Purification and characterization of a fatty-acid-binding protein from the gastric mucosa of rats. Possible identity with heart fatty-acid-binding protein and its parietal cell localization

Fatty acid-binding protein (FABP) was purified from rat gastric mucosa by successive Sephadex G-75 chromatography, DEAE-cellulose chromatography and HPLC on an RP-2 (Merck) reversed-phase column. The purified stomach FABP migrated as a single band corresponding to an apparent molecular mass of 15 kDa on SDS/PAGE. Stomach FABP appeared to be identical with rat heart FABP, as judged from its electrophoretic mobility, amino acid composition and tryptic peptide map. In addition, the amino acid sequences of two selected tryptic peptides coincided completely with the rat heart FABP sequence deduced from that of cDNA. Stomach FABP showed immunochemical identity with rat heart FABP when tested with an antiserum against rat heart FABP. Immunohistochemically, stomach FABP was specifically stained with anti-(rat heart FABP) serum in parietal cells of the gastric mucosa. The results suggested that the primary structure of stomach FABP is identical with that of rat heart FABP, and showed that stomach FABP is localized in parietal cells of the gastric mucosa.     

The human leucocyte antigen CD48 (MEM-102) is closely related to the activation marker Blast-1

The glycosyl phosphatidylinositol (GPI)-linked antigen recognized by monoclonal antibody (mAb) MEM-102 is expressed on all peripheral blood lymphocytes, both resting and activated. Its properties are very similar to a previously described activation antigen, Blast-1. The amino acid sequence deduced from the structure of cloned cDNA is identical to that of the Blast-1 antigen except for a single amino acid residue. There are several other minor differences in the nucleotide sequence of the Blast-1 and MEM-102 cDNAs that do not affect the predicted structure of the polypeptide product. The amino acid sequence of the first 15 N-terminal residues of the antigen purified from Raji cells is found in the deduced sequence close to the presumed boundary between the leader peptide and mature polypeptide. Properties of the recombinant product expressed in COS cells are similar to the antigen isolated from peripheral blood mononuclear cells (PBMNCs) or B-and T-cells lines. The antigen purified on immobilized mAb MEM-102 is recognized by all six known CD48 mAbs under western blotting conditions. COS cells transfected with MEM-102 cDNA react with all the CD48 mAbs. It is concluded that mAb MEM-102 is directed against the as yet poorly characterized antigen CD48, which is therefore structurally closely related to Blast-1. Several possibilities are discussed that might account for the apparent discrepancy between the broad pan-leucocyte expression of the MEM-102/CD48 antigen and much more restricted expression of the epitope recognized by the previously described mAb defining the Blast-1 antigen.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession number M 37766.     

Primary structure and cellular distribution of two fatty acid-binding proteins in adult rat kidneys

Fatty acid-binding proteins (FABPs) were purified from the kidneys of female and male rats and characterized by primary structure and histological distribution in the kidney. Two FABPs (14 and 15.5 kDa) were found in male rat kidney cytosol whereas only 14-kDa FABP could be recognized in female rat kidneys throughout the purification steps. The amino acid sequence of the 14-kDa FABP was identical to that of rat heart FABP deduced from the cDNA sequence (Heuckeroth, R. O., Birkenmeier, E. H., Levin, M. S., and Gordon, J. I. (1987) J. Biol. Chem. 262, 9709-9717). Structural analysis of the male-specific 15.5-kDa FABP identified this second FABP as a proteolytically modified form of alpha 2u-globulin, an 18.7-kDa major urinary protein of adult male rats (Unterman, R. D., Lynch, K. R., Nakhasi, H. L., dolan, K. P., Hamilton, J. W., Cohn, D. V., and Feigelson, P. (1981) Proc. Natl. Acad. Sci. U.S.A. 78, 3478-3482) which shares a common ancestry with a number of hydrophobic ligand-binding proteins such as serum retinol-binding proteins. Immunohistochemical investigation disclosed that heart-type FABP (14-kDa FABP) is localized in the cytoplasm of the epithelia of the distal tubules in both male and female rat kidneys whereas 15.5-kDa FABP immunostaining was observed predominantly in the endosomes or lysosomes of proximal tubules in male rat kidneys. These results suggest strongly the functional divergence of two FABPs in the rat kidney.     

Properties and differential regulation of two fatty acid binding proteins in the rat kidney

A protein from rat kidney was characterized that had several properties common to a multigene family of fatty acid binding proteins identified in other tissues. The putative kidney fatty acid binding protein (FABP) was purified from the soluble fraction of kidney homogenates using gel filtration and ion exchange chromatography. It was relatively abundant, had an apparent molecular mass of 15.5 kDa as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, bound equimolar amounts of oleic acid, and could be distinguished from other FABPs on the basis of size, amino acid composition, and tissue distribution. Polyclonal antibodies to kidney FABP were obtained and used to show that only kidney contained the 15.5-kDa protein, although the antibodies also recognized a slightly larger and less abundant protein in kidney that also was present in bladder. Rat kidney also contained heart FABP, and the properties of both FABPs in rat kidney were compared. The distribution of both proteins within the kidney differed, with kidney FABP being localized almost exclusively within the cortex, whereas heart FABP was found both in cortex and medulla. Kidney FABP was expressed developmentally after the neonatal period, whereas heart FABP was present in both neonatal and adult kidney at comparable amounts. Hypertension induced by mineralocorticoids or infusion of angiotensin II caused a marked suppression of kidney FABP expression, whereas amounts of heart FABP in kidney were unchanged. The studies showed that rat kidney contains at least two FABPs, and that these proteins are differentially regulated, suggesting that functional differences between the proteins may exist.     

Structural and immunological characterization of a linear virus-neutralizing epitope of the rabies virus glycoprotein and its possible use in a synthetic vaccine.

We have mapped a linear epitope recognized by the virus-neutralizing monoclonal antibody 6-15C4 within the primary sequence of the G protein from the Evelyn-Rokitnicki-Abelseth strain of rabies virus. This was accomplished by using fragments of the rabies virus G protein and deduced amino acid sequences of neutralization-resistant variant rabies viruses. The monoclonal antibody 6-15C4 specifically recognized a synthetic peptide (peptide G5-24) which resembles the 6-15C4 epitope in structure. In addition, a tandem peptide constructed from the G5-24 peptide and a dominant TH cell epitope of the rabies virus N protein induced protective immunity against lethal rabies virus challenge infection in mice.     

A monoclonal antibody, 3A10, recognizes a specific amino acid sequence present on a series of developmentally expressed brain proteins

Immunoblotting showed that a monoclonal antibody, 3A10, binds to a series of rat brain-specific antigens with molecular masses of 150-, 120-, 118-, 106-, 104-, 79-, and 77-kDa. The expression of 3A10 antigens is dependent on the developmental stage of the brain; only the 106-kDa antigen is detected during embryonic stages of rat brain development, while the expression of the remaining 6 antigens starts after birth and reaches a maximum during postnatal days 15-21. Detection of the 3A10 antigens in cultured neuronal and glial cells derived from cerebral cortices of rat brain at embryonic day 18 showed that the 77-, 79-, 106-, and 150-kDa antigens are specifically expressed in neuronal cells. The 77-kDa antigen was purified and identified as synapsin I by amino acid sequence analyses of the peptide fragments isolated after Achromobacter protease I treatment. During the isolation of 3A10-reactive proteins by immunological screening of cDNA libraries constructed from adult rat brain, we found that all of the 3A10-reactive clones contain nucleotide sequences encoding the unique amino acid sequence TRSP(S, R,G)P. Analyses of 3A10-binding to various synthetic peptides showed that the monoclonal antibody recognizes a specific conformational structure formed by either the TRSPXP sequence or similar amino acid sequences that are expressed on a series of developmentally expressed brain proteins.     

Antibodies Raised Against Synthetic Peptides React with Choline Acetyltransferase in Various Immunoassays and in Immunohistochemistry

Abstract: Antisera were raised in rabbits against five synthetic peptides. These peptides have been identified as potentially antigenic epitopes from the sequence of porcine choline acetyltransferase (ChAT) using primary and secondary structure analysis. All five antisera recognized immunoaffinity-purified antigen from porcine brain in an ELISA and on western blots. Four antisera recognized ChAT on dot blots, and another four antisera reacted with native and degraded enzyme in a sandwich ELISA using monoclonal antibodies as the capture antibody. One peptide antiserum was of similar avidity in this sandwich ELISA as a polyclonal antibody raised against immunoaffinity-purified ChAT. The same antiserum reacted with the enzyme from human placenta in an ELISA and on western and dot blots and recognized ChAT in rat, primate, and human neurons. Thus, a single peptide (amino acids 168- 189) provides the means for easy, reliable, and reproducible generation of antibodies against ChAT suitable for replacing conventional polyclonal and monoclonal antibodies.     

Purification of the murine heat-stable antigen from erythrocytes.

The rat anti-mouse erythrocyte (MRBC) monoclonal antibody (mAb), R13, has been developed. The MRBC membrane protein recognized by R13 (R13-Ag) can be purified by loading the butanol-extracted MRBC membrane solution on a R13-conjugated Cellulofine column in the presence of 0.1% CHAPS followed by elution with 1% CHAPS. The amino acid sequence of the affinity-purified R13-Ag corresponded to that predicted from the cDNA for the murine heat-stable antigen. It was revealed that the actual heat-stable antigen was composed of 27 amino acids.     

Human liver fatty acid binding protein cDNA and amino acid sequence. Functional and evolutionary implications

Human liver fatty acid binding protein (L-FABP) cDNA clones were identified in a liver cDNA library. The two longest clones were completely sequenced. The nucleotide sequence predicts a protein of 127 amino acid residues. Identity of the clones was confirmed by limited amino acid sequence analysis of purified human L-FABP peptides and Edman degradation of radiolabeled in vitro translated FABP. Statistical analysis of the amino acid and mRNA sequences of human L-FABP, rat L-FABP, rat intestinal (I-) FABP, and mouse 422 protein indicates that the human and rat L-FABPs are highly homologous and that L-FABP and I-FABP diverged a long time ago (approximately 650-690 million years ago), although they are more closely related to each other than either of them is to 422 protein. Secondary structure predictions from the primary sequence of human and rat L-FABP reveal a region (residues 12-30) that might be the putative fatty acid binding domain of the two L-FABPs. Knowledge of the primary amino acid sequence of L-FABP and possible functional domains will be pivotal in further defining and understanding the mechanism of ligand binding and transfer by this protein.     

Fatty-acid-binding protein from bovine brain. Amino acid sequence and some properties

A fatty-acid-binding protein (FABP) from the cytosol of bovine brain was purified by Sephadex G-75 filtration and electrofocusing. The purified FABP behaved as an anionic protein with an apparent molecular mass of 14.7 kDa; its complete amino acid sequence was determined and microheterogeneity was observed. Sequence comparison with other FABPs of known sequence and the observed microheterogeneity demonstrated the presence in brain of several homologous FABPs closely related to heart FABP and bovine mammary-derived growth inhibitor (MDGI).     

Comparative analysis of core amino acid residues of H-2D(b)-restricted cytotoxic T-lymphocyte recognition epitopes in simian virus 40 T antigen.

Simian virus 40 (SV40) tumor (T) antigen expressed in H-2b SV40-transformed cells induces the generation of Lyt-2+ (CD8+) cytotoxic T lymphocytes (CTL), which are involved in tumor rejection, in syngeneic mice. Five CTL recognition sites on T antigen have been described by using mutant T antigens. Four of the sites (I, II, III, and V) are H-2Db restricted and have been broadly mapped with synthetic peptides of 15 amino acids in length overlapping by 5 residues at the amino and carboxy termini. The goal of this study was to define the minimal and optimal amino acid sequences of T antigen which would serve as recognition elements for the H-2Db-restricted CTL clones Y-1, Y-2, Y-3, and Y-5, which recognizes sites I, II, III, and V, respectively. The minimal and optimal residues of T antigen recognized by the four CTL clones were determined by using synthetic peptides truncated at the amino or carboxy terminus and an H-2Db peptide-binding motif. The minimal site recognized by CTL clone Y-1 was defined as amino acids 207 to 215 of SV40 T antigen. However, the optimal sequence recognized by CTL clone Y-1 spanned T-antigen amino acids 205 to 215. The T-antigen peptide sequence LT223-231 was the optimal and minimal sequence recognized by both CTL clones Y-2 and Y-3. Site V was determined to be contained within amino acids 489 to 497 of T antigen. The lytic activities of CTL clones Y-2 and Y-3, which recognize a single nonamer peptide, LT223-231, were affected differently by anti-Lyt-2 antibody, suggesting that the T-cell receptors of these two CTL clones differ in their avidities. As the minimal and optimal H-2Db-restricted CTL recognition sites have been defined by nonamer synthetic peptides, it is now possible to search for naturally processed H-2Db-restricted epitopes of T antigen and identify critical residues involved in processing, presentation, and recognition by SV40-specific CTL.     

Amino acid sequence and some ligand binding properties of fatty acid-binding protein from bovine brain

Summary A fatty acid-binding protein (FABP) from the cytosol of bovine brain was purified by Sephadex G-75 filtration and electrofocusing. The purified protein migrated as a single protein band in 15% polyacrylamide gel electrophoresis with an apparent molecular mass of 14.7 kDa. To ascertain that the purified protein was a FABP, it was submitted to fatty acid-binding tests. Oleic and palmitic acids bound to brain FABP but this was not the case for palmitoyl CoA. By Scatchard analysis the ligand binding values were: Kd = 0.28 µM, Bmax (mol/mol) = 0.6 for oleic acid and Kd = 0.8 µM, Bmax (mol/mol) = 2.1 for palmitic acid. The complete amino acid sequence of the brain FABP was determined and a microheterogeneity was observed. Sequence comparison with other FABPs of known sequence and the observed microheterogeneity demonstrated the presence in brain of several homologous FABPs closely related to heart FABP.This paper corresponds to a communication at the first international workshop on fatty acid binding proteins (Maastricht, the Netherlands, September 4–5, 1989).     

Identification of proctolin in the central nervous system of the horseshoe crab, Limulus polyphemus

A proctolin-like peptide was isolated from the prosomal CNS of the chelicerate arthropod, Limulus, and purified using size exclusion, ion exchange and high performance liquid chromatography. Coincident bioassay (cockroach hindgut) and radioimmunoassay were employed to identify fractions which contained proctolin-like material. Proctolin-like activity coeluted with synthetic proctolin with all three chromatographic techniques employed. When applied to either the Limulus heart or hindgut preparations, purified Limulus proctolin produced excitatory responses which were indistinguishable from those produced by the synthetic peptide. Purified samples of the Limulus proctolin-like peptide were subjected to Edman degradation and tandem mass spectrometry and the amino acid sequence of the Limulus peptide was determined to be identical to that of cockroach proctolin (H-Arg-Tyr-Leu-Pro-Thr-OH). The presence of proctolin in the Limulus CNS and its biological action on the isolated heart and hindgut suggest a physiological role for this peptide in the regulation of cardiac output and hindgut motility.     

一株抗蓝舌病病毒8型VP2蛋白单克隆抗体识别的线性抗原表位的鉴定

为研究本实验室制备的一株抗蓝舌病病毒8型(BTV-8)VP2蛋白的单克隆抗体(MAb)3G11识别的B细胞抗原表位,利用噬菌体肽库展示技术对3G11识别的抗原表位进行筛选并鉴定。经过4轮淘选后挑取蓝斑测序,测序结果经分析后获得KLLAT序列,与BTV-8 VP2蛋白氨基酸序列比对后获得共同的短肽序列为283LL284;合成4种短肽序列:KLLAA、KALAT、KLAAT和KLLAT,与3G11细胞上清和腹水分别进行间接ELISA鉴定,结果表明,短肽KLLAA和KLLAT与3G11细胞上清及腹水具有较强的结合能力;与24种BTV标准阳性血清反应结果表明,这两种短肽都可与BTV-8阳性血清发生特异性反应;序列分析结果可见,该表位的氨基酸序列283LL284在不同来源的BTV-8毒株间保守,确定283LL284为MAb3G11识别抗原表位的关键氨基酸。本研究为建立8型BTV特异性的免疫学检测方法和相关病毒蛋白的功能研究奠定了基础。     

Development and characterization of cholinephosphotransferase antibody

In the present study, we generated antibodies in rabbits against two synthetic peptides, one based on peptide sequence from yeast CPT cDNA (position 86 to 98 of the amino acid sequence) and the other from our guinea pig CPT cDNA (it corresponds to amino acid positions 119 to 130 according to yeast CPT gene). The antibody titers were measured by both dot blot analysis and ELISA using Keyhole limpets hemocyanin coupled CPT peptides. The CPT antibody recognized a single band by Western blot analysis of proteins from guinea pig liver mitochondria and microsomes. The molecular weight of the protein recognized by Western blot analysis is close to the predicted molecular weight (46 kDa) of yeast CPT. Further analysis revealed that the antibody inhibited CPT activity in both subcellular fractions in a dose dependent manner, thus confirming the specificity of the antibody against both subcellular CPT.     

The primary structure of fatty-acid-binding protein from nurse shark liver. Structural and evolutionary relationship to the mammalian fatty-acid-binding protein family.

The primary structure of a fatty-acid-binding protein (FABP) isolated from the liver of the nurse shark (Ginglymostoma cirratum) was determined by high-performance tandem mass spectrometry (employing multichannel array detection) and Edman degradation. Shark liver FABP consists of 132 amino acids with an acetylated N-terminal valine. The chemical molecular mass of the intact protein determined by electrospray ionization mass spectrometry (Mr = 15124 +/- 2.5) was in good agreement with that calculated from the amino acid sequence (Mr = 15121.3). The amino acid sequence of shark liver FABP displays significantly greater similarity to the FABP expressed in mammalian heart, peripheral nerve myelin and adipose tissue (61-53% sequence similarity) than to the FABP expressed in mammalian liver (22% similarity). Phylogenetic trees derived from the comparison of the shark liver FABP amino acid sequence with the members of the mammalian fatty-acid/retinoid-binding protein gene family indicate the initial divergence of an ancestral gene into two major subfamilies: one comprising the genes for mammalian liver FABP and gastrotropin, the other comprising the genes for mammalian cellular retinol-binding proteins I and II, cellular retinoic-acid-binding protein myelin P2 protein, adipocyte FABP, heart FABP and shark liver FABP, the latter having diverged from the ancestral gene that ultimately gave rise to the present day mammalian heart-FABP, adipocyte FABP and myelin P2 protein sequences. The sequence for intestinal FABP from the rat could be assigned to either subfamily, depending on the approach used for phylogenetic tree construction, but clearly diverged at a relatively early evolutionary time point. Indeed, sequences proximately ancestral or closely related to mammalian intestinal FABP, liver FABP, gastrotropin and the retinoid-binding group of proteins appear to have arisen prior to the divergence of shark liver FABP and should therefore also be present in elasmobranchs. The presence in shark liver of an FABP which differs substantially in primary structure from mammalian liver FABP, while being closely related to the FABP expressed in mammalian heart muscle, peripheral nerve myelin and adipocytes, opens a further dimension regarding the question of the existence of structure-dependent and tissue-specific specialization of FABP function in lipid metabolism.     

Monoclonal antibodies distinguish synthetic peptides that differ in one chemical group

By using human calcitonin (hCT), human calcitonin-gene-related peptide (hCGRP), and a synthetic peptide with a sequence analogous to the 34 C-terminal amino acids of human preprocalcitonin (designated as PQN-34) as haptens in the generation of monoclonal antibodies, we assessed the role of amido and amino groups in paratope-epitope binding. By using peptide inhibition experiments and solid-phase immunoassays, monoclonal anti-hCT antibody CT07 and monoclonal anti-hCGRP antibody CGR01 were found to bind to an antigenic determinant located in the C-terminal segment of the hormones. These epitopes comprise the seven C-terminal amino acids of the hormones, and the presence of the hormone-ending carboxamide group was found to be essential for antibody binding. The corresponding heptapeptides, either bearing a carboxyl group or else linked to a glycine residue at their C-terminal part, failed to react with the antibodies. Moreover, these monoclonal antibodies did not bind to synthetic peptides analogous to the C-terminal region of the hormone precursor molecules that comprised the epitope site flanked by a peptide sequence. In an attempt to assess whether amido groups when present on the side-chain of amino acids may also modulate antibody binding, a monoclonal antibody referred to as QPO1 was produced and was found to recognize an antigenic determinant localized in the N-terminal region of the PQN-34 peptide bearing a glutamine residue as the N-terminal amino acid. The epitope was found to correspond to a topographic assembled site, and binding of QPO1 was found to be substantially dependent on the presence of the free amino and the side-chain amido groups borne by the N-terminal glutamine residue of this peptide PQN-34. In contrast to these findings, an antigenic determinant located in the internal sequence of calcitonin and recognized by monoclonal anti-hCT antibody CT08 was found to be expressed on the mature form of the hormone, as well as on synthetic peptides with sequence mimicking that of preprocalcitonin. These data should guide the choice of synthetic peptide haptens for the production of anti-protein antibodies.     

Practical utility of an antibody specific to a synthetic peptide corresponding to the N-terminal amino acid sequence of human urine DNAse I for genetic analysis of human DNase I isozymes

An antibody specific to a synthetic peptide corresponding to the N-terminal 27 amino acid residues of human urine DNase I (anti-DNase I peptide) was obtained. The antibody did not inhibit the activity of the enzyme, but reacted well with the enzyme upon immunoblotting following electrophoresis. The urine DNase I isozyme patterns detected using this antibody were almost identical to those produced with an antibody specific to purified DNase I. Therefore, the anti-DNase I peptide antibody should prove to be valuable for genetic analysis of human DNase I isozymes.