Analysis of rat serum apolipoproteins by isoelectric focusing. II. Studies on the low molecular weight subunits.

The low molecular weight proteins of rat apo HDL and apo VLDL have been isolated and analyzed by the technique of isoelectric focusing. Sephadex fractions from apo HDL (HS-3) and apo VLDL (VS-3) that contain these proteins reveal three major bands with apparent isoelectric points of pH 4.50, 4.67, and 4.74, as well as three minor bands at pH 4.43, 4.57, and 4.61. In addition, apo HDL has a major band at pI of 4.83. DEAE-Cellulose chromatography was used to prepare purified fractions of these components that were characterized by N-terminal analyses and molecular weight determinantions by SDS gel electrophoresis. The major low molecular weight components of apo HDL were focused on a slab gel and the bands were identified as A-II (pI 4.83), C-II (pI 4.74), C-III-0 (pI 4.67), and C-III-3 (pI 4.50). Neuraminidase treatment of apo HDL, followed by isoelectric focusing, suggested that the other bands, which have not previously been reported, may be additional forms of the C-III protein, differing only in their content of sialic acid.     

Immunological detection of actin in isolated cilia from quail oviduct

Cilia from quail oviduct were isolated with their membrane. The ultrastructural study revealed a good preservation of cilia in the purified fraction. Electrophoresis on SDS-PAGE showed a reproducible pattern of ciliary proteins, the major bands being those of tubulins 57 kDa and dyneins above 250 kDa. Among the minor bands, an immunological study was focused on a 43 kDa molecular mass protein, using monospecific antibodies against actin. Presence of actin was then detected by immunoblotting of isolated cilia fractions as well as of demembranated cilia, suggesting that actin is associated with the axoneme. The presence of actin in the cilia was confirmed by immunofluorescence. The cilia were found stained only on the proximal part, suggesting an heterogeneous distribution of actin within the axonemal length.     

Identification of the milk fat globule membrane proteins. II. Isolation of major proteins from electrophoretic gels and comparison of their amino acid compositions

The fat globule membranes of milk are derived from the apical plasma membrane of the mammary secretory cells. The nature of the membrane proteins, as isolated from cows' milk, has been studied by the use of discontinuous and continuous SDS-gel electrophoresis. Six methods of preparation of milk fat globule membrane suggested by various authors were tested; gel electrophoresis showed that five major bands were present, independent of the method of preparation. The apparent molecular masses of these proteins as determined on SDS-gels (15% T) were 167, 142, 64, 49 and 46 kDa, respectively. The 167 kDa band stained only with periodic acid-Schiff reagent, while the 142 kDa band stained only with Coomassie blue; the last three bands stained with both. Delipidated membranes were extracted stepwise with water, 0.02 M NaCl and 0.6 M NaCl. The 64 kDa band appears to be nearly insoluble, while the bands of 142, 49 and 46 kDa are fractionated by this procedure. The resolution of all of these proteins by electrophoresis was superior to that achieved by molecular sieve chromatography, and so electrophoretic extraction was used to isolate the major proteins. Dansyl chloride derived proteins were used as markers. Amino acid compositions of the recovered proteins were obtained and are compared.     

Purification of an 80,000-dalton protein that is a component of the isolated microvillus cytoskeleton, and its localization in nonmuscle cells

The microvillus cytoskeleton, isolated from chicken intestinal epithelial cell brush borders, is known to contain five major protein components, the 110,000-dalton polypeptide, villin (95,000 daltons), fimbrin (68,000 daltons), actin (43,000 daltons), and calmodulin (17,000 daltons). In this paper we describe our first step in studying the minor components of the isolated core. We have so far identified and purified an 80,000-dalton polypeptide that was present in the isolated structure in approximately 0.7% the molar abundance of actin. Antibodies to the 80,000-dalton component did not react with other microvillus core proteins, and, when used in indirect immunofluorescence microscopy, they stained the microvilli of intestinal epithelial cells fixed in situ. The 80,000-dalton component therefore appears to be a newly-identified, authentic component of intestinal microvilli in vivo and of isolated microvillus cores. Immunological studies demonstrate that the 80,000-dalton component is widely distributed in nonmuscle cells. Indirect immunofluorescence microscopy reveals that it is particularly enriched in surface structures, such as blebs, microvilli, and retraction fibers of cultured cells.     

Purification of riboflavin-binding proteins from bovine plasma and discovery of a pregnancy-specific riboflavin-binding protein.

Riboflavin-binding proteins have been purified from bovine plasma using flavinyl agarose beads. At least three major protein bands, migrating in regions assigned to the beta- and gamma-globulins of plasma, are observed by cellulose acetate electrophoresis. These proteins coelute from a calibrated Sephadex G-100 column in the volume corresponding to a molecular weight of approximately 150,000; a small amount of another riboflavin-binding protein (molecular weight approximately 37,000) is also present. Polyacrylamide gel electrophoresis of the proteins, with detection by autoradiography of those having tightly bound [2-14C]riboflavin, reveals one protein band which is present only in preparations from pregnant cows. This protein has been purified to apparent homogeneity by storing the mixture of riboflavin-binding proteins at 8 degrees C for 3 weeks, which precipitates the other, less stable proteins. Hence, bovine plasma, like that of the laying hen, contains a number of riboflavin-binding proteins, one of which correlates with pregnancy.     

Isolation of bovine aortic endothelial cell plasma membranes: identification of membrane-associated cytoskeletal proteins

The plasma membrane of bovine aortic endothelium was isolated, characterized, and found to contain at least four membrane-associated cytoskeletal proteins. Exposure of the plasma membranes to salt media (up to 1M KCl) resulted in the release of 30% of the total plasma membrane-associated proteins and extraction with 1% Triton X-100, 60%. At least four heavily glycosylated bands (185-, 165-, 150-, and 130,000 mol-wt) were evident. The Triton-insoluble pellet fraction contained several major polypeptides (30-, 43-, 58-, and 240,000 mol-wt), two of which were identified by immunoblotting as cytoplasmic actin (43,000 mol-st) and vimentin (58,000 mol-wt). Strikingly, vimentin and a 240,000 mol-wt polypeptide were routinely present in approximately a mole ratio of 4:1 in more than 60% of the plasma membrane preparations. We also report the presence of a 2.1-like and a 4.1-like protein associated with plasma membranes. The 2.1-like protein demonstrated similar solubilities and apparent molecular weight (210,000) as erythroid protein 2.1. Likewise, the endothelial 4.1-like protein exhibited similar solubilities and apparent molecular weight as erythroid protein 4.1. Immunofluorescence staining of fixed and permeabilized cultures with anti-2.1 antibodies showed a fibrillar pattern. In contrast, cells stained with anti-protein 4.1 were brightly fluorescent, bearing both a diffuse and punctate pattern. This paper presents several novel observations pertaining to the composition of bovine aortic endothelial cell plasma membranes, namely: the presence of two erythroid-like cytoskeletal polypeptides; the presence of vimentin and a 240,000 mol-wt polypeptide in a 4:1 mole ratio in more than 60% of the plasma membrane preparations and the co-elution in a 4:1 mol ratio with a protein perturbant; and the inability to release actin from the plasma membrane preparations, suggesting the association of actin with other molecules in the plasma membrane preparation.     

Selenium-containing peroxidases of germinating barley

Germinating barley grown on an artificial medium was exposed to⁷⁵Se-selenite for 8 d. Then the leaves were homogenized and proteins were separated by means of Sephadex G-150 filtration, followed by DEAE-Sepharose chromatography. Each fraction collected was assayed for total protein, radioactivity, and peroxidase activity. In barley leaves, three protein peaks (peaks no. I, II, and III) with peroxidase activity could be separated by Sephadex G 150 filtration. Each fraction was then further separated on DEAE-Sepharose chromatography. Thus, peaks I and II were resolved by DEAE-Sepharose into one major and two minor peaks of radioactivity. However, only the major peak showed peroxidase activity. Peak III was resolved from the gel filtration on the DEAE-sepharose into one major and four minor peaks of radioactivity. The major and three of the minor radioactivity peaks contained peroxidase activity. The protein fractions were separated by polyacrylamide gel electrophoresis. The molecular weights of separated proteins were estimated by means of molecular markers, and⁷⁵Se radioactivity was evaluated by autoradiography. Thus, gel filtration peak I contained four bands with mol wts of 128, 116, 100, and 89 kDa. Of these, the 89 kDa protein contained selenium. Peak II contained three protein bands, with mol wts 79.4, 59.6, and 59.9. The 59.6 band was a selenoprotein. Peak III contained four protein bands (and some very weak bands). The four major bands had mol wts of 38.6, 31.6, 30.2, and 29.2 kDa. The last mentioned band was a selenoprotein.     

The cytoskeletal system of nucleated erythrocytes. II. presence of a high molecular weight calmodulin-binding protein

Calmodulin was detected in dogfish erythrocyte lysates by means of phosphodiesterase activation. Anucleate dogfish erythrocyte cytoskeletons bound calmodulin. Binding of calmodulin was calcium- dependent, concentration-dependent, and saturable. Cytoskeletons consisted of a marginal band of microtubules containing primarily tubulin, and trans-marginal band material containing actin and spectrinlike proteins. Dogfish erythrocyte ghosts and cytoskeletons were found to contain a calcium-dependent calmodulin-binding protein, CBP, by two independent techniques: (a) 125I-calmodulin binding to cytoskeletal proteins separated by SDS PAGE, and (b) in situ azidocalmodulin binding in whole anucleate ghosts and cytoskeletons. CBP, with an apparent molecular weight of 245,000, co-migrated with the upper band of human and dogfish erythrocyte spectrin. CBP was present in anucleate ghosts devoid of marginal bands and absent from isolated marginal bands. CBP therefore appears to be localized in the trans- marginal band material and not in the marginal band. Similarities between CBP and high molecular weight calmodulin-binding proteins from mammalian species are discussed.     

Characterization of the Blood-Brain Barrier: Protein Composition of the Capillary Endothelial Cell Membrane

Microvessels were isolated from canine cerebral cortex, and the composition of the endothelial cell membrane was investigated. Endothelial cell membranes were separated from the surrounding basement membrane, solubilized, and subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis in 12% gels. Staining with Coomassie Blue revealed a characteristic banding pattern of at least 12 major proteins with apparent molecular weights between 14,000 and 250,000. When proteins from red blood cell ghosts were run simultaneously, no similarities were observed, except for proteins at apparent molecular weights of 43,000 (band 3) and 35,000 (band 4). These two proteins migrated exactly to the positions of the erythrocyte proteins actin and glyceraldehyde 3-phosphate dehydrogenase, respectively. Membrane glycoproteins in gels were also examined by the use of fluorescent lectins. Of the fluorescein isothiocyanate-conjugated (FITC) lectins tested, only FITC-concanavalin A had an affinity for any membrane components. Diazotized [125I]iodosulfanilic acid, a membrane-impermeable reagent, was used to label the internal (lumen) cell surface and the external (antilumen) cell surface. Autoradiography and determination of radioactivity levels in gel slices showed that several proteins were specifically labeled, and that major differences in radioactivity of proteins existed in internal and external labeling experiments. It is concluded that the protein composition of the luminal membrane is different from that of the antiluminal membrane.     

Comparative studies on actins from various sources. Fragments of actins from Ascaris muscle cleaved at cysteinyl residues in comparison with those of other actins.

Pure actins were obtained from various animal muscles: Vertebrata (skeletal, smooth, and cardiac muscles), Prochordata (smooth muscle), Nematoda (obliquely striated muscle), and Mollusca (striated, smooth and obliquely striated muscles). These actins were all identical in apparent molecular weight on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. All actins treated with 2-nitro-5-thiocyanobenzoic acid yielded four major (about 33,000, 26,000, 24,000, and less than 10,000 daltons) and three minor (22,000, 17,000, and 10,000 daltons) bands in addition to intact actin on gel electrophoresis. The results suggest that all actins from various types of muscle have cysteinyl residues at similar positions on the primary structure.     

Outer membrane proteins of Escherichia coli. I. Effect of preparative conditions on the migration of protein in polyacrylamide gels

Outer membrane protein of Escherichia coli prepared for polyacrylamide gel electrophoresis by solubilization of the membrane in an organic solvent followed by dialysis into sodium dodecyl sulfate (SDS) solution or by solublization of the membrane directly in SDS solution followed by dialysis into a SDS-urea solution and brief heating at 100 °C resulted in a simple polypeptide profile on SDS-containing gels. This polypeptide pattern was characterized by a single major protein band migrating with an apparent molecular weight of about 42,000 daltons which accounted for about 70% of the total protein on the gel. However, if the outer membrane protein is dissolved in SDS solution without urea and heated at 70 °C, major bands are observed in three regions of the gel: A broad band or group of bands near the top of the gel with an apparent molecular weight of much greater than 42,000 daltona (peak A), a second band with the same mobility as the 42,000-dalton band in boiled samples (peak B), and a third, faster-migrating band with an apparent molecular weight of less than 42,000 daltons (peak C).Elution of protein from A or C followed by heating at 100 °C converts this protein to a form migrating with peak B. If the outer-membrane protein is dissolved in SDS solution at 37 °C with no further heating and applied to gels, peak B dissappears completely and A and C increase. These can be partially converted to peak B by urea treatment. Protein from peaks A and C was isolated by chromatography on Sephadex in the presence of SDS, and the intrinsic viscosity of this protein was measured before and after boiling. The intrinsic viscosity of protein from peak A was 35 cc/g both before and after boiling, while the intrinsic viscosity of protein from peak C was 28 cc/g before boiling and 35 cc/g after boiling. These results are best explained by assuming that the protein in peak A represents aggregates of a 42,000-dalton species which are dissociated by boiling or solvent treatment and that the protein in peak C represents a monomeric form of the 42,000-dalton protein which is not fully reacted with SDS and which is converted to the “rigid rod” conformation characteristic of protein-SDS complexes only upon boiling or solvent treatment.     

Electrophoretic properties of human IgG and its subclasses on sodium dodecyl-sulfate-polyacrylamide gel electrophoresis and immunoblots

Unreduced human immunoglobulin G (IgG) which was not aggregated showed anomalous apparent molecular masses on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). It migrated mainly as three distinct bands with apparent molecular masses from 190 to 240 kDa on gels containing 8% polyacrylamide, when denatured at 37 degrees C. Generation of this banding pattern has two reasons: (a) the pattern is a superposition of bands originating from the four IgG subclasses that differ in molecular masses and structures; and (b) the complexity of the band pattern is further increased, because IgG myeloma proteins of the IgG1 and IgG2 subclass migrated as doublets, while IgG3 and IgG4 formed primarily one band with slightly different apparent molecular masses. These properties were independent of the type of light chain in all myeloma proteins studied. Generation of doublets suggests heterogeneities of monoclonal proteins. The two separable protein populations from IgG1 differ in their susceptibility to reduction. Reduction at 37 degrees C cleaved the larger into heavy and light chain, while it generated heavy chain dimer and light chain from the smaller species. Hence, it is possible that monoclonal IgG1 are comprised of at least two subpopulations of molecules with different S-S bonds. Doublet formation of IgG2 remains unexplained, since both species were equally sensitive to reduction. Knowledge on the anomalous properties of IgG on SDS-PAGE is a prerequisite to run immunoblots from unreduced cellular antigens without confounding cell-associated IgG with cellular antigens.     

Products of mitochondrial protein synthesis in Tetrahymena.

The products of mitochondrial protein synthesis have been investigated in Tetrahymena after labelling with [35S]methionine in the presence of cycloheximide. The labelled proteins were analyzed by sodium dodecyl sulfate slab polyacrylamide gel electrophoresis. We have identified 13 electrophoretically discrete bands as well as 4 other bands with a more variable occurrence. These proteins ranged in apparent molecular weight from 8100 to 57,500. The cycloheximide-resistant incorporation could be blocked with chloramphenicol. The mitochondrial proteins appeared to be in a disaggregated state and were stable to agents such as trichloroacetic acid (hot or cold) and chloroform-methanol. The pattern of proteins was similar following labelling times ranging from 30 min to 3 h.     

An ordered membrane-cytoskeleton network in squid photoreceptor microvilli

To study the organization of microvilli in the photoreceptor cells of an invertebrate. X-ray diffraction patterns were obtained from aldehyde-fixed squid retinas to a resolution of (40 Å)^?1 and correlated with results from electron microscopy and sodium dodecyl sulphate/polyacrylamide gel electrophoresis. Squid photoreceptor microvilli are packed in extensive hexagonal arrays; in addition each microvillus has a hexagonal substructure. Image reconstruction from thin section electron micrographs shows that the microvilli are linked together with specialized membrane junctions at their neighbour contacts, and phosphotungstic acid-stained sections show a central cytoskeleton connected to the membrane by side-arms.The X-ray patterns also reveal two axial periodicities in the microvilli. A weak and diffuse (50 Å)^?1 band is tentatively assigned to rhodopsin molecules ordered in the plane of the membrane. In addition, an arc at (85 Å)^?1 is attributed to a cytoplasmic or extracellular structure.Sodium dodecyl sulphate/polyacrylamide gel electrophoresis of the isolated microvilli shows that the major component, rhodopsin, comprises about 50% of the total protein. There are two major detergent-insoluble polypeptides with molecular weights of 145,000 and 42,000. The 42,000 component is identified as actin by papain digestion fragment mapping.Cephalopod photoreceptors are highly sensitive to the polarization vector of linearly polarized light. In consequence, the linear rhodopsin chromophores must be aligned relative to the microvillar axes. The membrane junctions and cytoskeleton described here may provide a mechanism for maintaining this rhodopsin alignment.     

F-actin binding and bundling properties of fimbrin, a major cytoskeletal protein of microvillus core filaments

Fimbrin, previously recognized as a major structural protein of the microfilament core bundles of intestinal epithelial cell microvilli, has been purified to homogeneity and characterized. It is a nearly globular monomeric protein of apparent molecular weight 68,000 and has a single calcium binding site (Kd = 9 microM), for which magnesium ions compete. Fimbrin binds to F-actin and this interaction is characterized in detail. Under our optimal binding of conditions, fimbrin induces tightly packed F-actin bundles, similar to the bundles induced by villin, another microvillus structural protein. The formation of mixed fimbrin-villin-actin bundles provides a further step toward the full in vitro reconstitution of microvillus core filaments from its purified individual components. The reconstituted fimbrin-villin-actin bundles do not display the side arms characteristic of isolated microvillus cores. These results are discussed in terms of our current understanding of the organization of the microvillus core filaments and indicate that this structure contains two bundling proteins, villin and fimbrin. The results complement previous studies and now provide a minimal biochemical characterization of all four major actin-associated structural proteins so far identified in core filaments. Three of these (villin, fimbrin, and calmodulin) are calcium-binding proteins, emphasizing the concept of calcium control over submembranous microfilament organization.     

Two-dimensional isoelectric focussing/sodium dodecyl sulphate polyacrylamide gel electrophoretic mapping and some molecular characteristics of the proteins of the adult guinea-pig small intestinal microvillus membrane

The adult guinea-pig small intestinal microvillus membrane was purified approximately 25-fold by both cation-precipitation and differential centrifugation methods. Comparison by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) revealed no substantial differences in polypeptide composition between the two preparations. One-dimensional SDS-PAGE and two-dimensional isoelectric focussing (IEF)/SDS-PAGE, together with Coomassie-blue, silver and lectin-staining, showed three major high molecular weight polypeptides, Mr 108 000, 116 000 and 127 000, as well as a 47 kDa protein (actin), as major constituents of the membrane. The proteins of Mr 108 000 and 116 000 were strongly concanavalin A reactive. A detailed two-dimensional IEF/SDS-PAGE map of the membrane was constructed. Sodium carbonate treatment showed the two concanavalin A-reactive glycoproteins, Mr 108 000 and 116 000, comprising the sucrase-isomaltase complex, to be loosely-associated 'extrinsic' microvillus membrane proteins. Two proteins, Mr 127 000 and 135 000, were tightly-associated 'intrinsic' microvillus proteins. Despite regional differences in specific activity of some small intestinal microvillar enzymes, most noticeably enterokinase (EC 3.4.21.9) and dipeptidyl peptidase IV (EC 3.4.14.x), no substantial regional differences were seen in microvillus membrane polypeptide composition. In contrast, a substantial increase in the major high molecular weight proteins of Mr 108 000 and 116 000 accompanied a 10-fold rise in sucrase-isomaltase activity, and loss of a major protein of Mr 131 000 accompanied the complete loss of lactase activity from the membrane during postnatal development.     

α-Hydroxylation of Fatty Acids in Brain: Characterization of Heat-Labile Factor

Abstract: The particulate fraction, heat-labile factor, heat-stable factor, and NADPH are essential for the conversion of lignoceric acid (tetracosanoic acid) to cerebronic acid (α-hydroxylignoceric acid). The heat-labile factor was extracted from calf cerebellum and partially purified in four steps: ammonium sulfate precipitation, hydroxylapatite chromatography, isoelectric focusing, and NAD-Agarose affinity chromatography. The specific activity of the heat-labile factor was increased 105-fold during the last three steps, with a yield of 37% of the activity. One major and several minor bands were visible when the preparation was examined by SDS-polyacrylamide gel electrophoresis with Coomassie blue staining. The major band corresponded to a protein of molecular weight 32,700, and the minor bands corresponded to proteins of molecular weights 62,000 and 67,000. The activity was lost when the heat-labile factor was incubated with 1 mM- N -ethylmaleimide. This inhibition was prevented by preincubating the heat-labile factor with 1 mM-NADH. These observations indicate that the heat-labile factor contains a sulfhydryl group which is essential for activity, and that it is located at or near the binding site for the pyridine nucleotide.     

Proteomic analysis of the photosystem I light-harvesting antenna in tomato (Lycopersicon esculentum)

Until now, more genes of the light-harvesting antenna of higher-plant photosystem I (PSI) than proteins have been described. To improve our understanding of the composition of light-harvesting complex I (LHCI) of tomato (Lycopersicon esculentum), we combined one- and two-dimensional (1-D and 2-D, respectively) gel electrophoresis with immunoblotting and tandem mass spectrometry (MS/MS). Separation of PSI with high-resolution 1-D gels allowed separation of five bands attributed to proteins of LHCI. Immunoblotting with monospecific antibodies and MS/MS analysis enabled the correct assignment of the four prominent bands to light-harvesting proteins Lhca1-4. The fifth band was recognized by only the Lhca1 antibody. Immunodetection as well as mass spectrometric analysis revealed that these protein bands contain not only the eponymous protein but also other Lhca proteins, indicating a heterogeneous protein composition of Lhca bands. Additionally, highly sensitive MS/MS allowed detection of a second Lhca4 isoform and of Lhca5. These proteins had not been described before on the protein level in higher plants. Two-dimensional gel electrophoresis revealed an even more diverse composition of individual Lhca proteins than was apparent from 1-D gels. For each of the four prominent Lhca proteins, four to five isoforms with different isoelectric points could be identified. In the case of Lhca1, Lhca4, and Lhca3, additional isoforms with slightly differing molecular masses were identified. Thus, we were able to detect four to ten isoforms of each individual Lhca protein in PSI. Reasons for the origin of Lhca heterogeneity are discussed. The observed variety of Lhca proteins and their isoforms is of particular interest in the context of the recently published crystal structure of photosystem I from pea, which showed the presence of only four Lhca proteins per photosystem I. These findings indicate that several populations of photosystem I that differ in their Lhca composition may exist.     

Monomorphism of formaldehyde dehydrogenase in different populations.

Blood samples from Koreans, Chinese, Hungarians and Germans were analyzed by isoelectric focusing on polyacrylamide gels and stained for formaldehyde dehydrogenase (FDH) activity. Three activity bands (one major and two minor) were observed in all blood samples studied. No distinct intra- and interpopulation differences were observed in the intensity of the three bands. Human autopsy liver samples also showed a similar three-activity band profile. An additional cathodic band was detected in a single case of autopsy liver extract from a Chinese subject. An apparent identity of FDH with the class III alcohol dehydrogenase was confirmed.     

External membrane proteins of rabbit lung macrophages

Externally disposed polypeptides of rabbit lung macrophages were labeled using chloramine-T. Optimal conditions, chosen as those which maximized the incorporation of ¹²⁵I without inhibiting phagocytosis of C3-opsonized lipopolysaccharide oil particles, were found to be dependent on concentrations of carrier iodide, chloramine-T, and the cells themselves. These macrophages inhibit the labeling reaction owing to an apparent abundance of surface sulfhydryl groups which preferentially become oxidized before labeling can occur. Analyzed on polyacrylamide gel electrophoresis, whole macrophages displayed major bands of radioactivity whose apparent molecular weights were: 317,000, 245,000, 186,000, 143,000, and 104,000 daltons. All bands were completely removed by trypsin treatment except a large band of 10,000–15,000 daltons which was removed by lipid solvent extraction and diminished by β-mercaptoethanol treatment of whole labeled cells. No label comigrated with actin at 42,000 daltons or with either of the two major proteins found in the lung lavage fluid. Very similar bands were found in podosomes, peripheral hyaline blebs of plasma membrane, prepared from whole labeled cells.