Purification and differential expression of enolase from maize

Enolase was purified from maze ( Zea mays L. inbred B73)seeds to a 55 and 56 kDa protein doublet based upon sodium dodecyl sulfate – polyacrylamide gel electrophoresis. Purification included ammonium sulfate-precipitation, gel filtration, Mono Q, and Phenyl Superose chromatography. Two-dimensional gels further resolved the 56 kDa protein into three isoselectric forms. Polyclonal antibodies raised against the purified proteins, were found to bind specifically to both the 55 and 56 kDa proteins during purification. Theses antibodies did not recognized a 56 kDa protein when the strain was complemented with maize enolase (pZM245). Maize enolase antibodies recognized a extracts indicated that the 55 kDa form of enolase was more abundant in roots. Enolase protein levels remained unchanged in maize roots after 24 h of anaerobiosis, even though the specific activity of enolase increased to twice its initial levels. A plastid form of enolase in maize could not be found as either enolase activity or protein (with immunoblots).     

Isolation and characterization of a glycosylated form of beta nerve growth factor in mouse submandibular glands

In the course of characterizing polyclonal antibodies to beta nerve growth factor (NGF) on immunoblot replicas of sodium dodecyl sulfate gels, we observed a protein (designated C protein) migrating as two bands (14.0 and 13.5 kDa) that copurifies with NGF and reacts strongly with its antibodies. The molecule is detectable in the 7 S, beta, and 2.5 S forms of NGF, accounting in the latter two for approximately 2% of total protein. The C protein can be separated from the A and B chains of beta-NGF on acetic acid-urea gels and on two-dimensional gels but not by isoelectric focusing alone. The molecule has been isolated to near purity on reversed-phase high performance liquid chromatography. Amino acid analyses and sequencing through 49 Edman cycles revealed that the protein preparation is composed of the intact and desoctapeptide (des-(1-8] polypeptide chains and suggested a glycosylation site at Asn-45. Following digestion with N-glycanase, the chains migrated on sodium dodecyl sulfate gels identically with the A and B chains of beta-NGF. Although this was accompanied by some degree of proteolytic degradation, the presence of glucosamine (approximately 4 mol/mol of single chain) was confirmed in acid hydrolysates on the amino acid analyzer. No amino sugars were detected in hydrolysates of the A chain nor was galactosamine recovered in either preparation. Glycosylated NGF promotes neuronal growth and survival in a manner indistinguishable from native 2.5 S NGF when tested in the chick sensory ganglion assay and with rat postnatal sympathetic neurons in a dissociated culture cell survival assay or in a compartmentalized culture growth assay. These studies reveal that NGF can be modified by glycosylation in a manner that does not reduce its biological activity.     

Monoclonal antibody characterization of progesterone receptors, estrogen receptors and the stress-responsive protein of 27 kDa (SRP27) in human uterine leiomyoma

Uterine leiomyoma occurs in one of every four or five women during their reproductive life. Its origin is unknown but it is accepted that estrogens play a significant role in its development. In order to learn more about the estrogen dependency of leiomyoma, the biochemical and immunological properties of two markers of estrogen response in target cells (the progesterone receptor (PR) and the stress-responsive protein of 27 kDa (SRP27)) were studied in leiomyoma. The ER (estrogen receptor) and PR content were determined by conventional DCC exchange assays. Specific anti-ER, anti-PR and anti-SRP27 monoclonal antibodies were used in immunoblots and immunohistochemical (IHC) studies. The binding properties of PR from cytosol of leiomyoma showed a Kd of 0.8-1.3 nM, which is in the range described for other human tissues. 80% of all studied leiomyoma contained PR, in a range of 805-2000 fmol/mg protein. The Kd for leiomyoma ER was 0.1-0.9 nM, and 84% of the samples were positive for ER. The PR of leiomyoma has the two A and B forms of 120 and 94 kDa, as shown in the immunoblot using the AB52 anti-PR monoclonal antibody. The IHC study revealed that the PR is concentrated in the cell nuclei, in the form of perinuclear bodies, with a homogeneous staining pattern from cell to cell. The leiomyoma fibres contain SRP27 in a higher concentration than the healthy myometrium. The leiomyoma SRP27 shows a typical doublet of 24 kDa and 27 kDa in immunoblot, the same as in MCF-7 cells. The IHC study revealed a high degree of organization of SRP27 in leiomyoma cells, suggesting that this protein may be part of the cytoskeleton. The results obtained show that human leiomyomas contain ER, PR and RSP27 with similar immunological and biochemical properties to those of other human tissues, including the MCF-7 breast cancer cell line.     

Immunologic analysis of human breast cancer progesterone receptors. 1. Immunoaffinity purification of transformed receptors and production of monoclonal antibodies

A monoclonal antibody (MAb), designated PR-6, produced against chick oviduct progesterone receptors [Sullivan, W. P., Beito, T. G., Proper, J., Krco, C. J., & Toft, D. O. (1986) Endocrinology (Baltimore) 119, 1549-1557] cross-reacts with the Mr 120,000 human B receptors. An immunomatrix prepared with PR-6 was used to purify progesterone receptors (PR) from T47D human breast cancer cells. Single-step immunoaffinity chromatography results in enrichment of B receptors (identified by immunoblot with PR-6 and by photoaffinity labeling with [3H]promegestone) to a specific activity of 1915 pmol/mg of protein (or 23% purity) and with 27% yield. Purity and yields as judged by gel electrophoresis and densitometric scanning of the B protein were approximately 1.7-fold higher due to partial loss in hormone binding activity at the elution step. A second purification step by diethylaminoethyl chromatography gives further enrichment to 3720 pmol/mg of protein (or 44% purity) to yield essentially two proteins, 120-kilodalton (kDa) B receptors and a 76-kDa non-steroid binding protein, each in approximately equivalent amounts. B receptors purified under these conditions are transformed and biologically active. They were maintained as undegraded 120-kDa doublets and retained both hormone and DNA binding activities. Isolated B receptors were free of the 90-kDa non-steroid binding protein observed to be associated with 8S untransformed receptors in other systems and were free also of the non-hormone binding 105-108-kDa B antigen described previously to copurify with chick PR. These purified B receptors were used as immunogen for production of four monoclonal antibodies against human PR. Three of the MAbs, designated as B-30 (IgG1), B-64 (IgG1), and B-11 (IgM), are specific for B receptors. The fourth MAb, A/B-52 (IgG1), reacts with both A and B receptors. The IgG MAbs are monospecific for human PR since they recognize and absorb native receptor-hormone complexes, displace the sedimentation of 4S receptors on salt containing sucrose gradients, and, by immunoblot assay of crude T47D cytosol, react only with receptor polypeptides. Although mice were injected with B receptors only, production of A/B-52 which recognized both A and B receptors provides evidence that these two proteins share regions of structural homology. These new MAbs are valuable reagents for further studies of human receptor structure and function and for clinical immunodetection of PR in breast tumors.     

Nuclear origin of progesterone receptor of the chick oviduct cytosol. An immunoelectron microscopic study

Progesterone receptor (PR) was studied immunoelectron microscopically from fixed vibratome sections of the chick oviduct and biochemically from the fractionated oviduct homogenate. Immunoelectron microscopically both unoccupied and occupied PR were localized inside the nuclei. Only a few cells showed PR immunoreactivity in the endoplasmic reticulum which probably represents newly synthetized PR. Biochemically unoccupied PR was in the cytosol fraction. The cytosol and nuclear PR as well as the non-transformed 8S-form and the transformed 4S-forms of cytosol PR were recognized by the anti-PR antibody (IgG-RB). The lack of PR immunostaining in the cytoplasm is therefore not due to lack of recognition by IgG-RB. We propose that in the chick oviduct progesterone receptor is a nuclear protein but synthetized in the endoplasmic reticulum.     

Further characterization of a novel phospholipase B (phospholipase A2--lysophospholipase) from intestinal brush-border membranes.

The intestinal brush-border membranes of rats and guinea pigs possess a high molecular weight, calcium-independent phospholipase B (phospholipase A2 - lysophospholipase activities) with the characteristics of a digestive ectoenzyme. A combination of subcellular fractionation, Triton X-114 phase partitioning, chromatofocusing, and preparative sodium dodecyl sulphate - polyacrylamide gel electrophoresis was used to purify a full-length, although denatured, form of this enzyme from the rat. Renaturation of the gel-purified fraction confirmed that both enzyme activities were associated with this protein. Gel slices containing the purified phospholipase B were used to generate a polyclonal antiserum in rabbits that could be used for immunoblotting. The relative mobility of the phospholipase B during electrophoresis in sodium dodecyl sulphate gels was dramatically affected by the percentage of acrylamide and the presence or absence of reducing agents in the gels. This was true for both the purified protein visualized by silver-staining and following electrophoresis of the total proteins of the membrane, with the phospholipase visualized by immunoblotting. Estimates for the molecular mass of the enzyme varied from 130 to 170 kDa in 7.5% gels and from 120 to 130 kDa in 5-10% gradient gels (with a best estimate of 120 kDa). Upon solubilization from the brush-border membrane by papain digestion, the major immunoreactive band migrated with an apparent mass of 80 kDa in both the 7.5% and 5-10% gradient gels. A major cross-reactive band was detected at 97 kDa following immunoblotting of the papain-solubilized proteins from guinea pig brush-border membranes, in agreement with the size of the purified fragment reported in the literature and at 140 kDa following immunoblotting of the intact proteins. Similar immunoblotting produced reaction with a 135-kDa protein from the rabbit brush-border membrane, as well as 95-kDa protein following papain solubilization. These results suggest that while there are species-specific apparent molecular weights, the intestinal brush-border membrane phospholipase B is conserved among species.     

Nuclear origin of progesterone receptor of the chick oviduct cytosol

Summary Progesterone receptor (PR) was studied immunoelectron microscopically from fixed vibratome sections of the chick oviduct and biochemically from the fractionated oviduct homogenate. Immunoelectron microscopically both unoccupied and occupied PR were localized inside the nuclei. Only a few cells showed PR immunoreactivity in the endoplasmic reticulum which probably represents newly synthetized PR. Biochemically unoccupied PR was in the cytosol fraction. The cytosol and nuclear PR as well as the non-transformed 8S-form and the transformed 4S-forms of cytosol PR were recognized by the anti-PR antibody (IgG-RB). The lack of PR immunostaining in the cytoplasm is therefore not due to lack of recognition by IgG-RB. We propose that in the chick oviduct progesterone receptor is a nuclear protein but synthetized in the endoplasmic reticulum.     

Isolation and Characterization of Goldfish cdc2, a Catalytic Component of Maturation-Promoting Factor

We have isolated a cdc2 cDNA from a library constructed from immature goldfish oocytes. The isolated clone has a PSTAVR sequence, instead of the PSTAIR sequence common to cdc2 in other species. Its product was characterized by monoclonal antibodies against its C-terminal amino acid sequence. The antibodies recognized an anti-PSTAIR-reactive 35 kDa protein in immature oocyte extracts, which was not recognized by anti-goldfish cdk2 antibody. In addition to the 35 kDa cdc2, mature oocytes contained a 34 kDa cdc2, which was a component of MPF purified from carp eggs. Upon gel filtration column, the 35 kDa cdc2 migrated at monomeric position, while the 34 kDa cdc2 migrated at around 100 kDa, where cyclin B also comigrated. These results strongly suggest that the 35 kDa protein is monomeric inactive cdc2, while the 34 kDa protein is cyclin B-bound active cdc2. The finding that the 35 kDa inactive cdc2 does not form a complex with any other proteins in immature oocytes is in contrast to the situation in Xenopus and starfish, in which cdc2-cyclin B complex exists already as pre-MPF in immature oocytes.     

Assembly of colicin A in the outer membrane of producing Escherichia coli cells requires both phospholipase A and one porin,but phospholipase A is sufficient for secretion

Three oligomeric forms of colicin A with apparent molecular masses of about 95 to 98 kDa were detected on sodium dodecyl sulfate (SDS)-polyacrylamide gels loaded with unheated samples from colicin A-producing cells of Escherichia coli. These heat-labile forms, called colicins Au, were visualized both on immunoblots probed with monoclonal antibodies against colicin A and by radiolabeling. Cell fractionation studies show that these forms of colicin A were localized in the outer membrane whether or not the producing cells contained the cal gene, which encodes the colicin A lysis protein responsible for colicin A release in the medium. Pulse-chase experiments indicated that their assembly into the outer membrane, as measured by their heat modifiable migration in SDS gels, was an efficient process. Colicins Au were produced in various null mutant strains, each devoid of one major outer membrane protein, except in a mutant devoid of both OmpC and OmpF porins. In cells devoid of outer membrane phospholipase A (OMPLA), colicin A was not expressed. Colicins Au were detected on immunoblots of induced cells probed with either polyclonal antibodies to OmpF or monoclonal antibodies to OMPLA, indicating that they were associated with both OmpF and OMPLA. Similar heat-labile forms were obtained with various colicin A derivatives, demonstrating that the C-terminal domain of colicin A, but not the hydrophobic hairpin present in this domain, was involved in their formation.     

Development and partial characterization of monoclonal antibodies to the hemolymph juvenile hormone binding protein of Manduca sexta

Murine monoclonal antibodies were made against the hemolymph juvenile hormone binding protein (JHBP) of Manduca sexta. Binding studies in conjunction with Western blot analysis of native and sodium dodecyl sulfate gels confirmed that antibodies from 10 hybridoma lines interacted with the juvenile hormone binding protein. The pattern of cross-reactivity among the hybridoma lines suggests that different epitopes are recognized. The cross-reactivity pattern for monoclonal antibody 9 suggested a common epitope in three different hemolymph proteins: JHBP, insecticyanin and a 40–45 kDa protein. Western blot analysis of a two-dimensional gel using monoclonal antibody 6 revealed interaction with JHBP and with several proteins that may be precursors or degradation products of the binding protein. An enzyme-immunoassay was developed that detects JHBP in the hemolymph at nanogram levels.     

Different effects of sphingosine, R59022 and anionic amphiphiles on two diacylglycerol kinase isozymes purified from porcine thymus cytosol

Porcine thymus cytosol contains two immunologically distinct forms of diacylglycerol kinase (DGK) [Yamada, K. and Kanoh, H. (1988) Biochem. J. 255, 601-608]. These 2 DGK species, having apparent molecular masses of 80 and 150 kDa, were purified from the thymus cytosol. Upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the 150-kDa DGK gave 2 polypeptide bands of 50 and 75 kDa, whereas the 80-kDa DGK yielded a single protein band. The 80-kDa DGK was markedly activated by 10-20 microM sphingosine as well as by the known anionic activators such as phosphatidylserine and deoxycholate. In contrast, the 150-kDa DGK was fully active in the absence of the anionic activators and was strongly inhibited by sphingosine (IC50, 20 microM). The putative DGK inhibitor R59022 inhibited the 80-kDa DGK (IC50, 10 microM), but had little effect on the 150-kDa form. It is therefore clear that in the thymus cytosol there are at least 2 DGK isozymes operating under different control mechanisms.     

Characterization of soluble enzyme II complexes of the Escherichia coli phosphotransferase system

Plasmid-encoded His-tagged glucose permease of Escherichia coli, the enzyme IIBCGlc (IIGlc), exists in two physical forms, a membrane-integrated oligomeric form and a soluble monomeric form, which separate from each other on a gel filtration column (peaks 1 and 2, respectively). Western blot analyses using anti-His tag monoclonal antibodies revealed that although IIGlc from the two fractions migrated similarly in sodium dodecyl sulfate gels, the two fractions migrated differently on native gels both before and after Triton X-100 treatment. Peak 1 IIGlc migrated much more slowly than peak 2 IIGlc. Both preparations exhibited both phosphoenolpyruvate-dependent sugar phosphorylation activity and sugar phosphate-dependent sugar transphosphorylation activity. The kinetics of the transphosphorylation reaction catalyzed by the two IIGlc fractions were different: peak 1 activity was subject to substrate inhibition, while peak 2 activity was not. Moreover, the pH optima for the phosphoenolpyruvate-dependent activities differed for the two fractions. The results provide direct evidence that the two forms of IIGlc differ with respect to their physical states and their catalytic activities. These general conclusions appear to be applicable to the His-tagged mannose permease of E. coli. Thus, both phosphoenolpyruvate-dependent phosphotransferase system enzymes exist in soluble and membrane-integrated forms that exhibit dissimilar physical and kinetic properties.     

Myosin heavy-chain isoforms in human smooth muscle

The myosin heavy-chain composition of human smooth muscle has been investigated by sodium dodecyl sulfate/polyacrylamide gel electrophoresis, enzyme immunoassay, and enzyme-immunoblotting procedures. A polyclonal and a monoclonal antibody specific for smooth muscle myosin heavy chains were used in this study. The two antibodies were unreactive with sarcomeric myosin heavy chains and with platelet myosin heavy chain on enzyme immunoassay and immunoblots, and stained smooth muscle cells but not non-muscle cells in cryosections and cultures processed for indirect immunofluorescence. Two myosin heavy-chain isoforms, designated MHC-1 and MHC-2 (205 kDa and 200 kDa, respectively) were reactive with both antibodies on immunoblots of pyrophosphate extracts from different smooth muscles (arteries, veins, intestinal wall, myometrium) electrophoresed in 4% polyacrylamide gels. In the pulmonary artery, a third myosin heavy-chain isoform (MHC-3, 190 kDa) electrophoretically and antigenically distinguishable from human platelet myosin heavy chain, was specifically recognized by the monoclonal antibody. Analysis of muscle samples, directly solubilized in a sodium dodecyl sulfate solution, and degradation experiments performed on pyrophosphate extracts ruled out the possibility that MHC-3 is a proteolytic artefact. Polypeptides of identical electrophoretic mobility were also present in the other smooth muscle preparations, but were unreactive with this antibody. The presence of three myosin heavy-chain isoforms in the pulmonary artery may be related to the unique physiological properties displayed by the smooth muscle of this artery.     

Preparation and characterization of monoclonal antibodies against native membrane-bound penicillin-binding protein 1B of Escherichia coli.

We prepared monoclonal antibodies against penicillin-binding protein 1B (PBP 1B) of Escherichia coli to study the membrane topology, spatial organization, and enzyme activities of this protein. The majority of the antibodies derived with PBP 1B as the immunogen reacted against the carboxy terminus. To obtain monoclonal antibodies recognizing other epitopes, we used PBP 1B lacking the immunodominant carboxy-terminal 65 amino acids as the immunogen. Eighteen monoclonal antibodies directed against membrane-bound PBP 1B were isolated and characterized. The epitopes recognized by those monoclonal antibodies were located with various truncated forms of PBP 1B. We could distinguish four different epitope areas located on different parts of the molecule. Interestingly, we could not isolate monoclonal antibodies against the amino terminus, although they were specifically selected for. This is attributed to its predicted extreme hydrophilicity and flexibility, which could make the amino terminus very sensitive to proteolytic degradation. All antibodies reacted against native PBP 1B in a dot-blot immunobinding assay. One monoclonal antibody also recognized PBP 1B in a completely sodium dodecyl sulfate-denatured form. This suggests that all the other monoclonal antibodies recognize conformational epitopes. These properties make the monoclonal antibodies suitable tools for further studies.     

Characterization and localization of estrogen and progesterone receptors of human fallopian tube

The cellular distribution of estrogen and progesterone receptors (ER and PR) in the human fallopian tube was investigated by immunohistochemical localization with specific monoclonal antibodies. Nuclear immunostaining was observed. Intense PR immunostaining was seen in tissues obtained at mid cycle and luteal stages of the normal menstrual cycle. On the other hand, enhanced staining for ER was seen in early follicular phase and mid cycle. Menopausal tissues showed negligible staining for both ER and PR. The ER and PR were characterized for their molecular size, anatomical distribution and levels during the menstrual cycle and in menopause. ER protein was present throughout the cycle and also during menopause. Western blot analysis revealed two forms of ER approximately 66 kDa and a truncated from approximately 49 kDa in hFT. Presence of A [approximately 90 kDa] and B [approximately 120 kDa] isoforms of human PR was detected. Follicular and early luteal tissue possessed relatively high concentration of immunoreactive PR whereas it was almost undetectable in menopausal tissues. These results suggests that ER and PR are regulated by the changing ovarian steroid hormones.     

Purification and characterization of mammalian DNA methyltransferases by use of monoclonal antibodies

Previously, we have derived murine hybridomas producing monoclonal antibodies against DNA methyltransferase from human placenta (Kaul, S., Pfeifer, G. P., and Drahovsky, D. (1984) Eur. J. Cell Biol. 34, 330-335). One of these monoclonal antibodies, M2B10, which undergoes immune complex formation also with DNA methyltransferase from P815 mouse mastocytoma cells, was used for the immunoaffinity purification of mouse and human DNA methyltransferases. In sodium dodecyl sulfate-polyacrylamide gels and in immunoblotting studies, the immunoaffinity-purified mouse DNA methyltransferase revealed 5-6 polypeptides of molecular masses 150-190 kDa. The immunoaffinity-purified human placental DNA methyltransferase was characterized by a polypeptide of 158 kDa, presumably representing the native enzyme molecule and by polypeptides of 105-108 kDa and 50-68 kDa, probably generated by a limited proteolysis of the native enzyme molecule. The immunoaffinity-purified DNA methyltransferases preferred hemimethylated DNA substrates over unmethylated ones, and among all unmethylated substrates tested, poly[(dG-dC).(dG-dC)] had the highest methyl-accepting activity. DNA polymers of at least 90 base pairs in length were required for the binding reaction of the immunoaffinity-purified human DNA methyltransferase, and this initial binding was apparently independent of the nucleotide composition of the DNA polymer and of the presence of S-adenosyl-L-methionine.     

Characterization of an antigen whose cell surface expression is induced by infection with Epstein-Barr virus

Metabolically labeled monoclonal antibodies were used to measure the number of determinants per cell for an Epstein-Barr virus (EBV) cell surface antigen (EBVCS) (C. Kintner and B. Sugden, Nature [London] 294:458-460, 1981) which is expressed on the surface of EBV-transformed cells. The antigenic determinants were present approximately 5 X 10(5) times per in vitro-transformed cell. Immunoprecipitation followed by electrophoresis in polyacrylamide gels containing sodium dodecyl sulfate indicated that four independent monoclonal antibodies to EBVCS recognized a protein of 47,000 daltons. The identification of EBVCS isolated from EBV-transformed cells grown in tunicamycin demonstrated that the antigen when isolated from cells grown without this drug was glycosylated. Finally, preclearing experiments with monoclonal antibodies to EBVCS or to HLA (class I products of the human major histocompatibility locus) and to beta 2-microglobulin indicated that EBVCS is not a major histocompatibility type 1 antigen.     

ZK98299, a novel antiprogesterone that does not interact with chicken oviduct progesterone receptor

Steroid antagonists, at receptor level, are valuable tools for elucidating the mechanism of steroid hormone action. We have examined and compared the interaction of avian and mammalian progesterone receptors with progestins; progesterone and R5020, and a newly synthesized antiprogesterone ZK98299. In the chicken oviduct cytosol, [3H]R5020 binding to macromolecule(s) could be eliminated with prior incubation of cytosol with excess radioinert steroids progesterone or R5020 but not ZK98299. Alternatively, [3H]ZK98299 binding in the chicken oviduct was not abolished in the presence of excess progesterone, R5020, or ZK98299. In the calf uterine cytosol, [3H]R5020 or [3H]ZK98299 binding was competeable with progesterone, R5020 and ZK98299 but not estradiol, DHT or cortisol. Furthermore, immunoprecipitation and protein A-Sepharose adsorption analysis revealed that in the calf uterine cytosol, the [3H]R5020-receptor complexes were recognized by anti-progesterone receptor monoclonal antibody PR6. This antibody, however, did not recognize [3H]ZK98299-receptor complexes. When phosphorylation of progesterone receptor was attempted in the chicken oviduct mince, presence of progesterone resulted in an increased phosphorylation of the known components A (79 kDa) and B (110 kDa) receptor proteins. Presence of ZK98299 neither enhanced the extent of phosphorylation of A and B proteins nor did it reverse the progesterone-dependent increase in the phosphorylation. The avian progesterone receptor, therefore, has unique steroid binding site(s) that exclude(s) interaction with ZK98299. The lack of immunorecognition of calf uterine [3H]ZK98299-receptor complexes, suggests that ZK98299 is either interacting with macromolecule(s) other than the progesterone receptor or with another site on the same protein. Alternatively, the antisteroid binds to the R5020 binding site but the complex adopts a conformation that is not recognized by the PRG antibodies.     

Purification and characterization of the dihydropyridine-sensitive voltage-dependent calcium channel from cardiac tissue

The dihydropyridine-sensitive voltage-dependent Ca2+ channel from cardiac tissue was purified 900-fold using DEAE-Sephadex A-25, concanavalin A-Sepharose, and wheat germ agglutinin-Sepharose. The purified preparation was highly enriched in a peptide of 140,000 daltons when electrophoresed on sodium dodecyl sulfate gels in the presence of 2-mercaptoethanol, or 170,000 when electrophoresed in the presence of iodoacetamide. Polyclonal antibodies raised against the purified subunits of the rabbit skeletal muscle Ca2+ channel recognized the 170-kDa protein in preparations electrophoresed under nonreducing conditions, and the large peptide of 140 kDa and smaller peptides of 29-32 kDa in preparations analyzed under reducing conditions. Monoclonal antibodies, which were raised against the native Ca2+ channel from skeletal muscle, immunoprecipitated [3H]PN 200-110 binding activity from solubilized cardiac membranes and immunoprecipitated 125I-labeled peptides (from the purified cardiac Ca2+ channel preparation) which migrated as a single species of 170 kDa under nonreducing conditions, or as 140, 32, and 29 kDa under reducing conditions. The results show that the purified cardiac Ca2+ channel, like that previously purified from skeletal muscle, consists of a major component of 170 kDa which is comprised of a 140-kDa peptide linked by disulfide bonds to smaller peptides of 32-29 kDa. Peptide maps of the 140-kDa peptide purified from cardiac and skeletal muscle preparations were strikingly similar, suggesting a high degree of homology in their primary sequence.