Is the metal binding protein metallothionein present in the coelenterate Hydra attenuata?

• 1.1. Studies have been performed on untreated and heavy metal treated Hydra attenuata in order to reveal the presence of low mol. wt metal-binding proteins.
• 2.2. A prepared rat metallothionein (Mt) standard, gel permeation, polyacrylamide gel electrophoresis and autoradiographic techniques were used in the experiments.
• 3.3. Our results indicate that H. attenuata, and three species of marine coelenterates, lack metallothionein (Mt) or other metal binding proteins.

     

State of protein B23/nucleophosmin in brain cells

Protein B23/nucleophosmin is a polyfunctional protein existing in cells in numerous structural forms. In this work, for the immunochemical analysis of nucleophosmin we used the antibodies specific to different forms of nucleophosmin, namely, antibodies selectively revealing monomers of all the known forms of this protein and antibodies specific only to isoform B23.1. Homogenates of different rat tissues such as the brain, liver, kidney, lung and heart were used, as well as nuclei from liver and brain cells. For the first time, we show that the structural state of nucleophosmin in brain differs from its state in other tissues, including the liver that is enriched with nucleophosmin. It was revealed that on immunoblots of brain homogenates not only monomeric form of nucleophosmin but also unique SDS-resistant oligomeric forms were detected in the SDS-PAGE. Analysis of nucleophosmin in the cerebellum, cortex, amygdala, brainstem, and hippocampus showed that most enriched with nucleophosmin were hippocampus and cerebellum; on their immunoblots SDS-resistant oligomeric forms of nucleophosmin dominated. Using immunochemical analysis of the protein in primary cultures of cerebellum glial cells and neurons, significant structural differences of nucleophosmin in proliferating glial cells and non-proliferating neurons were revealed for the first time. It was found also that the nucleophosmin content in glial cells is much higher than in neurons and that the main forms of protein B23 in glial cells on immunoblots are the SDS-resistant oligomers, while a monomeric form was present in much smaller quantities. In contrast to glial cells, neurons did not contain such oligomers. In neurons, only trace amounts of a monomeric form of nucleophosmin were found, which were undetectable by the antibodies specific to isoform B23.1.     

Inter-tissue and inter-species characteristics of the mitochondrial carnitine palmitoyltransferase enzyme system

Properties of the carnitine palmitoyltransferase (EC 2.3.1.21) (CPT) enzyme system were compared in isolated mitochondria from a range of tissues in rodents, monkey, and man. Common features were as follows: (a) while membrane-bound, CPT I, but not CPT II, was inhibited reversibly by malonyl-coenzyme A (CoA) and irreversibly by CoA esters of certain oxirane carboxylic acids; (b) the detergent, Tween-20, readily solubilized CPT II in active form while leaving CPT I membrane associated and catalytically functional; (c) octyl glucoside and Triton X-100 released active CPT II but caused essentially complete loss of CPT I activity. Use of [3H]tetradecylglycidyl-CoA, a covalent ligand for CPT I, yielded estimates of the enzyme's monomeric molecular size: approximately 86 kDa in non-hepatic tissues and approximately 90-94 kDa in liver, depending upon species. A polyclonal antibody to purified rat liver CPT II recognized a single protein in each tissue; its apparent molecular mass was approximately 70 kDa in all rat tissues and approximately 68 kDa in all mouse tissues as well as monkey and human liver. On Northern blot analysis a rat liver CPT II cDNA probe detected a single approximately 2.5-kilobase mRNA in all rat and mouse tissues examined. The following points are emphasized. First, CPT I and II are different proteins. Second, within a species CPT II, but not CPT I, is probably conserved across tissue lines. Third, slight variations in size of both enzymes were found in different species, although, at least in the case of CPT II, significant amino acid identity exists among the various isoforms. Fourth, CPT I, unlike CPT II, requires membrane integrity for catalytic function. Finally, the strategic use of detergents provides a simple means of discriminating between the two enzyme activities.     

Evidence of presence of a low molecular weight,non-metallothionein-like metal-binding protein in the marine gastropod Nassarius reticulatus L.

• 1.1. A low molecular weight metal-binding protein was found in the snail Nassarius reticulatus cytosol, which was induced in heavy metal contaminated environments.
• 2.2. In our sodium dodecyl sulfate-mercaptoethanol polyacrylamide gel systems it behaved as a protein of 19 kDa mol. wt.
• 3.3. Amino acid composition studies definitely established this protein not to be metallothionein (Mt) like, because it had a much lower level of cysteine and substantial amounts of aromatic amino acids and histidine.
• 4.4. The metal-binding strength of this protein was concluded to be much weaker than that of Mt.
• 5.5. In the crustacean Pagurus bernhardus L. such a protein could not be demonstrated.
• 6.6. In both the snail and the crustacean Zn may inhibit the accumulation of Hg. The premise for studying the induction of the metal-binding Nassarius protein as a supplement to environmental metal monitoring purposes is briefly discussed.

     

Production of a monoclonal antibody directed against rat liver glutathione-insulin transhydrogenase

A hybridoma cell line secreting monoclonal antibody specific for glutathione-insulin transhydrogenase has been produced by fusing mouse myeloma cells with spleen cells from mice immunized to purified rat liver glutathione-insulin transhydrogenase. The secreted antibody isotypes were found to be: Ig gamma 1 heavy chains and kappa light chains. This monoclonal antibody has been used to screen glutathione-insulin transhydrogenase in various rat tissue extracts (liver, fat, heart, testis, spleen, lung and kidney) following separation on NaDodSO4/urea polyacrylamide disc-gel electrophoresis and electrophoretic transfer to nitrocellulose. Screening with the monoclonal antibody showed the presence of one immunoreactive protein band equal in molecular weight to that of purified rat liver GIT (Mr 53,000) in extracts of all tissues studied and a second immunoreactive protein band of lower molecular weight (Mr 49,000) in spleen and lung tissue extracts. Separation of these two proteins by HPLC using a TSK-DEAE column demonstrated that both proteins exhibit insulin degrading activity. These data indicate that GIT may occur in multiple forms in some tissues.     

Alteration in brain proteins following occlusion of the middle cerebral artery in rat.

The effects of permanent focal ischemia on specific proteins of the cerebral hemisphere were studied by unilateral occlusion of the middle cerebral artery (MCAO) in rat. Brain proteins were prepared 72 h after the occlusion and analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The proteins were identified by their interaction with rabbit antibodies against rat serum proteins and anti-transferrin antibodies. SDS-PAGE analysis of the proteins prepared from ischemic tissue showed significant increase in the 66 and 80 kDa components; where a marked decrease in the 260 kDa protein occurred in the ischemic and para-ischemic tissues. The 66 kDa and 80 kDa proteins stained intensely with anti-serum protein antibodies, indicating that they are related to plasma components. Moreover, the 66 kDa band had the same electrophoretic mobility as bovine serum albumin used as a standard molecular size marker. The 80 kDa band was identified as transferrin by staining with the specific antibody. Transferrin was immunolocalized in the penumbra of cerebral cortex, hippocampal CA1 region and dentate gyrus of the ischemic cerebral hemisphere. The present results suggest that alteration in the brain content of 66 kDa (albumin), 80 kDa (transferrin) and 260 kDa (unidentified) proteins may reflect early effects of focal ischemia.     

Isolation of (copper, zinc)-thioneins from the livers of copper-injected rats.

The mixed copper- and zinc-binding proteins, with mol.wt. of approx. 12000, induced in rat liver after injection of copper were isolated and characterized as metallothioneins. Three separate forms were obtained, with 7-11% total metal in the protein, equivalent to 2.6-1.6 cysteine residues/metal atom.     

Single subunit structure of the human thyrotropin receptor.

We have produced rabbit antibody against a synthetic peptide corresponding to N-terminal region of the extracellular domain of human thyrotropin receptor (hTSH-R) (N peptide, aminoacid residues 29-57). Western blot analysis revealed that N-peptide antibody recognized recombinant hTSH-R stably expressing in CHO-K1 cells as a mol. wt. about 104 kDa regardless in the presence or absence of disulfide-reducing agent. The band was not detected in untransfected CHO-K1 cells and no band was also stained by the antibody absorbed with N-peptide. In a reducing condition, the antibody also bound the rat receptor from FRTL5 cells as the same molecular size (104 kDa). These results clearly indicate that TSH-R is composed of a single subunit and that two subunit model for the TSH-R may reflect artifactual proteolytic cleavage of the receptor during membrane preparation.     

Isoelectric analysis of 3H-pargyline-labelled monoamine oxidase in rat and carp

1. After selective binding of [3H]pargyline to either monoamine oxidase (MAO) A or MAO B in the rat liver, MAO B alone in the rat brain and MAO in carp brain and liver, molecular weight and isoelectric points (pI) of these MAO were determined by sodium dodecyl sulphate (SDS)-polyacrylamide gel electrophoresis and isoelectric focusing and results obtained were compared. 2. For all tissues tested, SDS-polyacrylamide gel electrophoresis of [3H]pargyline-bound samples revealed a labelled protein band of an apparent mol. wt of 60,000 da. 3. Estimation of radioactivity of [3H]pargyline bound after isoelectric focusing revealed a single protein band with acidic pI values of about 5.5 for rat brain and liver MAO B. 4. Moreover, the pI values of about 7.5 were obtained for carp brain and liver MAO. This basic value was also found for MAO A in the rat liver MAO A.     

Distribution of plasma membrane Ca2+ pump (PMCA) isoforms in the gerbil brain: effect of ischemia-reperfusion injury.

Non-species isoform-specific antibodies against three isoforms of the plasma membrane Ca2+ pump (PMCA) were used for immuno-localization of PMCA by Western blot analysis in membrane preparations isolated from different regions of gerbil brain. All three gene products were detected in the membranes from hippocampus, cerebral cortex and cerebellum. However, they showed a distinct distribution pattern. Two proteins were revealed in the case of PMCA1 with molecular masses 129 and 135 kDa. The antibody against PMCA2 recognized three proteins of about 130-137 kDa. Only one protein was detected with the anti-PMCA3 antibody. Levels of immuno-signal for the PMCA isoforms varied significantly among the different brain regions. The PMCA1 is the most abundant in the cerebro-cortical and hippocampal membrane preparations. The PMCA2 was detected in a lesser amount comparing to PMCA1 and was highest in the membrane preparations from cerebellum and in a slightly lesser amount from cerebral cortex. Anti-PMCA3 antibody stained weakly and was localized in the cerebellar and hippocampal membrane preparations. Transient forebrain ischemia (10 min) and reperfusion (for a prolonged period up to 10 d) leads to a significant decrease of PMCA immuno-signal. This decrease could be ascribed to the loss of PMCA1 signal, especially in hippocampal membrane preparations.     

Possible endogenous substrate proteins for cytosolic protein-tyrosine kinase from porcine spleen.

1. Endogenous phosphate acceptor proteins by cytosolic protein-tyrosine kinase from porcine spleen (CPTK-40) were studied using subcellular fractions of porcine spleen and supernatant fraction of rat various tissues. 2. At least 13 phosphate acceptor proteins ranging from 94 to 26 kDa were observed in all but mitochondrial subcellular fractions. 3. Among the supernatant fraction of rat tissues, brain, testis and spleen contained many phosphate acceptor proteins. 4. The most heavily phosphorylated band of around 55 kDa which was commonly recognized among various tissues was confirmed as tubulin by the immunoreactivity with anti-tubulin antibody. 5. The results obtained in this paper indicate that CPTK-40 has the potential to catalyze the phosphorylation of numerous endogenous proteins including tubulin.     

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)     

Immunochemical Characterization of the β2 Subunit of the GABAA Receptor

To date three β subunits of the GABA_A receptor have been identified in rat brain as a result of cDNA library screening. The β2 subunit has been reported to have a wide distribution in rat brain based on in situ hybridization studies quantifying β2 mRNA. To study the β2 subunit more directly, we have raised a polyclonal antibody to a synthetic peptide representing residues 315–334 of the intracellular loop of the β2 subunit. The antibody, which had been affinity-purified, recognized the β2 peptide but did not immunolabel homologous β1 and β3 subunit peptides, indicating that this antibody is specific for the β2 subunit of the receptor. In western blots of the purified receptor, the antibody recognized a major diffuse band of 54–58 kDa arid exhibited minor labeling of lower-molecular-mass polypeptides. In western blots of cortex homogenate, the antibody exhibited nervous system-specific labeling of a 55-kDa band that comigrated with the 55-kDa band of the purified receptor. Quantitative immunolabeling of this 55-kDa polypeptide permitted direct determination of the relative amounts of the β2 subunit in different brain regions. The brainstem contained the highest relative specific activity of the β2 subunit, followed by the inferior colliculus, olfactory lobe, and cerebellum. Lower levels of immunolabeling were seen in hypothalamus, hippocampus, thalamus, and cortex.     

N-terminal amino acid sequence, immunohistochemical localization and tissue distribution of a plasma membrane protein (Prot17) of rat enterocytes

Prot17, a protein of the basolateral membrane of rat small intestine with a mol.wt. of 17 kDa, can be isolated using a previously described method (Schiechl 1988). It occurs in the membrane as an oligomer with a mol.wt. of 90 kDa. In the present study a polyclonal antibody specific for Prot17 was used to explore by immunohistochemical techniques the tissue distribution of Prot17 and its ultrastructural localization within the cells. Furthermore the amino acid sequence of the N-terminal part of this molecule up to position 17 could be analyzed. The results are summarized as follows: Prot17 is a membrane anchored protein. Its partial amino acid sequence suggests that it is neither identical nor related to other known proteins. Immunofluorescence studies revealed, that it occurs only in epithelial cells. It is mainly found in the absorptive and goblet cells of the intestine and the acinar cells of the pancreas. Smaller quantities are found also in the bile duct epithelium of the liver, in the proximal tubule cells of the kidney and in the cells of the respiratory epithelium. Ultrastructural localization of Prot17 was possible in the intestinal epithelium and pancreas acinar cells. In both cell types it was found in the basolateral and microvillous membrane. In pancreas, Prot17 was also detected in the membrane of the zymogen granules. In the absorptive cells of the intestine Prot17 was found in both the membrane and the contents of subluminal vesicles. Furthermore, in apical granules of secretory cells of the respiratory epithelium binding of Prot17 specific antibody was found in the granular content, the membrane being negative.     

N-terminal amino acid sequence,immunohistochemical localization and tissue distribution of a plasma membrane protein (Prot17) of rat enterocytes

Summary Prot17, a protein of the basolateral membrane of rat small intestine with a mol.wt. of 17 kDa, can be isolated using a previously described method (Schiechl 1988). It occurs in the membrane as an oligomer with a mol.wt. of 90 kDa. In the present study a polyclonal antibody specific for Prot17 was used to explore by immunohistochemical techniques the tissue distribution of Prot17 and its ultrastructural localization within the cells. Furthermore the amino acid sequence of the N-terminal part of this molecule up to position 17 could be analyzed. The results are summarized as follows: Prot17 is a membrane anchored protein. Its partial amino acid sequence suggests that it is neither identical nor related to other known proteins. Immunofluorescence studies revealed, that it occurs only in epithelial cells. It is mainly found in the absorptive and goblet cells of the intestine and the acinar cells of the pancreas. Smaller quantities are found also in the bile duct epithelium of the liver, in the proximal tubule cells of the kidney and in the cells of the respiratory epithelium. Ultrastructural localization of Prot17 was possible in the intestinal epithelium and pancreas acinar cells. In both cell types it was found in the basolateral and microvillous membrane. In pancreas, Prot17 was also detected in the membrane of the zymogen granules. In the absorptive cells of the intestine Prot17 was found in both the membrane and the contents of subluminal vesicles. Furthermore, in apical granules of secretory cells of the respiratory epithelium binding of Prot17 specific antibody was found in the granular content, the membrane being negative.     

The Posttranslational Arginylation of Proteins in Different Regions of the Rat Brain

The posttranslational incorporation of arginine into proteins catalyzed by arginyl-tRNA protein transferase was determined in vitro in different rat brain regions. The incorporation was found in all the regions studied, although with different specific activities (pmol [14C]arginine incorporated/mg protein). Of the regions studied, hippocampus had the highest specific activity followed by striatum, medulla oblongata, cerebellum, and cerebral cortex. Electrophoretic analysis of the [14C]arginyl proteins from the different regions followed by autoradiography and scanner densitometry showed at least 13 polypeptide bands that were labeled with [14C]arginine. The radioactive bands were qualitatively coincident with protein bands revealed by Coomassie Blue. There were peaks that showed different proportions of labeling in comparison with peaks of similar molecular mass from total brain. Most notable because of their high proportions were those of molecular mass 125 kDa in hippocampus, striatum, and cerebral cortex; 112 and 98 kDa in striatum and cerebellum; and 33 kDa in hippocampus and striatum. In lower proportions than in total brain were the peaks of 33 kDa in medulla oblongata and cerebral cortex and of 125 kDa in medulla oblongata.     

Role of endogenous regucalcin in transgenic rats: suppression of kidney cortex cytosolic protein phosphatase activity and enhancement of heart muscle microsomal Ca2+-ATPase activity

Rats were generated by pronuclear injection of the transgene with a cDNA construct encoding rat regucalcin that is a regulatory protein of Ca2+ signaling. Transgenic (TG) founders were fertile, transmitted the transgene at the expected frequency, and bred to homozygote. Western analysis of the cytosol prepared from the tissue of TG female rats (5-week-old) showed a remarkable expression of regucalcin (3.3 kDa) protein in the liver, kidney cortex, heart, lung, stomach, brain, spleen, muscle, colon, and duodenum. Regucalcin expression of TG male rats was seen in the liver, kidney cortex, heart, and lung. In wild-type (wt) male and female rats, regucalcin was mainly present in the liver and kidney cortex. Regucalcin inhibited protein phosphatase activity in rat kidney cortex cytosol and activated Ca2+-ATPase activity in rat heart muscle microsomes. The suppressive effect of regucalcin on protein phosphatase activity was significantly enhanced in the cytosol of kidney cortex of TG male and female rats as compared with those of wt rats. Likewise, heart muscle microsomal Ca2+-ATPase activity was significantly enhanced in TG rats. The changes in their enzyme's activities in TG rats were completely abolished in the presence of anti-regucalcin monoclonal antibody (100 ng/ml) in the enzyme reaction mixture. Moreover, the body weight of TG female rats was significantly lowered as compared with that of wt rats. Serum inorganic phosphorus concentration was significantly increased in TG male and female rats, while serum calcium, glucose, triglyceride, free cholesterol, albumin, and urea nitrogen concentrations were not significantly altered in TG rats. Regucalcin TG rats should be a useful model to define a regulatory role of endogenous regucalcin in the tissues in vivo.     

Immunocytochemical study of lysosomal proteins with a new monoclonal antibody directed against epithelioid macrophages

 A monoclonal antibody, EPI-1, was produced against macrophages in epithelioid granulomas induced in rat foot pads by muramyl dipeptide. This EPI-1 antibody reacted to lysosome-like structures in epithelioid macrophages, peritoneal and pulmonary macrophages, and also in other tissues such as liver, testes, and kidneys. Western blot analysis of epithelioid granulomas, liver, testes, and kidneys revealed the same positive band of 62 kDa. Immunoelectron microscopic study of foot pad granulomas and hepatocytes demonstrated the EPI-1 antigen located in lysosomes and autophagic vesicles, preferentially along their membranes. These findings suggest that the EPI-1 antibody may recognize a novel antigen related to lysosomal membrane proteins in macrophages and other cells, which is useful for identifying lysosomes and their related structures. Accepted: 14 July 1997     

Immunohistochemical distribution and functional characterization of an organic anion transporting polypeptide 2 (oatp2)

The rabbit polyclonal antibody against rat organic anion transporting polypeptide 2 (oatp2) was raised and immunoaffinity-purified. Western blot analysis for oatp2 detected two bands ( 74 and 76 kDa) in rat brain and a single band (76 kDa) in the liver. By immunohistochemical analysis, the oatp2 immunoreactivity was specifically high at the basolateral membrane of rat hepatocytes. Functionally, the oatp2-expressing oocytes were found to transport dehydroepiandrosterone sulfate, delta1 opioid receptor agonist [D-Pen2,D-Pen5]enkephalin, Leuenkephalin, and biotin significantly, as well as the substrates previously reported. These data reveal the exact distribution of the rat oatp2 at the protein level in the liver, and that oatp2 appears to be involved in the multispecificity of the uptaking substrates in the liver and brain.     

Circular dichroic, infrared and other studies on the protein component of pig brain thromboplastin.

1. A four-step procedure used to isolate the protein component (apoprotein III) of pig brain thromboplastin yielded approximately 25 mg from 500g of brain. 2. In the absence of detergent, apoprotein III had an apparent mol.wt. of 360 000 by gel-filtration, and, after electrophoresis on polyacrylamide gels in the presence of sodium docecyl sulphate, it appeared as a major protein band of mol.wt.59 000, suggesting the existence of polymeric and monomeric forms. 3. Chemical analyses of apoprotein III revealed that hydrophilic and hydrophobic amino acids were present in a ratio of 3:2, together with approx, 9% (w/w) of carbohydrate. 4. The far-u.v.c.d. and i.r. spectral data indicated that, like other membrane proteins, apoprotein III has a high percentage of unordered structure with lesser amounts of alpha and beta-forms. 5. Relipidation of apoprotein III to restore clotting activity caused no extensive alteration in the c.d. and i.r. spectra, indicating that the phospholipid associates with a comparatively small hydrophobic segment. The constrained unordered conformation, which makes the major contribution to the c.d. spectrum, probably forms a separate domain in the aqueous phase. The absence of any increase in the amplitude of both negative c.d. extrema, following relipidation, contrasted with the substantial increase observed in a helix-forming solvent and raises the possibility that the more stable polymeric form of apoprotein III is retained as the active form in the lipid phase. 6. We suggest that as a consequence of cell membrane damage, the recognition and activation of factor VII may involve minor changes of conformation that are dependent upon the flexibility inherent in an unordered secondary structure.