An immunologic probe for a defined region of the myelin proteolipid

Antiserum has been prepared against an isolated polypeptide fragment, designated BPS4, which comprises residues 181-211 of the bovine myelin proteolipid. The antiserum recognizes the intact bovine proteolipid protein but not several other polypeptide fragments within the molecule, nor the myelin basic protein, thus demonstrating specificity of the antiserum. In a competitive enzyme-linked immunosorbent assay, both the major proteolipid and the DM 20 bands observed on sodium dodecyl sulfate-polyacrylamide gels reacted equally well with the antiserum, indicating that the BPS4 segment is present in both molecular species. The rat myelin proteolipid protein cross-reacted with antiserum against the intact bovine protein but showed minimal cross-reactivity with the antiserum against the bovine BPS4 fragment. This was demonstrated in parallel experiments using three types of preparations, namely, sodium dodecyl sulfate-solubilized myelin, delipidated myelin, and isolated proteolipid apoprotein. The difference between the bovine and rat proteins, which presumably reflects amino acid sequence differences, is thus detectable by the antiserum against the polypeptide fragment but not by the antiserum against the intact protein. Isolated bovine myelin membranes did not bind the antiserum in the absence of detergent or without delipidation. On the other hand, in vesicles reconstituted with the intact bovine apoprotein, the BPS4 segment was oriented on the exterior face of the liposome where it was capable of binding antibody and was susceptible to Pronase digestion.     

In Lactococcus lactis subsp. cremoris SK110 protein, instead of lipoteichoic acid, reacts with the group-N-specific antiserum

The reaction between cell-surface components, isolated from two Lactococcus lactis subsp. cremoris strains, with their Group-specific antiserum were studied. No reaction between purified lipoteichoic acid and the antiserum was observed. Both strains, however, did belong to the lactococci (Group-N streptococci), as was demonstrated by the positive reaction between the antiserum and an acid- (Lancefield) or alkaline-extract. Experiments with proteolytic enzymes demonstrated the involvement of protein in the antigenic material in the latter reaction.     

Indications for post-translational regulation of Vitis vinifera L. arginine decarboxylase

In order to study arginine decarboxylase regulation, we produced an antiserum against a hybrid of a 615 amino acid residue fragment of grapevine arginine decarboxylase cDNA with maltose-binding protein. The antiserum generated recognized mainly a protein band of ca. 80 kDa in extracts from grapevine tissues. Extracts from leaves and internodes in different developmental stages showed differences in the quantity of the 80 kDa band recognized by the antiserum. However, these differences did not correspond with changes in arginine decarboxylase specific activity. Furthermore, western blot analysis of extracts from cell cultures, where enzyme-specific activity was induced or repressed, did not reveal respective changes in the quantity of the 80 kDa protein band. Digestion of the hybrid by the specific protease factor Xa resulted in a polypeptide of 90 kDa instead of the expected two polypeptides of 43 and 66 kDa. Finally, western blot analysis of shoot extract incubated with factor Xa or the hybrid protein previously digested by factor Xa revealed that factor Xa-digested hybrid protein cleaved the 80 kDa band, resulting in two bands of ca. 38 and 40 kDa, whereas factor Xa alone did not affect it. These results suggest that arginine decarboxylase protein levels and/or activity is post-translationally regulated, as has been shown for other enzymes of polyamine biosynthesis.     

Antibodies to the rat substance P receptor: production and characterization

1. A protein A-rat substance P receptor (SPR) fusion protein was genetically engineered and used as an immunogen to raise a polyclonal antiserum to the SPR. The fusion protein was expressed in Escherichia coli driven by the heat-inducible lambda promoter (lambda Pr). 2. The fusion protein was purified using an IgG-Sepharose column, which specifically binds proteins containing the protein A moiety. The IgG fraction obtained after the immunization was cleaved to produce Fab fragments, which were subsequently purified using a fusion protein affinity column. The serum (anti-SPR Fab serum) was analyzed by fluorescence-activated cell sorting (FACS) and immunohistochemistry on both a constitutive cell line for the SPR (AR42J) and a cell line transfected with the SPR (KNRKSPR). 3. Specificity of the antiserum for SPR was confirmed by immunohistochemistry on cells using antiserum that had been preincubated with the protein A fusion protein (blocked). 4. The Ca2+ signal normally observed on stimulation of SPR with SP in AR42J cells and SP binding to KNRKSPR cells was shown to be diminished in the presence of anti-SPR Fab serum. SPR from both cell lines was immunoprecipitated using the anti-SPR Fab serum. The antiserum itself did not induce intracellular Ca2+ mobilization normally observed when cells were incubated with SP. 5. This specific SPR antiserum will be a useful tool to investigate further the mechanisms of SP/SPR interactions.     

Opsonic activity of antisera to ribosomal vaccine fractions with live and formalinized Pseudomonas aeruginosa

The opsonic capacity of antisera to Pseudomonas aeruginosa ribosomal vaccine fractions was determined by a chemiluminescent technique. Antiserum to a vaccine fraction ("peak A") containing lipopolysaccharide (antiserum A), and antiserum to a vaccine fraction ("peak B"), which did not contain detectable amounts of lipopolysaccharide (antiserum B), were used to opsonify live or formalin-treated bacteria. Polymorphonuclear leukocytes were then stimulated by the opsonified bacteria in the presence of the chemiluminigenic probe, luminol, resulting in the observed chemiluminescence. The data obtained indicated that the antisera had comparable opsonic activity with live (untreated) bacteria. However, antiserum B had far less opsonic activity than did antiserum A when formalinized bacteria were used. Owing to the effects of formaldehyde on protein, these results were interpreted as evidence to suggest that the opsonic activities of the two antisera are dependent on different antigens on the bacterial cell surface. Antiserum A activity is probably dependent on lipopolysaccharide to a great extent, whereas antiserum B activity is most likely dependent primarily on a protein(s).     

Evidence of endogenous mono-ADP-ribosylation of cardiac proteins via anti-ADP-ribosylarginine immunoreactivity

Arginine-specific mono-ADP-ribosylation of proteins and arginine-specific mono-ADP-ribosyltransferase occur in heart. We developed a polyclonal antiserum, R-28, against ADP-ribosylpolyarginine that recognized mono-ADP-ribosylated proteins and identified the major mono-ADP-ribosylation products of quail heart. Treatment of Immobilon-bound ADP-ribosylated Gs protein with hydroxylamine under conditions that remove ADP-ribose from its arginines eliminated R-28 immunoreactivity to Gs. Also, R-28 immunoreactivity to quail heart proteins was removed by NaOH and phosphodiesterase I treatments. Similar treatment with mercuric chloride did not remove the immunoreactivity but did remove exogenously (via in vitro pertussis toxin treatment) added ADP-ribose from cysteine of cardiac Gi/Go proteins. The antiserum did not appear to react with ADP-ribosylasparagine of Rho (formed by C3 toxin), ADP-ribosyldiphthamide of elongation factor 2 (formed by diphtheria toxin) in quail heart preparations, or polyADP-ribosylated proteins of a neonate rat cardiac nuclear preparation. Thus, the R-28 antiserum appears to contain predominantly antibodies directed against ADP-ribosylarginine. To test the usefulness of R-28, immunoblotting of subcellular fractions of quail heart was performed. R-28 showed the greatest immunoreactivity in the sarcolemma with significant immunoreactivity in denser membrane fractions. The cytosol also contained an immunoreactive band distinct from those found in the membranes. Hydroxylamine treatment eliminated immunoreactivity in the sarcolemma and denser membrane fractions but not the cytosol, suggesting the membranous immunoreactive bands contain ADP-ribosylarginine. In conclusion, a polyclonal antiserum that recognizes ADP-ribosylarginine proteins has been raised. The usefulness of the antiserum is demonstrated by the characterization of endogenous arginine mono-ADP-ribosylation products in quail heart. The quail heart has several sarcolemmal and denser membrane fraction proteins that appear to be mono-ADP-ribosylated on arginines.     

Light-induced changes in the distribution of the 36000-Mr polypeptide of NADPH-protochlorophyllide oxidoreductase within different cellular compartments of barley (Hordeum vulgare L.)

Changes in the relative content of NADPH-protochlorophyllide oxidoreductase during the light-induced greening of barley plants were measured both in the total leaf extract as well as in intact and broken plastids. The enzyme protein was identified by its apparent molecular weight and its immunological crossreactivity with an antiserum directed against the NADPH-protochlorophyllide oxidoreductase. The monospecificity of the antiserum was tested by two different criteria: i. The antiserum was purified by affinity chromatography. ii. It was demonstrated that the antiserum crossreacts with only those polypeptides which appear to be enzymatically active. In the fraction of broken plastids isolated from leaves of briefly illuminated barley plants the concentration of the enzyme protein was reduced drastically. Our results indicate that this decrease in enzyme protein content is the consequence of an artificial proteolytic breakdown of the membrane-bound enzyme protein. In intact plastids and in the total leaf extract the concentration of the enzyme protein did not change dramatically during the first 4 to 6 h of illumination. However, when the exposure to continuous white light was extended further the concentration of the enzyme protein in intact plastids began to decline rapidly while in total leaf extracts the concentration remained almost constant for the next 10 h of light. These results indicate that part of the enzyme protein may be localized outside of the plastid compartment.Abbreviations RuBPCase ribulose-1,5-bisphosphate carboxylase - SDS sodium dodecyl sulfate     

Immunological identification of G protein alpha- and beta-subunits in tail membranes of bovine spermatozoa.

Heterotrimeric G proteins are believed to play important roles as signal transducing components in various mammalian sperm functions. To assess the distribution of G proteins in bovine sperm tails, we purified membranes by hypoosmotic swelling of bovine spermatozoa followed by disruption of plasma membranes in a homogenizer and various centrifugation steps. Electron microscopy revealed highly purified membranes of bovine sperm tails. Subsequently, antisera against synthetic peptides were used to identify G proteins in immunoblots. An antiserum directed against the C-terminal decapeptide of Gi3 and detecting all known pertussis toxin-sensitive alpha-subunits, reacted specifically with a 40-kDa protein. In contrast, various other specific peptide antisera against alpha-subunits did not detect any G protein in enriched tail membranes. An antiserum recognizing the beta 2-subunit of G proteins and an antiserum reacting with both beta 1- and beta 2-subunits identified a 35-kDa protein in sperm tail membranes. In contrast, antisera against the 36-kDa beta 1-subunit did not detect any relevant proteins in the membrane fraction. Neither G protein alpha-subunits nor G protein beta-subunits were found in the cytosol. Our results suggest that G proteins in membranes of tails of bovine spermatozoa most likely belong to a novel subtype of G protein alpha-subunits, whereas the putative beta-subunit could be identified as a beta 2-subunit.     

P2 Protein in Oligodendrocytes and Myelin of the Rabbit Central Nervous System

P2 protein, a myelin-specific protein, was detected immunocytochemically and biochemically in rabbit central nervous system (CNS) myelin. P2 protein was synthesized by rabbit oligodendrocytes and was present in varying amounts throughout the rabbit CNS. Comparison of P2 and myelin basic protein (MBP) stained sections revealed that P2 antiserum did not stain all myelin sheaths within the rabbit CNS. The proportion of myelin sheaths stained by P2 antiserum and the amount of P2 detected biochemically were greater in more caudal regions of the rabbit CNS. The highest concentration of P2 protein was found in rabbit spinal cord myelin, where P2 antiserum stained the majority of myelin sheaths. P2 protein was barely detectable biochemically in myelin isolated from frontal cortex, and in sections of frontal cortex only occasional myelin sheaths reacted with P2 antiserum. These results suggest the the regional variations in the amount of P2 protein are dut to regional differences in the number of myelin sheaths that contain P2 protein. P2 protein was detected immunocytochemically and biochemically in rabbit sciatic nerve myelin. Immunocytochemically, P2 antiserum only stained a portion of the myelin sheaths present. The myelin sheaths not reacting with P2 antiserum had small diameters and represented less than 10% of the total myelinated fibers.     

Immunohistochemical localization of a low molecular weight,soluble protein from bovine lingual epithelium

Summary A low molecular weight (LMW) protein was isolated from bovine tongue epithelium and an antiserum to this protein elicited in rabbits. The indirect peroxidase-antiperoxidase (PAP) technique was used to localize LMW protein in several tissues from six mammalian species: cow, rat, mouse, squirrel, rabbit, and man. Immunoreactivity was demonstrable in stratified squamous epithelia from skin, tongue, cheek, esophagus, vagina, and palate. Epidermal derivatives, such as hair follicles, sebaceous glands and ducts of certain glands were also positively stained. Cornea exhibited weak immunoreactivity as did rabbit bladder. Other types of epithelia including those seen in kidney, thyroid, intestine, trachea, liver, submandibular gland, pancreas and uterus, were not immunoreactive when tested with antiserum to LMW protein. The antiserum was rendered unreactive after absorption with LMW protein but, when absorbed with a keratin polypeptide, most of the immunoreactivity was preserved. It is concluded that the distribution of the soluble LMW protein is similar to that of the insoluble keratin proteins in stratified squamous epithelia but the former is not demonstrable in many simple epithelia that contain keratinsSupported by Grant # DE-03934 from the National Institutes of Health     

The varicella-zoster virus immediate-early protein IE62 is a major component of virus particles.

Varicella-zoster virus (VZV) open reading frame (ORF) 62 potentially encodes a protein with considerable amino acid homology to the herpes simplex virus (HSV) immediate-early regulatory polypeptide ICP4 (or IE3). To identify and characterize its protein product(s) (IE62), we used a rabbit antiserum prepared against a synthetic peptide corresponding to the C-terminal 13 amino acids of the predicted protein. This antiserum reacted with phosphorylated polypeptides of 175 to 180 kDa that were made in VZV-infected cells and in cells infected with a vaccinia virus recombinant expressing IE62, but not in control-infected cells, confirming its specificity and reactivity to the IE62 protein. The antiserum recognized a 175-kDa polypeptide in purified virions that comigrated with a major structural protein. Comparison of this reactivity with that of an antipeptide antiserum directed against the VZV ORF 10 product (homologous to the HSV major structural protein VP16) indicates similar levels of ORF 62 and ORF 10 polypeptides in VZV virions. In contrast, antipeptide antiserum directed against the VZV ORF 29 product, the homolog of the HSV major DNA-binding protein, failed to recognize any protein in our virion preparations. Treatment of virions with detergents that disrupt the virion envelope did not dissociate IE62 from the nucleocapsid-tegument structure of the virion. Differential sensitivity of VZV virion IE62 to trypsin digestion in the presence or absence of Triton X-100 indicates that IE62 is protected from trypsin degradation by the virus envelope; since it is not a nucleocapsid protein, we conclude that it is part of the tegument. Finally, we show that the virion 175-kDa protein either can autophosphorylate or is a major substrate in vitro for virion-associated protein kinase activity.     

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.     

The major protein of bull seminal plasma is a secretory product of seminal vesicle

We isolated the major protein with apparent molecular weight, Mr, 15,000-16,000 from seminal plasma as well as from seminal vesicle secretion of bull and proved by amino acid analysis and tryptic peptide mapping that the two proteins were identical. An antiserum against this major protein was employed to quantitate and identify the major protein in seminal plasma as well as in seminal vesicle secretion. The antiserum did not cross-react with proteins from bovine or human plasma or follicular fluid, respectively. Cell-free translation of poly(A+)RNA isolated from seminal vesicle tissue resulted in formation of one major species with apparent Mr 18,000. Using the anti-major protein antiserum, this major species was specifically immuno absorbed. We thus provided evidence that the major protein component of bull seminal plasma is a secretory protein of seminal vesicles. Furthermore, it appeared that the isolated major protein may be closely related to the protein PDC109, purified from bull seminal plasma and sequenced by Esch et al. (Biochem. Biophys. Res. Commun. 113, 861-867 (1983).     

Production of polyclonal antiserum specific to the 27.5 kDa envelope protein of white spot syndrome virus

A truncated version of the white spot syndrome virus (WSSV) 27.5 kDa envelope protein was expressed as a histidine tag fusion protein in Escherichia coli. The bacterial expression system allowed the production of up to 10 mg of purified recombinant protein per liter of bacterial culture. Antiserum from a rabbit immunized with the recombinant protein recognized the 27.5 kDa viral envelope protein of WSSV isolated from different geographic regions. The antiserum did not recognize any of the other known WSSV structural proteins. A sensitive immunodot assay for WSSV was developed using the specific rabbit polyclonal antiserum.     

Increased content of mRNA for a precursor of S-adenosylmethionine decarboxylase in rat prostate after treatment with 2-difluoromethylornithine

Total poly(A)-containing mRNA was isolated from rat ventral prostate and translated in a reticulocyte lysate system. The proteins corresponding to S-adenosylmethionine decarboxylase were precipitated with a specific antiserum to this protein. Two proteins were found; one having an Mr of 32,000, which corresponded to the subunit of this enzyme, and a larger protein of Mr 37,000. Immunopurification of polysomes with the antiserum to S-adenosylmethionine decarboxylase followed by mRNA extraction yielded an mRNA preparation which was 10-30% pure mRNA for S-adenosylmethionine decarboxylase. The translation of this mRNA showed clearly that the protein of Mr 37,000 was a precursor of the Mr 32,000 S-adenosylmethionine decarboxylase subunit. Treatment with 2-difluoromethylornithine, which depletes cellular spermidine and is known to increase the content of S-adenosylmethionine decarboxylase protein, led to a 9-fold increase in the content of its mRNA, but treatment with methylglyoxal bis(guanylhydrazone) did not change the mRNA content.     

艾氏腹水癌患鼠腹水中一种高分子量DNA结合蛋白的分离

 本文利用免疫吸收法和免疫亲和层析法,从艾氏腹水癌患鼠腹水DNA结合蛋白中,分离得到了一种高分子量DNA结合蛋白。在免疫双扩散反应中,它与抗艾氏腹水癌患鼠血清DNA结合蛋白的兎抗血清反应形成一条沉淀线,但与正常小鼠血清DNA结合蛋白的兎抗血清不形成沉淀线。该DNA结合蛋白样品用2-巯基乙醇还原后,经SDC-PAGE分析,测得其分子量约为41000。     

Characterization of polyclonal antibodies to cell-surface antigens from ovine adipose tissue.

High titres of polyclonal antibodies to specific proteins of ovine adipose tissue plasma membranes were raised in horses and chickens following repeated injections of purified plasma membranes. Horse antiserum was highly species specific, reacting only weakly with rat adipose tissue plasma membranes. A protein of molecular weight 68,000 was most antigenic in that it was readily precipitated; however proteins of 25,000, 82,000 and 94,000 were also precipitated when the reaction was performed for longer with a higher antiserum concentration. Chicken egg yolk IgY reacted strongly with ovine adipose tissue plasma membranes as did those preparations from horse, but IgY was ineffective in immunoprecipitating solubilized membrane proteins and exhibited no cytotoxic reaction when incubated with intact ovine adipocytes. However, horse antiserum produced a strong complement-dependent cytotoxic reaction with ovine adipocytes, as measured by leakage of lactate dehydrogenase. This work suggests that the membrane protein of molecular weight 68,000 is likely to be an important antigenic marker for ovine adipocytes.     

Identification of both Gi2 and a novel, immunologically distinct, form of Go in rat myometrial membranes

Immunoblotting of rat myometrial membranes with an antiserum (SG1) which recognizes the alpha-subunits of both Gi1 and Gi2 indicated the presence of detectable levels of an apparently single form of some 40 kDa. A second antiserum (LE2) specific for Gi2 also recognized this protein, confirming its identity. Immunoblotting of the myometrial membranes with a series of antipeptide (OC1, IM1, ON1) and polyclonal (RV3) antisera, all of which recognize rat brain Go, produced a more complex pattern. Antisera OC1 and ON1 recognized a single polypeptide which essentially comigrated with rat brain Go. In contrast, antisera RV3 and IM1 did not recognize the myometrial protein. These data provide evidence for the presence of Gi2 and of a novel G-protein, related immunologically to Go, in rat myometrial membranes.     

Phosphate-starvation-induced outer membrane proteins of members of the families Enterobacteriaceae and Pseudomonodaceae: demonstration of immunological cross-reactivity with an antiserum specific for porin protein P of Pseudomonas aeruginosa

Bacteria from members of the families Enterobacteriaceae and Pseudomonadaceae were grown under phosphate-deficient (0.1 to 0.2 mM Pi) conditions and examined for the production of novel membrane proteins. Of the 17 strains examined, 12 expressed a phosphate-starvation-induced outer membrane protein which was heat modifiable in that after solubilization in sodium dodecyl sulfate at low temperature the protein ran on gels as a diffuse band of higher apparent molecular weight, presumably an oligomer form, which shifted to an apparent monomer form after solubilization at high temperature. These proteins fell into two classes based on their monomer molecular weights and the detergent conditions required to release the proteins from the peptidoglycan. The first class, expressed by species of the Pseudomonas fluorescens branch of the family Pseudomonadaceae, was similar to the phosphate-starvation-inducible, channel-forming protein P of Pseudomonas aeruginosa. The second class resembled the major enterobacterial porin proteins and the phosphate-regulated PhoE protein of Escherichia coli. Using a protein P-trimer-specific polyclonal antiserum, we were able to demonstrate cross-reactivity of the oligomeric forms of both classes of these proteins on Western blots. However, this antiserum did not react with the monomeric forms of any of these proteins, including protein P monomers. With a protein P-monomer-specific antiserum, no reactivity was seen with any of the phosphate-starvation-inducible membrane proteins (in either oligomeric or monomeric form), with the exception of protein P monomers. These results suggest the presence of conserved antigenic determinants only in the native, functional proteins.