Biochemical and genetic investigations on gap junctions from mammalian cells

Gap junction protein (26K) in mouse or rat liver has been studied using a rabbit antiserum directed against the sodium dodecylsulfate denatured 26K protein from mouse liver. The liver 26K protein has been localized in gap junction plaques of hepatic plasma membranes by immuno electron microscopy. Affinity purified anti-26K antiserum showed weak cross reactivity with mouse or bovine lens gap junction protein (MIP26). This result suggests some structural homology between the different gap junction proteins in liver and lens. After partial hepatectomy of young rats the liver 26K protein appears to be degraded and later resynthesized. A variant of established Chinese hamster fibroblastoid cells has been isolated and shown to be defective in metabolic cooperation via gap junctions.     

Preparation, characterization, and localization of antisera against bovine MP26, an integral protein from lens fiber plasma membrane

Polyclonal antisera were prepared in rabbits using both native and chymotrypsin-digested bovine lens fiber plasma membranes. MP26, the principal protein of lens fiber plasma membranes, and CT20, a chymotryptic fragment of MP26, were isolated electrophoretically and used to purify anti-MP26 and anti-CT20 activity from the respective antisera by affinity chromatography. These affinity-purified antisera were characterized by immunoreplica. Immunofluorescence microscopy localized MP26 on sections of methacrylate-embedded lenses in the lens fiber plasma membranes, but not the lens epithelium. Immunocytochemistry of isolated native or chymotrypsin-digested lens fiber plasma membranes localized both the MP26 and the CT20 only in the nonjunctional plasma membranes, with no detectable activity in the lens fiber junctions themselves. Electron microscopy revealed a second set of pentalaminar profiles, thinner by 4 nm than the lens fiber junctions, which contained demonstrable anti-MP26 and anti-CT20 activity following immunocytochemistry. These results indicate either that MP26 is not a component of the lens fiber junctions, or that significant conformational changes accompany assembly of MP26 into lens fiber junctions, resulting in the masking of MP26 antigenic determinants.     

Biochemical and genetic investigations on gap junctions from mammalian cells

Gap junction protein (26K) in mouse or rat liver has been studied using a rabbit antiserum directed against the sodium dodecylsulfate denatured 26K protein from mouse liver. The liver 26K protein has been localized in gap junction plaques of hepatic plasma membranes by immuno electron microscopy. Affinity purified anti-26K antiserum showed weak cross reactivity with mouse or bovine lens gap junction protein (MIP26). This result suggests some structural homology between the different gap junction proteins in liver and lens. After partial hepatectomy of young rats the liver 26K protein appears to be degraded and later resynthesized. A variant of established Chinese hamster fibroblastoid cells has been isolated and shown to be defective in metabolic cooperation via gap junctions.Based on material presented at the Symposium Intercellular Communication Stuttgart, September 16–17, 1982     

Immunological properties of gap junction protein from mouse liver

Hepatic gap junctions were purified as plaques from BALB/c mice and separated by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate (SDS). Antisera were raised in rabbits and rats against gap junction plaques as well as protein bands of the following apparent molecular weights: 44K to 49K ("dimer" proteins), 26K, and 21K. Using an enzyme immunoassay, we found that the reactivities of the different antisera towards gap junction plaques decreased in the following order: anti-plaque antisera, anti-26K antisera, anti-"dimer" protein antisera, and anti-21K antisera. The gap junction protein bands separated by SDS-polyacrylamide gel electrophoresis were transferred by blotting onto nitrocellulose paper and the immunological cross-reactivities were compared: the anti-26K antisera reated with the dimer protein bands and the 26K band but did not cross-react with the 21K protein band. The rabbit anti-21K antiserum reacted weakly with the 21K protein. The missing immunological cross-reaction of the 26K and the 21K protein band can be most easily explained if both proteins were independent of each other. No inhibition of metabolic cooperation between fibroblastoid mouse 3T6 cells was observed in the presence of Fab fragments prepared from rabbit antiplaque antiserum or from rabbit anti 26K antiserum. When the total proteins of plasma membranes from mouse liver were separated by SDS-polyacrylamide electrophoresis, only the 26K protein reacted with rabbit anti 26K antiserum. This result opens the possibility for direct quantitation of gap junction protein in tissues and cell fractions.     

Immunocytochemical localization of the main intrinsic polypeptide (MIP) in ultrathin frozen sections of rat lens

The in situ distribution of the 26-kdalton Main Intrinsic Polypeptide (MIP or MP 26), a putative gap junction protein in ocular lens fibers, was defined at the electron microscope level using indirect immunoferritin labeling of ultrathin frozen sections of rat lens. MIP was found distributed throughout the plasma membrane of the lens fiber cell, with no apparent distinction between junctional and nonjunctional membrane. MIP was not detectable in the basal or lateral plasma membrane of the lens epithelial cell, including the interepithelial cell gap junctions; nor was MIP detectable in the plasma membrane or gap junctions of the hepatocyte. Previous reports have indicated that the protein composition of the lens fiber cell junction differs from that of the hepatocyte gap junction. The evidence presented here suggests that the composition of the fiber cell junction and plasma membrane is also immunocytochemically distinct from that of its progenitor, the lens epithelial cell.     

The structural organization and protein composition of lens fiber junctions

The structural organization and protein composition of lens fiber junctions isolated from adult bovine and calf lenses were studied using combined electron microscopy, immunolocalization with monoclonal and polyclonal anti-MIP and anti-MP70 (two putative gap junction-forming proteins), and freeze-fracture and label-fracture methods. The major intrinsic protein of lens plasma membranes (MIP) was localized in single membranes and in an extensive network of junctions having flat and undulating surface topologies. In wavy junctions, polyclonal and monoclonal anti-MIPs labeled only the cytoplasmic surface of the convex membrane of the junction. Label-fracture experiments demonstrated that the convex membrane contained MIP arranged in tetragonal arrays 6-7 nm in unit cell dimension. The apposing concave membrane of the junction displayed fracture faces without intramembrane particles or pits. Therefore, wavy junctions are asymmetric structures composed of MIP crystals abutted against particle-free membranes. In thin junctions, anti-MIP labeled the cytoplasmic surfaces of both apposing membranes with varying degrees of asymmetry. In thin junctions, MIP was found organized in both small clusters and single membranes. These small clusters also abut against particle-free apposing membranes, probably in a staggered or checkerboard pattern. Thus, the structure of thin and wavy junctions differed only in the extent of crystallization of MIP, a property that can explain why this protein can produce two different antibody-labeling patterns. A conclusion of this study is that wavy and thin junctions do not contain coaxially aligned channels, and, in these junctions, MIP is unlikely to form gap junction-like channels. We suggest MIP may behave as an intercellular adhesion protein which can also act as a volume-regulating channel to collapse the lens extracellular space. Junctions constructed of MP70 have a wider overall thickness (18-20 nm) and are abundant in the cortical regions of the lens. A monoclonal antibody raised against this protein labeled these thicker junctions on the cytoplasmic surfaces of both apposing membranes. Thick junctions also contained isolated clusters of MIP inside the plaques of MP70. The role of thick junctions in lens physiology remains to be determined.     

Lens cell-to-cell channel protein: I. Self-assembly into liposomes and permeability regulation by calmodulin

Summary Lens fibers are coupled by communicating junctions which contain a 28-kDalton protein (MIP26) believed to be the main component of the cell-to-cell channel. To study the permeability properties and regulation of these channels, anin vitro system has been developed in which MIP26 isolated from calf lens is incorporated into liposomes and the resulting channels are studied spectrophotometrically by a swelling assay. Liposome vesicles were prepared using a sonication/resuspension method. Incorporation efficiency was monitored by freeze-fracture. Vesicles were resuspended in 6% Dextran T-10. Assay buffer was identical, except for isotonic substitution of sucrose for T-10. MIP26-incorporated (but not control) vesicles swell under isotonic conditions indicating sucrose entry (via channels) followed by water to maintain osmotic balance. In the absence of calmodulin, calcium ion has no effect on channel permeability. On the contrary, vesicles prepared with equimolar amounts of MIP26 and CaM do not swell in the presence of calcium ion, indicating that the channels can be closed. Addition of EGTA to these vesicles reinitiates swelling—evidence that the channel gating mechanism is reversible. Magnesium ion has no effect on either type of vesicle.     

Phosphorylation of lens membranes with a cyclic AMP-dependent protein kinase purified from the bovine lens

We report the phosphorylation of lens membranes with a cAMP-dependent protein kinase isolated from bovine lenses. The holoenzyme was eluted from DEAE agarose at less than 100 mM NaCl and from gel filtration columns with a relative molecular weight of 180 000. The regulatory subunit was identified with the affinity label 8-azido-[32P]cAMP. Four focusing variants with relative molecular weights of 49 000 were seen on two-dimensional gels. The catalytic subunit was purified approx. 5000-fold and migrated at 42 000 Mr on SDS gels. Based on these observations, the enzyme is classified as a Type I cAMP-dependent protein kinase. Purified lens plasma membranes were incubated with the holoenzyme or its catalytic subunit in the presence of 32P-labeled ATP. Several membrane proteins, including the major lens membrane polypeptide, MP26, were shown to be substrates for the kinase in this reaction. MP26 appears to be the major component of intercellular junctions in the lens. Studies with protease treatments on labeled membranes appeared to localize the phosphorylation sites to the cytoplasmic side of the membrane.     

Preparation of hepatic gap (communicating) junctions. Identification of the constituent polypeptide subunits

1. Gap (communicating) junctions are plasma-membrane specializations of characteristic morphology that form transmembrane channels allowing direct communication between cells. Their preparation is described starting from mouse liver plasma membranes and the constituent polypeptides are deduced. 2. Gap junctions co-purify with collagen fibres when the plasma-membrane residues insoluble in N-dodecyl sarcosinate are fractionated on sucrose gradients. Sucrose-density perturbation by relipidation of isolated gap junctions or the use of urea to remove non-junctional membranes both failed to diminish the collagen content of fractions. 3. Removal of collagen by treatment with purified collagenase preparations yielded morphologically satisfactory gap-junction fractions. Analysis by polyacrylamide-gel electrophoresis of the polypeptides present in gap junctions prepared by procedures omitting or using collagenases indicated two non-glycosylated polypeptides, a major component of apparent mol.wt. 38000 and a minor 40000-mol.wt. component. These two polypeptides were also present in plasma membranes and the intermediate fractions. 4. Proteolysis of the gap-junction polypeptides yielding components of mol.wt. 34000, 25000 and below 20000 occurred when iodinated gap junctions were subject to prolonged collagenase treatment, thus explaining the variable polypeptide composition of gap junctions reported by others. 5. The morphological properties of the isolated gap junctions prepared by the various procedures are described.     

Hydrodynamic characterization of the major intrinsic protein from the bovine lens fiber membranes. Extraction in n-octyl-beta-D-glucopyranoside and evidence for a tetrameric structure

The major protein from the bovine lens fiber cell membranes, the 26-kilodalton protein (major intrinsic protein (MIP26)), has been solubilized in n-octyl-beta-D-glucopyranoside and purified by gel filtration. The final preparation was free of detergent micelles. Gel electrophoresis in denaturing conditions has confirmed the purity of the protein sample. A s20,w of 5.55 S, obtained from analytical ultracentrifugation, and a D20,w of 3.62 x 10(-7) cm2 s-1, obtained from photon correlation spectroscopy, resulted in a molar mass of (176,000 +/- 15,000) g/mol for the protein-detergent complex using the Svedberg relation. The measured detergent content of 0.71 g of detergent/g of protein resulted in a calculated partial specific volume of 0.787 cm3/g for the protein-detergent complex and a molar mass of 103,000 g/mol for the protein moiety. This allowed us to conclude that the protein-detergent complex contains four copies of the MIP26 protein, which supports the suggestion that in vivo the MIP26 molecules cluster in tetramers to form a pore-like structure.     

Glycation of lens MIP26 affects the permeability in reconstituted liposomes.

We studied the role of glycation of lens putative gap junctional protein, MIP26, on the permeability as well as on calmodulin mediated gating activity in reconstituted liposomes. Calf lens membranes were incubated with 0-100 mM glucose for 3 days and MIP26 was isolated. There was a glucose concentration dependent increase in the glycation of MIP26 which reached to 2.48 moles/mole of protein with 100 mM glucose. Gel electrophoresis showed that there was no degradation of MIP26 to MIP22 during incubation. Channel permeability was determined by reconstituting MIP26 into asolectin liposomes. There was a MIP26 glycation dependent decrease in the permeability to sucrose. Furthermore, proteoliposomes containing nonglycated MIP26 showed complete uncoupling of the channels with calmodulin whereas the channels containing glycated MIP26 were only partially uncoupled. These results suggest that glycation of MIP26 does interfere with the gating activity in reconstituted liposomes.     

Major intrinsic polypeptide (MIP26K) of the lens membrane: covalent change in an internal sequence during human senile cataractogenesis

Polyclonal antisera to three synthetic peptides of bovine MIP26K have been used in combination with Western blot analysis to probe for changes of the MIP26K molecule during human senile cataractogenesis. Anti-MIP26K229-237 binds well to the 26K component from cataractous lens membranes, but binds poorly to the same component from normal lens. In contrast, antisera to two other sequences of MIP26K (anti-MIP26K252-259 and anti-MIP26K256-263) bind approximately equally well to the 26K component from either cataractous or normal lens. Together, these results demonstrate that during cataract development there is a selective covalent change in a region of the MIP26K molecule that may have profound effects upon the ability of this molecule to facilitate intercellular communication between lens fiber cells.     

Purification and molecular characterization of bovine pregastric lipase

A pregastric lipase was purified from calf pharyngeal tissues. The purification procedure was based on chromatographies on octyl-Sepharose and lentil-lectin-Sepharose followed by gel filtration. The final preparation, with an overall recovery of 26% of activity, gave a single protein band on dodecyl sulfate/polyacrylamide gel electrophoresis with a Mr of 55000. The Mr on gel filtration was 44-48000. The discrepancy may be due to the fact that pregastric lipase is a glycoprotein containing approximately 10% (w/w) of carbohydrate. The pI was around 7.0 and the enzyme protein is characterized by a high content of branched, aliphatic amino acid residues. The NH2-terminal amino acid sequence is: H2N-Phe-Leu/(Ile)-Gly-. Rabbit antibodies to the purified preparation detected only one component in the crude starting material in immuno-blotting experiments. Preincubation with antiserum resulted in loss of enzyme activity, showing that the antibodies were directed against the lipase.     

Identification of P-57, a serine proteinase, from human erythrocyte membranes, which cleaves both chains of human third component (C3) of complement

A proteinase, which cleaves human third component of complement, was solubilized from erythrocyte membranes then purified by gel filtration chromatography, fluid phase electrophoresis, and hydroxylapatite chromatography. Labeling of the purified material by 125I or 3H-DFP and measurement of proteolytic activity subsequently isolated by SDS-polyacrylamide gel electrophoresis allowed to identify a 57 kDa single band, in non reducing conditions. Inhibition of this activity by PMSF supports covalent modification of an active serine residue. This membrane serine proteinase cleaved alpha and beta chains of human third component of complement, suggesting that p-57 is distinct from plasma serine proteinases.     

A highly antigenic proteoglycan-like component of cholinergic synaptic vesicles

A monoclonal antibody, tor70, recognizes an antigenic determinant on the inside surface of synaptic vesicles, purified from the electric organ of Narcine brasiliensis. The antigenic determinant appears to be unique to vesicles since it co-purifies with vesicle content and is blocked by an antiserum specific for synaptic vesicle antigens. Immunoblotting of vesicle proteins after sodium dodecyl sulfate-polyacrylamide gel electrophoresis shows that the antigen has a low heterogeneous electrophoretic mobility and corresponds to a major protein component of pure synaptic vesicles. Synaptic vesicles contain a proteoglycan-like material since proteolytic digestion yields a ruthenium red-binding material that migrates during electrophoresis with a mammalian heparin standard. The only major vesicle component with which the proteoglycan-like material co-elutes during chromatography on Sepharose 6B is the material recognized by tor70. The antigen adsorbs specifically to beads coated with the lectin wheat germ agglutinin. Isolation of the tor70 antigen by velocity sedimentation in sodium dodecyl sulfate-sucrose gradients shows it to contain glucosamine (0.75 nmol/microgram of protein) and uronic acid but no galactosamine. Earlier work has shown that specific antiserum to pure synaptic vesicles could be used to identify nerve terminals, quantitate vesicle components, purify membranes, and monitor exocytosis. We now know that one of the components recognized by the antiserum is a molecule with properties of a proteoglycan, attached to the inside surface of vesicle membranes.     

Conformational properties of the main intrinsic polypeptide (MIP26) isolated from lens plasma membranes

The conformational properties of the main intrinsic polypeptide (MIP26) isolated from lens plasma membranes were studied by using near- and far-ultraviolet circular dichroism. The far-ultraviolet spectrum of MIP26 solubilized with octyl beta-D-glucopyranoside indicates an alpha-helical content of approximately 50% and a beta-structure content of approximately 20%. A detergent-free membrane suspension of MIP26 produced a typically distorted far-ultraviolet spectrum which was caused by differential light scattering and absorption flattening. However, decreasing the size of the membrane fragments by sonication produced a far-ultraviolet spectrum free of distortion, and with a rotatory strength profile similar to that obtained for MIP26 solubilized with octyl beta-D-glucopyranoside. This implies similar secondary structure properties for the protein in both the suspension and the sugar detergent. The cleavage of MIP26 with Staphylococcus aureus protease, which results in removal of a 5-kilodalton peptide and which mimics the age-dependent posttranslational changes that take place in the lens, did not significantly affect the conformation of the core protein as judged by the near-ultraviolet circular dichroism spectra.     

Widespread occurrence of avian spectrin in nonerythroid cells

We have prepared an antibody against chicken erythrocyte α spectrin, using as immunogen protein purified by two-dimensional polyacrylamide gel electrophoresis. One- and two-dimensional immunoautoradiography show that this antiserum reacts only with α spectrin in chicken erythrocytes and crossreacts with α spectrin in erythrocytes from various mammals. Immunofluorescence reveals that this antiserum reacts with a plasma membrane component in erythrocytes as well as in most nonerythroid avian and mammalian cells. Intense staining is seen at or near the plasma membrane in neurons, lens cells, endothelial and epithelial cells of the gastrointestinal and respiratory tracts, skeletal and cardiac muscle, as well as skeletal myotubes grown in tissue culture. Immunoautoradiography indicates that the crossreactive antigen in these nonerythroid tissues has the same molecular weight and isoelectric point as the chicken erythrocyte antigen. Smooth muscle, tracheal cilia, myelin and mature sperm stain weakly or not at all. These results suggest that spectrin is more extensively distributed than previously recognized, and that the functions of spectrin elucidated for erythrocytes may apply to other cell types as well.     

Covalent change of major intrinsic polypeptide (MIP26K) of lens membrane during human senile cataractogenesis

Polyclonal antisera have been made against synthetic peptides corresponding to the C-terminal octapeptide and N-terminal nonapeptide of bovine MIP26K. Western blot analysis demonstrated significant binding of the C-terminal antiserum to MIP26K of both normal and cataractous human lens. In contrast, the N-terminal antiserum bound to MIP26K of normal lenses, but failed to bind to MIP26K of 7 out of 10 cataractous lenses studied. These results demonstrate for the first time, a covalent change in MIP26K during human cataractogenesis, and strongly suggest that the location of this change is in the N-terminal region of the polypeptide.     

Properties of the PC-1 molecule

The technique of cell-surface iodination, followed by immuno-precipitation withPC-1.1 antiserum, was applied to normal spleen cells and to MOPC-70A BALB myeloma cells. The results indicate that the cell-surface component bearing PC-1 alloantigen has a molecular weight of from 105,000 to 110,000 daltons and does not resemble any constituent of plasma membranes or MuLV-type virus so far categorized by similar methods. The PC-1 specificity of the molecule was confirmed by comparison of the spleen cells of two mouse strains with spleen cells of their respective PC-congenic partner strains. MOPC-70A myeloma cells, but not spleen cells, yield a fainter band in the PC-1 position in controls in which antiserum is omitted, but peptide maps show that this similarly placed band has no relation to the PC-1 molecule.Abbreviations used in this paper are as follows PC plasma cell - B6 C57BL/6 - SDS/PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - a anti - NMS normal mouse serum - MuLV murine leukemia virus - Ig immunoglobulin     

A 220 kDa polypeptide, immunolocalized to epithelial tight junctions, is associated with brain clathrin preparations

Antibodies were raised in rabbits to highly purified preparations of bovine brain clathrin. The serum stained by immunofluorescence rat liver sections at tight junctions in a pattern that was identical to that previously reported (B. R. Stevenson et al.: J. Cell Biol. 103, 755-766 (1986] in which a monoclonal antibody specific to a 220 kDa (ZO-1) liver tight junction component was used. The serum also stained regions of the cell surface corresponding to the positions of intercellular junctions in confluent MDCK and HepG-2 cell cultures. Analysis of brain clathrin preparations resolved by polyacrylamide gel electrophoresis by immunoblotting with the serum indicated reaction with clathrin heavy and light chains as well as towards a 220 kDa polypeptide that was a minor component. Affinity purification of the serum provided antibodies directed mainly to clathrin light chains and these antibodies, as well as an independent antiserum to clathrin heavy chains, immunofluorescently stained liver tissue and cells in a manner typical of coated membranes/vesicles. These results suggested, by difference, that antibodies to a 220 kDa polypeptide, a minor constituent in brain clathrin preparations, were responsible for staining intercellular tight junctions in epithelia. The 220 kDa polypeptide present in brain clathrin preparations was demonstrated to be immunologically distinct from liver myosin heavy chain as well as erythrocyte and brain ankyrin. Comparison by two-dimensional mapping of the 220 kDa in brain clathrin with the clathrin heavy chain (180 kDa) polypeptide showed they were different proteins, but the 220 kDa polypeptide present in rat liver tight junctions was highly similar to the 220 kDa present in bovine brain clathrin preparations.(ABSTRACT TRUNCATED AT 250 WORDS)