117 +/- 12 nM; solubilized Km = 123 +/- 11 nM), suggesting that the solubilization procedure does not appreciably alter the kinetic behavior of this enzyme activity. The OG-KCl-extracted progesterone 5 alpha-reductase activity also appears quite stable, since essentially no enzyme activity is lost following dialysis at 4 degrees C for 22 h. In addition, the activity of the solubilized-dialyzed enzyme preparation can be slightly stimulated via the addition of phospholipids. Studies on the properties of the microsomal enzyme activity have indicated that this preparation is unaffected by metal chelators (EDTA or EGTA) but can be completely inhibited by the powerful sulfhydryl blocking agent p-chloromercuribenzoic acid. An evaluation of the possible role of flavins (as a hydride carrier between NADPH and the steroid) has shown that progesterone 5 alpha-reduction is inhibited by high levels of flavins and flavin analogs.     

Properties and subcellular distribution of delta4-steroid (progesterone) 5alpha-reductase in rat anterior pituitary.

The properties and subcellular distribution of anterior pituitary delta4-steroid (progesterone) 5alpha-reductase, which stimulates the conversion of progesterone to 5alpha-pregnane-3,20-dione, have been investigated utilizing 3H-substrate and a reverse isotopic dilution assay system. The enzymic activity was stimulated by NADPH but not NADH and exhibited a Km of 2.7+/-0.9 times 10(-7) M for progesterone. The substrate specificity of the enzyme for other delta4-3-ketosteroids and the effect of estradiol-17beta were also studied. 20alpha-hydroxy-4-pregnen-3-one was more reactive than progesterone, while testosterone was less reactive. Estradiol-17beta in vitro had an inhibitory effect on the 5alpha-reduction of progesterone. Studies on the subcellular distribution of the 5alpha-reductase activity indicate that the bulk of the activity was widely distributed amongst particulates sedimenting at 1,000, 15,000 and 100,000xg; with the 15,000xg pellet containing the most enzymic activity. The 100,000xg supernatant possessed only a small fraction of the total activity. After further fractionation of the 1,000xg pellet, the activity was distributed equally between the purified nuclear and cell debris-membranes fractions.     

Inhibition and activation of porcine squalene epoxidase.

Pig liver squalene epoxidase (SE) has been partially purified from solubilized microsomes by DEAE-Sephacel and Blue Sepharose 4B chromatography. This stable and reproducible preparation was used to investigate the mechanism of several substrate-like inhibitors of SE and to study the effects of pH, metals, detergents, and cofactors on enzyme activity. Most divalent (1 mM) and trivalent (0.1 mM) metal cations had little effect on SE at pH 7.4; only ferrous and cupric ions showed ca. 50% reduction in SE activity. Interestingly, at pH 8.8, EDTA (10 mM) shows 1.8-fold enhancement of enzyme activity. Among the detergents, Triton X-100 was clearly superior for solubilization and purification of porcine SE; Tween 80, Lubrol-PX, 3-[(3-cholamidopropyl)dimethylammonio]propanesulfonic acid, octyl beta-glucoside, and three different Zwittergents were much less effective for SE solubilization. Partially purified pig liver SE showed maximal activity at pH 8.8-9.0. Trisnorsqualene alcohol and trisnorsqualene cyclopropylamine were noncompetitive inhibitors at pH 8.8, with Ki values of 4 microM and 180 nM, respectively; these two inhibitors were not substrates for SE. In contrast, 26-hydroxysqualene was both a competitive inhibitor with a Ki value of 4 microM at pH 8.8 and a substrate for SE. An unexpected enhancement (up to 350%) of SE activity was observed at pH 7.4 following preincubation with selected nonpolar derivatives of farnesol and farnesoic acid. At pH 8.8, this effect was less dramatic but still evident.     

Subcellular distribution of steroid delta 4-5 alpha-reductase and 3 alpha-hydroxysteroid dehydrogenase in the rat epididymis during sexual maturation

The curve of the specific activity of rat epididymal nuclear delta 4-5 alpha-reductase is bell shaped as a function of age, whereas that of cytoplasmic 3 alpha-hydroxysteroid dehydrogenase does not change significantly with age. The present study examines the subcellular distribution of delta 4-5 alpha-reductase and 3 alpha-hydroxysteroid dehydrogenase in the caput-corpus and cauda epididymidis during development. A 5-step discontinuous sucrose gradient was developed for fractionation of epididymal homogenates. By using enzyme markers specific for different subcellular organelles, the five different subcellular fractions obtained were shown to be of cytoplasmic, microsomal, mitochondrial, nuclear and spermatozoal origin. 3 alpha-Hydroxysteroid dehydrogenase activity was associated only with the cytoplasmic fraction. The activity of the enzyme did not change significantly with age in either the caput-corpus or cauda epididymidis. delta 4-5 alpha-Reductase activity was found in fractions containing microsomal and nuclear markers. delta 4-5 alpha-Reductase activity in the nuclear fraction of the caput-corpus epididymidis was evident in the youngest age group (Day 25), increased 4-fold and peaked in the next age group (Day 35), and declined with each successive age group: Day 45 (60% of maximum), Day 60 (20% of maximum), Day 75 (15% of maximum) and Day 105 (10% of maximum). In contrast, microsomal delta 4-5 alpha-reductase activity increased successively from Day 25 to Day 105; enzyme activity doubled between these two ages. The ratio of nuclear to microsomal delta 4-5 alpha-reductase activity from the caput-corpus epididymidis thus changed markedly with age: Day 25:1.32; Day 35:3.76; Day 45:2.44; Day 60:1.03; Day 75:0.41; and Day 105:0.21. In the cauda epididymidis nuclear delta 4-5 alpha-reductase activity was only evident at Day 35 and Day 45; in microsomal fractions, activity was first found at Day 35 and did not subsequently change with age. These results demonstrate that: 1) epididymal 3 alpha-hydroxysteroid dehydrogenase activity is found only in the cytoplasmic fraction; 2) delta 4-5 alpha-reductase activity is found in nuclear and microsomal fractions; and 3) the subcellular distribution of delta 4-5 alpha-reductase activity changes markedly with age and epididymal section, suggesting differential regulation of nuclear and microsomal delta 4-5 alpha-reductase activities.     

Progesterone metabolism in the gastric mucosa microsomes of guinea pig

The microsomes from guinea pig gastric mucosa were found to convert [4-14C]progesterone to two major metabolites in the presence of NADPH. The gastric metabolizing activity was the highest among the gastrointestinal tissues of guinea pig. 5 alpha-Pregnane-3,20-dione and 3 beta-hydroxy-5 alpha-pregnan-20-one were identified as the major metabolites by thin-layer chromatography and crystallization to constant specific activity, suggesting the presence of steroid 5 alpha-reductase and 3 beta-hydroxysteroid dehydrogenase activities in the gastric mucosa microsomes. Furthermore, time course of progesterone metabolism and analysis of 5 alpha-pregnane-3,20-dione metabolites suggest that the gastric progesterone metabolism is initiated by 5 alpha-reductase and followed by 3 beta-hydroxysteroid dehydrogenase. The progesterone-metabolizing activity was strongly inhibited by SKF 525-A and disulfiram. The activity was also inhibited by methyrapone to a somewhat lesser extent than the above inhibitors. From gastric mucosa microsomes, the progesterone-metabolizing activity was successfully solubilized with 2% digitonin using 0.1 M potassium chloride and 1 mM dithiothreitol, 0.4 mM NADPH and 20% glycerol as stabilizers for the solubilized activity. Among these stabilizers, glycerol was found to be most effective for stabilizing the activity of the solubilized microsomes.     

Author index

Fat cell particulate phosphodiesterase activity can be solubilized in high yield (80–100%) in a buffer system (30 mM Tris · HCl, pH 8.0) containing non-ionic detergents (0.1% Brij 30, 1.0% Triton X-100), salt (3.0 mM MgSO₄, 5.0 mM NaBr) and dithiothreitol (5.0 mM). Polycrylamide gel electrophoresis of the solubilized enzyme activity indicated the presence of two bands of activities of different electrophoretic mobilities, both of which hydrolyzed cylic AMP and cyclic GMP. The solubilized activity eluted from DEAE Bio-Gel columns as a somewhat broad profile with at least two peaks of activity. Activity against both cyclic AMP and cyclic GMP eluted in similar but not identical patterns. The solubilized enzyme and DEAE column eluates exhibited low (<1 μM) Michaelis constants for cyclic AMP and cyclic GMP. In addition, the increase in phosphodiesterase activity induced by incubation of intact fat cells with insulin or adrenocorticotropic hormone are maintained in the solubilized state.     

Photoaffinity labelling of nuclear steroid 5 alpha-reductase of rat ventral prostate

In order to get more information on the molecular structure of the rat prostatic 5 alpha-reductase (3-oxo-5 alpha-steroid: NADP+ 4-ene-oxidoreductase, EC 1.3:1.22) a systematic photoaffinity labelling study has been performed. To irreversibly freeze the status quo of interaction, either testosterone, the physiological ligand, or diazo-MAPD (21-diazo-4-methyl-4-aza-5 alpha-pregnane-3,20-dione), a specific 5 alpha-reductase inhibitor, was irradiated with isolated nuclei or with purified nuclear membranes or with solubilized nuclear membrane proteins and checked for optimal labelling conditions. The principal substances covalently labelled were phospholipids and at a minor ratio proteins. Analysis by SDS-PAGE and autoradiofluorography revealed two labelled polypeptides with molecular weights of 20 kDa and 26 kDa. The following evidence indicates that these polypeptides might be derived from the enzyme 5 alpha-reductase: both proteins are labelled only when specific ligands for 5 alpha-reductase are used; binding can be reduced by the addition of an excess of unlabelled ligand; enzyme activity is irreversibly suppressed when irradiated in the presence of these ligands; only subcellular fractions containing 5 alpha-reductase reveal the labelled proteins; in all 5 alpha-reductase containing preparations with increasing specific activity, independent of the polypeptide pattern, the same proteins are labelled.     

Method for Lyophilizing Brain Proteolipid Preparation That Increases Subsequent Solubilization by Detergent

Abstract: A frozen mixture of solubilized brain proteolipid proteins in chloroform-methanol is not sublimable in a vacuum. However, when 7 to 10 volumes of benzene were added to a chloroform-methanol solution containing 5 mg of proteolipid protein per ml, the proteolipid proteins remained in solution for a while and the frozen mixture was easily sublimated at 2 mm Hg. Before the addition of benzene, higher concentrations of protein required the acidification of the medium to avoid precipitation of proteolipid proteins. In contrast to what happens when proteolipid proteins are obtained by the evaporation of the organic mixture at room temperature, the protein obtained by lyophilization was soluble in aqueous solutions of ionic and nonionic detergents. Sodium dodecyl sulfate at 0.6 to 0.7% concentration completely solubilized the proteolipid protein obtained by lyophilization. With the nonionic detergents Lubrol WX and Triton X-100, a solubilization between 50 and 65% was achieved. Sodium deoxycholate was practically ineffective. Triton X-100 showed selectivity in solubilizing certain proteins. The role of lipids in the solubilization of proteolipid proteins with detergents is discussed.     

Solubilization and reconstitution of membrane proteins of Escherichia coli using alkanoyl-N-methylglucamides

Alkanoyl-N-methylglucamides, nonionic detergents, were utilized to solubilize membrane proteins of Escherichia coli and were used to reconstitute them into liposomes. First, critical micelle concentrations (CMC) of nonanoyl-N-methylglucamide and decanoyl-N-methylglucamide were determined to be 25 mM and 7 mM, respectively, by photometric assay. Then solubilization and reconstitution of the melibiose transport carrier were performed using these detergents at concentrations above the CMC. Melibiose counterflow activity was observed with the proteoliposomes reconstituted from the extracted proteins and phospholipids. The proton-translocating ATPase complex (F1-F0) was also solubilized with these detergents. These results indicate that nonanoyl- and decanoyl-N-methylglucamide are useful detergents for solubilization and reconstitution of membrane proteins.     

Characteristics of a nuclear protein kinase from rat epididymis

Purified rat epididymal nuclei possess a cyclic AMP-independent protein kinase activity that phosphorylates of casein. The enzymic activity was solubilized by treating intact nuclei with 1 M (NH4)₂SO₄. One major peak of kinase activity was obtained when the solubilized enzyme preparation was subjected to diethylaminoethyl-Sephadex chromatography. The activity of the kinase was dependent on a bivalent metal ion such as Mg²⁺, Co²⁺, Ca²⁺ or Mn²⁺. NaCl (0.3 M) caused a further activation (approx. 200%) of the metal (Co²⁺)-dependent enzyme. The apparentK _m values of the enzyme for casein, ATP and Co²⁺ are approx. 0.6 mg/ml, 10 ΜM and 2.2 mM respectively. The enzyme was maximally active at pH 5.5. The enzyme showed high specificity for phosphorylation of the acidic protein casein but did not phosphorylate basic proteins, such as histones and protamine. The properties of the nuclear protein kinase were clearly different from those of the cytosolic enzymes previously characterized.     

The functional unit of calcium-plus-magnesium-ion-dependent adenosine triphosphatase from sarcoplasmic reticulum. The aggregational state of the deoxycholate-solubilized protein in an enzymically active form

Vesicles consisting of (Ca²⁺+Mg²⁺)-dependent ATPase (adenosine triphosphatase), and lipid were prepared from sarcoplasmic reticulum of rabbit skeletal muscle. As with non-ionic detergents [le Maire, Møller & Tanford (1976) Biochemistry 15, 2336–2342] the (Ca²⁺+Mg²⁺)-dependent ATPase after solubilization by deoxycholate showed a pronounced tendency to form oligomers in gel-chromatographic experiments, when eluted in the presence of deoxycholate and phosphatidylcholine. To evaluate the functional significance of oligomer formation the properties of enzymically active preparations of ATPase, solubilized by deoxycholate, were studied. Such preparations were obtained at a protein concentration of 2.5mg/ml in the presence of a high salt concentration (0.4m-KCl) and sucrose (0.3m) in the solubilization medium. Analytical ultracentrifugation of solubilized ATPase showed one protein boundary moving at the same rate as gel-chromatographically prepared monomeric ATPase (s_20,w=6.0S). From simultaneous measurements of the diffusion coefficient an apparent molecular weight of 133000 was calculated, consistent with solubilization of ATPase in predominantly monomeric form. The enzymic activity of deoxycholate-solubilized ATPase when measured directly in the solubilization medium at optimal Ca²⁺ and MgATP concentrations was about 35–50% of that of vesicular ATPase. The dependence of enzymic activity on MgATP concentration indicated that the solubilized ATPase retained high-affinity binding of MgATP, but the presence of high concentrations of the nucleotide did not stimulate activity further, in contrast with that of vesicular ATPase. The dependence of enzymic activity on the free Ca²⁺ concentration was essentially the same for both solubilized and vesicular forms, indicating that interaction of ATPase with more than one molecule of Ca²⁺ is required for enzyme activity. Solubilized enzyme at 20°C was phosphorylated to about the same degree as vesicular ATPase. It is concluded that the catalytic activity of monomeric ATPase retains most of the features of vesicular ATPase and that extensive oligomer formation in gel-chromatographic experiments in the presence of deoxycholate probably reflects processes taking place during inactivation and delipidation of the protein.     

Triton solubilization of proteins from pig liver mitochondrial membranes

Various aspects of membrane solubilization by the Triton X-series of nonionic detergents were examined in pig liver mitochondrial membranes. Binding of Triton X-100 to nonsolubilized membranes was saturable with increased concentrations of the detergent. Maximum binding occurred at concentrations exceeding 0.5% Triton X-100 (w/v). Solubilization of both protein and phospholipid increased with increasing Triton X-100 to a plateau which was dependent on the initial membrane protein concentration used. At low detergent concentrations (less than 0.087% Triton X-100, w/v), proteins were preferentially solubilized over phospholipids. At higher Triton X-100 concentrations the opposite was true. Using the well-defined Triton X-series of detergents, the optimal hydrophile-lipophile balance number (HLB) for solubilization of phosphatidylglycerophosphate synthase (EC 2.7.8.5) was 13.5, corresponding to Triton X-100. Activity was solubilized optimally at detergent concentrations between 0.1 and 0.2% (w/v). The optimal protein-to-detergent ratio for solubilization was 3 mg protein/mg Triton X-100. Solubilization of phosphatidylglycerophosphate synthase was generally better at low ionic strength, though total protein solubilization increased at high ionic strength. Solubilization was also dependent on pH. Significantly higher protein solubilization was observed at high pH (i.e., 8.5), as was phosphatidylglycerophosphate synthase solubilization. The manipulation of these variables in improving the recovery and specificity of membrane protein solubilization by detergents was examined.