Selective Extraction of the DM-20 Brain Proteolipid

Brain DM-20 proteolipid was previously shown to be structurally different from the myelin major proteolipid (MMPL). In an attempt to set up a large-scale purification of DM-20, we studied extraction of brain proteolipids with mixtures of methylene chloride containing up to 80% methanol. The CH2Cl2-CH3OH (3:7, vol/vol) mixture is highly selective for the extraction of bovine brain DM-20 compared to MMPL. Purified DM-20 was obtained after chromatography of the extract on methylated Sephadex.     

A specific immunological probe for the major myelin proteolipid. Confirmation of a deletion in DM-20

Major myelin proteolipid (MMPL, also called PLP) and DM-20 are the two major intrinsic membrane proteins of CNS myelin. A specific immunological probe was obtained for MMPL by raising antibodies against the synthetic tridecapeptide 117-129 of MMPL. Antibodies against this peptide reacted with the MMPL but did not cross react with DM-20, while both proteolipids had been shown previously to be recognized by antibodies directed against the C-terminal hexapeptide of MMPL. This is in accordance with previous findings showing that DM-20 differs only from MMPL by a deletion of residues 100-140 (+/- few units). Furthermore, this site-specific immunological probe also recognizes MMPL in its native form in oligodendrocytes in primary glial cell cultures.     

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.     

ISOLATION AND PURIFICATION OF CHOLINERGIC RECEPTOR PROTEOLIPIDS FROM RAT GASTROCNEMIUS TISSUE1

Four organic solvent extraction methods have been used to isolate receptor proteolipids from rat gastrocnemius tissue. The resulting proteolipids have high binding capacities and specificities for a number of cholinergic ligands including acetylcholine, α-bungarotoxin. tubocurarine and deca-methonium. The proteolipids have been purified by repeated Sephadex LH-20, Sepharose-CL and affinity chromatography in organic solvent systems. Protein, carbohydrate and lipid phosphorous analysis of the receptors throughout the purification procedure show that the relative proportions of these components varied with extraction method. The purified receptor proteolipid resulting from wet tissue extraction has been characterized as a somatic, nicotinic cholinergic receptor by its specificity and binding kinetics toward a variety of drugs and toxins. The presence of carbohydrate in the receptor proteolipid preparations throughout the purification procedure may indicate that the cholinergic receptor from rat gastrocnemius tissue is a glycoproteolipid.     

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.     

Molecular characterization of the yeast vacuolar H+-ATPase proton pore

The Saccharomyces cerevisiae vacuolar ATPase (V-ATPase) is composed of at least 13 polypeptides organized into two distinct domains, V(1) and V(0), that are structurally and mechanistically similar to the F(1)-F(0) domains of the F-type ATP synthases. The peripheral V(1) domain is responsible for ATP hydrolysis and is coupled to the mechanism of proton translocation. The integral V(0) domain is responsible for the translocation of protons across the membrane and is composed of five different polypeptides. Unlike the F(0) domain of the F-type ATP synthase, which contains 12 copies of a single 8-kDa proteolipid, the V-ATPase V(0) domain contains three proteolipid species, Vma3p, Vma11p, and Vma16p, with each proteolipid contributing to the mechanism of proton translocation (Hirata, R., Graham, L. A., Takatsuki, A., Stevens, T. H., and Anraku, Y. (1997) J. Biol. Chem. 272, 4795-4803). Experiments with hemagglutinin- and c-Myc epitope-tagged copies of the proteolipids revealed that each V(0) complex contains all three species of proteolipid with only one copy each of Vma11p and Vma16p but multiple copies of Vma3p. Since the proteolipids of the V(0) complex are predicted to possess four membrane-spanning alpha-helices, twice as many as a single F-ATPase proteolipid subunit, only six V-ATPase proteolipids would be required to form a hexameric ring-like structure similar to the F(0) domain. Therefore, each V(0) complex will likely be composed of four copies of the Vma3p proteolipid in addition to Vma11p and Vma16p. Structural differences within the membrane-spanning domains of both V(0) and F(0) may account for the unique properties of the ATP-hydrolyzing V-ATPase compared with the ATP-generating F-type ATP synthase.     

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.     

The progenitor of ATP synthases was closely related to the current vacuolar H+-ATPase

The gene encoding the proteolipid of the vacuolar H+-ATPase of yeast was cloned and sequenced. The deduced amino acid sequence of the yeast protein is highly homologous to that of the proteolipid from bovine chromaffin granules. In contrast to other membrane proteins the transmembrane segments of the bovine and yeast proteolipids were much more conserved than the hydrophilic parts. The fourth transmembrane segment, which contains the DCCD-binding site, was conserved 100%. Comparison of vacuolar and eubacterial proteolipids revealed a homology which pointed to a common ancestral gene that underwent gene duplication to form the vacuolar proteolipids. Additional support for this notion came from the amino acid sequences of subunits involved in the catalytic sectors of archaebacterial ATP synthase and plant and yeast vacuolar H+-ATPases, which reveal extensive sequence homology. Slight, but significant, homology between the archaebacterial and eubacterial ATP synthases was observed. These observations might suggest that the progenitor of ATP synthases was closely related to the present vacuolar H+-ATPases.     

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.     

Isolation of phospholamban and a second proteolipid component from canine cardiac sarcoplasmic reticulum

We have isolated two proteolipid fractions from canine cardiac sarcoplasmic reticulum by chromatography on columns of Sepharose CL-6B, and Sephadex LH-60. One, “fraction B”, is phosphorylated by cyclic AMP-dependent protein kinase and was identified as phospholamban, the activator of cardiac sarcoplasmic reticulum. The other, “fraction A”, is not phosphorylated and has an amino acid composition very similar to those of proteolipids we previously isolated from (Na,K)-ATPase.     

Amino acid composition of a new mitochondrially translated proteolipid isolated from yeast mitochondria and from the OSATPase complex

A new mitochondrially translated 10000 Mr proteolipid was isolated from yeast mitochondria. This proteolipid was purified by phosphocellulose chromatography, followed by reverse phase HPLC. This proteolipid was also extracted from the oligomycin sensitive ATPase complex and purified by HPLC. Its amino acid composition is different from the Dicyclohexylcarbodiimide binding protein.     

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.     

Dispersal of proteolipid macroaggregates with trifluoroacetic acid and analysis by sodium dodecyl sulfate polyacrylamide gel electrophoresis

The propensity of highly purified proteolipids to form macroaggregates in aqueous solutions, especially when heated with sodium dodecyl sulfate (SDS), with or without thiol reagents, has made qualitative and quantitative analyses of individual species by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) difficult and unreliable. Comparisons of proteolipid profiles from liver, brain, and cultured human keratinocytes demonstrate that 40-72% of the total proteolipid in SDS-PAGE sample buffer is in the form of macroaggregates. Treatment of proteolipids with neat trifluoroacetic acid (TFA) followed by removal of the TFA and incubation in cold SDS-PAGE sample buffer causes complete dispersal of the macroaggregates and allows recovery of virtually all of the proteolipid applied to gels (increasing yields by as much as 3.6 times, depending on tissue type). Gels of TFA-treated samples display differences not only in the relative amounts of individual species but also in novel species not found in untreated samples. Eluted macroaggregates treated with TFA display the same SDS-PAGE banding profiles as TFA-treated whole proteolipids. Hence, routine TFA treatment of proteolipids prior to SDS-PAGE increases total proteolipid yields, allows reliable quantitation of individual apoprotein species, and reveals species previously obscured by the formation of macroaggregates.     

Isolation and characterization of pepsin-solubilized human basement membrane (type IV) collagen peptides

Native type IV collagen was isolated from human placental tissue by pepsin digestion, fractional salt precipitation, reduction and alkylation, a second pepsin digestion, and chromatography on diethylaminoethyl- and carboxymethyl-cellulose. After denaturation, 10 distinct peptides were isolated from this material by molecular sieve, ion-exchange, and high-performance liquid chromatography. All of the peptides were found to have amino acid compositions characteristic of type IV collagen. Analysis of the eight major peptides by amino-terminal amino acid sequencing and by cyanogen bromide and tryptic peptide mapping has revealed the manner in which they are derived from type IV collagen. Pepsin liberates two large peptides by attacking non-triple-helical regions, one derived from the alpha 1 (IV) chain (F2, Mr 90 000) and one derived from the alpha 2 (IV) chain (F3, Mr 75 000). The alpha 1 (IV)-derived F2 peptide is also represented in the pepsin digest by amino-terminal and carboxy-terminal subfragments [F4c (Mr 41 000) and F4a (Mr 60 000)], as is the alpha 2 (IV)-derived F3 peptide [F5 (Mr 28 000) and F4b (Mr 50 000), respectively]. These findings indicate that the molecular regions from which the larger peptides are derived in themselves contain pepsin-sensitive (non-triple-helical) domains. In addition, several of the peptides examined were found to be present in two slightly different forms, suggesting that closely adjacent pepsin-sensitive sites often exist within the type IV collagen molecules. The methods outlined here provide a reliable means by which identifiable type IV collagen peptides can be isolated.(ABSTRACT TRUNCATED AT 250 WORDS)     

The V-ATPase proteolipid cylinder promotes the lipid-mixing stage of SNARE-dependent fusion of yeast vacuoles

The V-ATPase V(0) sector associates with the peripheral V(1) sector to form a proton pump. V(0) alone has an additional function, facilitating membrane fusion in the endocytic and late exocytic pathways. V(0) contains a hexameric proteolipid cylinder, which might support fusion as proposed in proteinaceous pore models. To test this, we randomly mutagenized proteolipids. We recovered alleles that preserve proton translocation, normal SNARE activation and trans-SNARE pairing but that impair lipid and content mixing. Critical residues were found in all subunits of the proteolipid ring. They concentrate within the bilayer, close to the ring subunit interfaces. The fusion-impairing proteolipid substitutions stabilize the interaction of V(0) with V(1). Deletion of the vacuolar v-SNARE Nyv1 has the same effect, suggesting that both types of mutations similarly alter the conformation of V(0). Also covalent linkage of subunits in the proteolipid cylinder blocks vacuole fusion. We propose that a SNARE-dependent conformational change in V(0) proteolipids might stimulate fusion by creating a hydrophobic crevice that promotes lipid reorientation and formation of a lipidic fusion pore.     

Ligatin: a peripheral membrane protein with covalently bound palmitic acid

The ligatin monomer is a polypeptide of Mr = 10,000 which is soluble in acidified chloroform:methanol, a characteristic similar to that of Folch-Lee proteolipid. The hydrophobicity of ligatin is also reflected by its ability to interpolate into the phosphatidylcholine bilayer as shown by a concentration-dependent change in membrane conductance. However, unlike other proteolipids the amino acid composition of ligatin is not enriched in hydrophobic amino acids (isoleucine, leucine, valine, methionine, phenylalanine, tryptophan). Instead, the hydrophobic character of ligatin could be explained, at least in part, by the covalent association of fatty acids, 1.4-1.7 mol of palmitate/10,000 g of protein, as revealed by gas chromatography mass spectrographic analyses. The post-translational addition of fatty acid may therefore be the means by which ligatin acquires an affinity for membranes.     

Production and Purification of Antibody to Bovine White Matter Proteolipid Apoprotein

Circulating antibody to the bovine white matter proteolipid apoprotein was detected in rabbits 1 month after a single injection of the water-soluble form of the apoprotein. By double immunodiffusion, the antiserum reacted specifically with the delipidated proteolipid apoprotein and the crude proteolipid fraction containing complex lipids; after exposure of the proteolipid apoprotein to sodium dodecyl sulfate (SDS), no reactivity was observed. The antiserum did not react with other myelin components, i.e., basic protein, cerebroside or G_M1 ganglioside, nor was there reactivity with non-neural proteolipids. The anti-apoprotein antibody was purified by affinity chromatography. The antibody-antigen interaction is apparently very hydrophobic, since elution of the antibody from the affinity column requires buffer containing 0.5% Triton X-100-4 M-urea.     

Mass-spectrometric analysis of myelin proteolipids reveals new features of this family of palmitoylated membrane proteins

In this study, we have investigated the structure of the native myelin proteolipid protein (PLP), DM-20 protein and several low molecular mass proteolipids by mass spectrometry. The various proteolipid species were isolated from bovine spinal cord by size-exclusion and ion-exchange chromatography in organic solvents. Matrix-assisted laser desorption ionization-time of flight-mass spectrometry (MALDI-TOF-MS) of PLP and DM-20 revealed molecular masses of 31.6 and 27.2 kDa, respectively, which is consistent with the presence of six and four molecules of thioester-bound fatty acids. Electrospray ionization-MS analysis of the deacylated proteins in organic solvents produced the predicted molecular masses of the apoproteins (29.9 and 26.1 kDa), demonstrating that palmitoylation is the major post-translational modification of PLP, and that the majority of PLP and DM-20 molecules in the CNS are fully acylated. A series of myelin-associated, palmitoylated proteolipids with molecular masses raging between 12 kDa and 18 kDa were also isolated and subjected to amino acid analysis, fatty acid analysis, N- and C-terminal sequencing, tryptic digestion and peptide mapping by MALDI-TOF-MS. The results clearly showed that these polypeptides correspond to the N-terminal region (residues 1-105/112) and C-terminal region (residues 113/131-276) of the major PLP, and they appear to be produced by natural proteolytic cleavage within the 60 amino acid-long cytoplasmic domain. These proteolipids are not postmortem artifacts of PLP and DM-20, and are differentially distributed across the CNS.     

Concanamycin and indolyl pentadieneamide inhibitors of the vacuolar H+-ATPase bind with high affinity to the purified proteolipid subunit of the membrane domain

The macrolide antibiotic concanamycin is a potent and specific inhibitor of the vacuolar H(+)-ATPase (V-ATPase), binding to the V(0) membrane domain of this eukaryotic acid pump. Although binding is known to involve the 16 kDa proteolipid subunit, contributions from other V(0) subunits are possible that could account for the apparently different inhibitor sensitivities of pump isoforms in vertebrate cells. In this study, we used a fluorescence quenching assay to directly examine the roles of V(0) subunits in inhibitor binding. Pyrene-labeled V(0) domains were affinity purified from Saccharomyces vacuolar membranes, and the 16 kDa proteolipid was subsequently extracted into chloroform and methanol and purified by size exclusion chromatography. Fluorescence from the isolated proteins was strongly quenched by nanomolar concentrations of both concanamycin and an indolyl pentadieneamide compound, indicating high-affinity binding of both natural macrolide and synthetic inhibitors. Competition studies showed that these inhibitors bind to overlapping sites on the proteolipid. Significantly, the 16 kDa proteolipid in isolation was able to bind inhibitors as strongly as V(0) did. In contrast, proteolipids carrying mutations that confer resistance to both inhibitors showed no binding. We conclude that the extracted 16 kDa proteolipid retains sufficient fold to form a high-affinity inhibitor binding site for both natural and synthetic V-ATPase inhibitors and that the proteolipid contains the major proportion of the structural determinants for inhibitor binding. The role of membrane domain subunit a in concanamycin binding and therefore in defining the inhibitor binding properties of tissue-specific V-ATPases is critically re-assessed in light of these data.     

Phospholipid composition of myelin and synaptosomal proteolipid from vertebrate brain

1. The phospholipid composition of the main proteolipid complexes of the nervous system was studied in myelin and synaptosomal membranes from brains of representatives of various vertebrate classes. 2. The relative content of acid phospholipids was much higher in proteolipid complexes from myelin and synaptosomal membranes of all vertebrates studied as compared to their content in the initial lipid extract (28-80% and 11-20% of total phospholipid content, respectively). 3. The relative content of acid phospholipids in proteolipid complexes of myelin membranes was much lower in brain of fishes and amphibia as compared to higher vertebrates. 4. The main acid phospholipids of proteolipid complexes was phosphatidylserine, phosphatidic acid being characteristic for myelin proteolipids and diphosphatidyl glycerol for synaptosomal proteolipids of all vertebrates studied.