Purification and characterization of an (Na++K+)-ATPase proteolipid labeled with a photoaffinity derivative of ouabain

Highly purified lamb kidney (Na⁺+K⁺)-ATPase was photoaffinity labeled with the tritiated 2-nitro-5-azidobenzoyl derivative of ouabain (NAB-ouabain). The labeled (Na⁺+K⁺)-ATPase was mixed with unlabeled carrier enzyme. Two proteolipid (γ1 and γ2) fractions were then isolated by chromatography on columns of Sepharose CL-6B and Sephadex LH-60. The two fractions were interchangeable when rechromatographed on the LH-60 column, suggesting that γ1 is an aggregated form of γ2. The total yield was 0.8–1.5 mol of γ component per mol of catalytic subunit recovered. This indicates that the γ component is present in stoichiometric amounts in the (Na⁺+K⁺)-ATPase. The proteolipids that were labeled with NAB-ouabain copurified with the unlabeled proteolipids.     

Sulphydryl groups and iodo-[3H]acetic acid labeling in proteolipids from Torpedo electroplax

Several fractions of proteolipids fromTorpedo electroplax were separated by DEAE-cellulose chromatography in organic solvents, and the sulphydryl groups were determined by a spectrophotometric method. On the same fractions the covalent labeling with iodo-[³H]acetic acid to sulphydryl groups was studied. In total proteolipids there were 30.3 nmol/mg protein of sulphydryl groups of which 20.6 nmoles were in the form of disulfide bonds and 10.9 nmol as free—SH groups. The highest content of sulphydryl groups (36.7 nmol/mg protein) was found in fraction II; while fraction I, that binds the cholinergic ligands, has a lower content (23.7 nmol/mg protein). The 42 Kdaltons polypeptide, which is the major band in Fraction II, has the strongest labeling with iodo-[³H]acetic acid, while the 39 Kdaltons cholinergic polypeptide shows a lower labeling. The importance of proteolipids as channel-forming macromolecules is discussed in connection with the possible significance of the 42 Kdaltons polypeptide.     

Synthesis of the myelin proteolipid protein in the developing mouse brain

Mice ranging in age from 16 to 44 days were injected intracerebrally with ³H-leucine, and incorporation into total brain proteolipids and the myelin proteolipid protein was measured. All proteolipids were isolated from whole brain by ether precipitation and separated into their individual components by SDS polyacrylamide gel electrophoresis. Two major proteolipids with apparent molecular weights of 20,700 and 25,400 were observed in these preparations, and their proportion increased over the developmental period examined. A Ferguson plot analysis comparing these proteins with those of isolated myelin showed that the 25,400-dalton proteolipid component from whole brain was the myelin proteolipid protein. Rates of incorporation of ³H-leucine into total brain proteolipids peaked at 22 days of age. Synthesis of the myelin proteolipid protein increased rapidly to a maximum value at 22 days and decreased rather slowly until at 44 days it was about 83% of its maximum rate of synthesis. The data indicate that the developmental pattern of synthesis of the myelin proteolipid protein is unlike that of the myelin basic proteins. Synthesis of the major myelin proteins is developmentally asynchronous in that peak synthesis of the myelin proteolipid appears to occur several days later than the basic proteins. In addition, it maintains its maximum rate of synthesis over a longer period of time than do the basic proteins.     

Effect of a single dose of inducers and inhibitors on the rate of synthesis of cytochromes and reductases in liver organelles

Summary Measurement of the effect of drugs on the in vivo rates of synthesis of rabbit liver organelle bound proteins were measured following individual treatments with the inducers phenobarbital, 3-methylcholanthrene and PCB (a mixture of polychlorinated biphenyls) and the inhibitors, cycloheximide, aflatoxin 13, chloramphenicol and actinomycin D. Following their isolation from a homogenate containing the combined livers of ¹⁴C-leucine injected experimental animals and 3H-leucine injected control animals, purified fractions of the following proteins were prepared: microsomal cytochrome b₅, cytochrome P-450, NADH-cytochrome b₅ reductase, NADPH-cytochrome P-450 reductase and proteolipids, outer mitochrondrial membrane cytochrome b5, NADH-cytochrome b₅ reductase and proteolipids, inner mitochrondrial membrane cytochrome c, NADH dehydrogenase and proteolipids, intermitochrondrial membrane cytochrome b₅ and circulating serum albumin.This research was supported by grants from the PSC-BHE Research Award Program of The City University of New York, US Public Health Service Grant SO 7 PRO7132-07 and the Alma Toorock Fund for Cancer Research.     

Purification and characterization of an (Na+ + K+)-ATPase proteolipid labeled with a photoaffinity derivative of ouabain

Highly purified lamb kidney (Na+ + K+)-ATPase was photoaffinity labeled with the tritiated 2-nitro-5-azidobenzoyl derivative of ouabain (NAB-ouabain). The labeled (Na+ + K+)-ATPase was mixed with unlabeled carrier enzyme. Two proteolipid (gamma 1 and gamma 2) fractions were then isolated by chromatography on columns of Sepharose CL-6B and Sephadex LH-60. The two fractions were interchangeable when rechromatographed on the LH-60 column, suggesting that gamma 1 is an aggregated form of gamma 2. The total yield was 0.8-1.5 mol of gamma component per mol of catalytic subunit recovered. This indicates that the gamma component is present in stoichiometric amounts in the Na+ + K+)-ATPase. The proteolipids that were labeled with NAB-ouabain copurified with the unlabeled proteolipids.     

Isolation of two proteolipids from rabbit skeletal muscle sarcoplasmic reticulum

We have isolated two proteolipids from rabbit skeletal muscle sarcoplasmic reticulum by chromatography on columns of Sepharose CL-6B and Sephadex LH-60. One, PL-II, is identical to the proteolipid previously obtained by others using organic solvent extraction. The other, PL-I, has an amino acid composition very similar to those of proteolipids we previously isolated from canine cardiac SR and lamb kidney (Na,K)-ATPase.     

CARBOXYMETHYLATION OF SULPHYDRYL GROUPS IN PROTEOLIPIDS1

(1) The sulphydryl groups of brain white matter proteolipids were studied by alkylation with iodoacetic acid and iodoacetamide in an organic solvent medium. To make sterically hindered sulphydryl groups available, the reaction was also carried out in the presence of sodium dodecyl sulphate. (2) In all cases, iodoacetamide was a better alkylating agent than was iodoacetic acid. (3) Only minimal alkylation of crude white matter proteolipids was obtained in the absence of detergent; addition of sodium dodecyl sulphate increased the availablity of SH groups. (4) Purified proteolipids prepared by column chromatography were alkylated to a lesser degree than were crude proteolipids. (5) Prior reduction with mercaptoethanol resulted in the quantitative conversion of cysteine to S-carboxymethylcysteine with either alkylating agent and in both preparations. (6) The possibility of a conformational difference between the protein in the crude and purified preparations is discussed.     

Isolation of two Proteolipids from Rabbit Skeletal Muscle Sarcoplasmic Reticulum

We have isolated two proteolipids from rabbit skeletal muscle sarcoplasmic reticulum by chromatography on columns of Sepharose CL-6B and Sephadex LH-60. One, PL-II, is identical to the proteo-lipid previously obtained by others using organic solvent extraction. The other, PL-I, has an amino acid composition very similar to those of proteolipids we previously isolated from canine cardiac SR and lamb kidney (Na, K)-ATPase.     

The synthesis of proteolipid protein by isolated rat liver mitochondria

About 15% of the total (³H)leucine incorporated into protein by isolated rat liver mitochondria $\text{in}\text{vitro}$ could be extracted by chloroform:methanol. This incorporation was inhibited by chloramphenicol and carbomycin, both specific inhibitors of mitochondrial protein synthesis. SDS-gel electrophoresis of the mitochondrial membrane revealed 6–7 labeled bands. Label in the proteolipid fraction was present mainly in a band of 40,000 molecular weight. Several labeled bands observed in gels of the mitochondrial membrane were not removed or changed by extraction with chloroform:methanol suggesting that some, but not all, of the proteins synthesized by rat liver mitochondria are proteolipids.     

Isolation by affinity chromatography of a cholinergic proteolipid from Nucleus caudatus.

A cholinergic proteolipid fraction (i.e. a hydrophobic lipoprotein) was separated from the $\text{n. caudatus}$ of the cow, using affinity chromatography with the lipophilic gel Sephadex LH-20 and p-phenyltrimethylamonium as the active group. High affinity binding studies showed that only the specific fraction, desorbed after an acetylcholine (or acid) pulse, and corresponding to 0,72% of the proteolipids, is the one that binds the cholinergic ligands. The binding of (³H)atropine and (¹⁴C)d-tubocurarine demonstrated that there are 814 picomoles/g fresh tissue of muscarinic sites and only 76 picomoles/g of nicotinic sites. The specific radioactivity for (³H)atropine is 10,000 nmoles/g protein, suggesting a high degree of purification of the specific cholinergic proteolipid.     

N- and C-terminal amino acids of proteolipids from the rat brain and various other organs

N- and C-terminal amino acids of proteolipid proteins from the whole brain and some other organs were investigated. N-terminal amino acids were identified by the dansylation procedure. C-terminal amino acids were determined after the enzymatic hydrolysis with carboxy peptidases A and B with the following dansylation. Phenyl alanine and lysine were identified as C-terminal amino acids of the proteolipids from the whole brain and only lysine--as the C-terminal amino acid of proteolipids from the heart, liver, kidney (cortical and medullary parts) and skeletal muscle. The corresponding N-terminal amino acids of the proteolipids from the whole brain were aspartic acid and glycine and of proteolipids from the heart, liver, kidney (cortical and medullary parts) and skeletal muscle--only aspartic acid. A comparison of the data obtained with the previous ones has shown that in the brain there exist only two types of proteolipids--one characteristic of myelin, another-- of mitochondria, and in other organs--only one characteristic of mitochondria.     

Brain proteolipids in representatives of different vertebrate classes

The Folch-Lees proteolipid complexes of different purity (crude proteolipids and relative pure proteolipids) were isolated from vertebrate brain: mammalia (Macaca irus, Macaca rhesus and white rat), birds (Columbia livia), reptilia (Testudo horsfieldi), amphibia (Rana temporaria) and fishes (Salmo irideus). The proteolipid complexes were isolated by emulsion-centrifugation method. The content of proteolipid protein (mg/g w. w.) correlates with the level of phylogenetic development of the animals studied. It is the highest in monkey brain (10.5 and 8.6 mg/g) and the lowest in fish brain (2.2 mg/g). The yield of proteolipids from the brains of animals studied shows the same pattern. Crude proteolipids of mammalia, birds and reptiles contain 40-50% of protein and 60-50% of lipids. The content of phospholipids is about 40%. Proteolipids of amphibia and fish brain contain less protein--about 30%. In the conditions of mild purification, the protein content in mammalia, birds and reptilia makes up about 70% and lipid content--about 30-35%. The crude and purified proteolipids in all the animals studied (as compared with the original lipid extracts from which they were isolated) are enriched in acid phospholipids: phosphatidyl serine, phosphatidyl inositol and diphosphatidyl glycerol. Acid phospholipids in total lipid extract make up 10-20% of total phospholipids, in crude proteolipids 16-32 and in purified proteolipids--56-75%. There are no marked differences between fatty acid composition of phospholipids in proteolipids and in the same phospholipids isolated from total lipid extract.     

Glucocorticoid enhances surfactant proteolipid Phe and pVal synthesis and RNA in fetal lung

Two newly described surfactant proteolipids (SPL), Phe and pVal, are produced by proteolytic processing of distinct precursors of Mr = 40,000 and 22,000, respectively. These proteins are structurally related and intimately associated with surfactant phospholipids. We now demonstrate the expression of both SPL(Phe) and SPL(pVal) in explants of human fetal lung from 16-24 weeks of gestation. Content, synthesis, and mRNA for the proteolipids were low prior to organ culture of fetal lung. Induction of synthesis of the proteolipids occurred rapidly in explant culture in the absence of exogenous hormones and was enhanced by addition of dexamethasone. Increased synthesis of the proteolipids was detected by enzyme-linked immunosorbent assay and by [35S]methionine incorporation into the glycosylated Mr = 40,000-43,000 SPL (Phe) precursor. The response to dexamethasone occurred rapidly and contrasted with effects of dexamethasone on the expression of surfactant-associated protein- (SAP) 35, a distinct surfactant glycoprotein. 8-Br-cAMP did not significantly increase proteolipid content but markedly increased synthesis of SAP-35 in identical cultures. Increased proteolipid content was associated with increased mRNA for each protein as determined by the Northern blot analysis. Proteolipid RNA was also increased by 8-Br-cAMP, however, not to the extent observed with the glucocorticoid. Immunohistochemical analysis of fetal lung with anti-proteolipid antiserum confirmed that the dexamethasone-enhanced synthesis of the proteins by Type II epithelial cells. The time and hormone dependence of the regulation of expression of both SPL(Phe) and SPL(pVal) precursors were distinct from that of SAP-35. Expression of the surfactant proteolipids increased during explant culture of human fetal lung and was further enhanced by glucocorticoid. Developmental and hormonal regulation of the surfactant proteolipids may be important factors in surfactant function at birth.     

PROTEOLIPID PROTEIN: SYNTHESIS AND ASSEMBLY INTO QUAKING MOUSE MYELIN

The incorporation of radioactive glycine into the major myelin proteolipid protein isolated from whole brain and from purified myelin of Quaking mice and normal littermates was compared. In a typical experiment, four Quaking mice and four littermate controls were injected intracranially with 250 μCi [2-³H]glycine and 25 μCi [U-¹⁴C]glycine respectively. Three hours later, the eight mice were killed and their brains combined. Equivalent portions were taken for (1) chloroform-methanol (2:1) extraction followed by ether precipitation of proteolipid from the brain and (2) myelin preparation. The ^3H/¹⁴C ratios for the microsomes:, the major myelin proteolipid as well as the other non-myelin proteolipids extracted from whole brain was approx 3.0. while the ³H/¹⁴C ratio for proteolipid protein in myelin was near 0.4. These findings were consistent for ages studied between 18 and 90 days. The results indicate that the synthesis of the major myelin proteolipid protein in the whole brain of Quaking mouse, as seen previously in our studies on basic protein, proceeds at a normal rate relative to microsomes but its incorporation into myelin is depressed. A working hypothesis of myelin membrane assembly is presented to account for the defect in the incorporation of these proteins into Quaking myelin.     

Effects of 3-hydroxy-3-methylglutaryl-coenzyme a reductase inhibitor pravastatin on membrane lipids and membrane associated functions of <Emphasis Type="Italic">Methanothermobacter thermautotrophicus</Emphasis>

The role of archaeal membrane and its lipid constituents was investigated in bioenergetic functions of Methanothermobacter thermautotrophicus. The effects were determined of the 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitor, pravastatin, on lipid composition, and its impact on some bioenergetic functions of treated cells. Pravastatin remarkably inhibited the growth of M. thermautotrophicus. On membrane level, pravastatin treatment modulated the composition of the mixture of squalene and hydrosqualene derivatives as well as the activities of ATPase, A₁A_o-ATP synthase and Na⁺/H⁺ antiporter. SDS-PAGE of chloroform-methanol extracts of membranes from control and pravastatin-treated cells revealed changes in the amount of AtpK proteolipids, which suggests that pravastatin modifies cell-membrane composition, hereby modulating the properties of some membrane-bound enzymes participating in energy transformation in methanoarchaea.     

NH2-terminal analysis of Wolfgram and Folch-Lees proteolipid proteins

Abstract— The NH₂-terminal amino acids of Wolfgram and Folch-Lees proteolipids of bovine and human CNS myelin were determined using the cyanate method (Starke & Smyth , 1963) followed by direct amino acid analysis of the products. Glycine predominated in every case and was recovered in amounts similar to the results described by Whikehart & Lees (1973), who used a dansylation technique followed by thin layer chromatography of the DNS-amino acids. In the present study substantial amounts of glutamic acid, serine, alanine and aspartic acid were also recovered, plus traces of other amino acids. Few differences were observed between Wolfgram and Folch-Lees proteolipids. The end group products of purified W1 proteolipid of bovine Wolfgram fraction, of diazometholysed Folch-Lees proteolipid, and of a sample of phosphatidyl serine had essentially the same composition. The similarity of these results, especially for both fractionated and unfractionated Wolfgram proteolipid, may be evidence that the observed products are derived from phosphoglycerides present in proteolipid rather than from the actual NH₂-terminals of the protein.     

Cell-mediated tumor-killing effect studied by using bilayer lipid membranes

The bilayer lipid membrane (BLM) system was used to investigate the tumor killing effect of natural killer (NK) cells under various experimental conditions. It was found that NK cells interact specifically with BLMs made from lipids and proteolipids isolated from target K562 cells inducing an increase of the membrane conductance. This effect was more pronounced when the NK cells were pretreated with interferon. A similar effect was observed when NK cells were pretreated with sodium selenite. The results suggest that changes in membrane conductance and permeability are involved in the mechanism of the tumor-killing effect mediated by NK cells.     

Proteolipids in the developing brains of normal mice and myelin deficient mutants

Abstract— A developmental study of proteolipids from brains of normal mice and two myelin deficient mutants, jimpy and quaking, was performed. The proteolipids were obtained by diethyl ether precipitation of washed total lipid extracts from whole brains and were analysed on polyacrylamide gels containing sodium dodecyl sulphate. The amount of ether precipitable material extractable from normal brains increased almost six-fold between 12 and 21 days posr partum. This increase was not observed with the mutant mice. Polyacrylamide gel electrophoretic analysis of the proteolipid fraction showed it to be heterogeneous, with eight major protein bands. Two of these proteins increased rapidly in quantity in normal mice between 13 and 21 days. These two proteins were present, in severely reduced quantities in the brains of jimpy and quaking mice at all ages examined. One of these proteolipids was the major species present in proteolipid extracts from the brains of normal mature mice. This protein coelectrophoresed with proteolipid isolated from purified myelin and has been tentatively identified as the myelin proteolipid. The other proteolipid which was deficient in jimpy and quaking brains was not characterized, but it appeared to be of extra-myelin origin, and suggests that parts of the brain other than the myelin sheath may be involved in the jimpy and quaking disorders.