A new, general method of immunoassay is demonstrated. The approach is based on the microscale immunoaffinity capture of target antigens followed by mass-specific identification and quantitation using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Immunoaffinity capture of antigens effectively overcomes signal suppression effects typically encountered during traditional matrix-assisted laser desorption/ionization analysis of complex biological mixtures while simultaneously concentrating the analyte into a small volume. Mass spectrometric detection of antigens is unambiguous, as antigen signals are observed at characteristic mass-to-charge values in the mass spectrum, offering a high level of immunity to artifacts due to nonbiospecific retention of mixture components. However, the most important aspect of such mass-specific detection is the ability to use a single assay to screen biological systems for the presence of multiple, mass-resolved antigens. Analyte quantitation is possible by using a single antibody to capture both the antigen and an antigen variant which has been chemically modified to have a different mass. With proper calibration, the relative signal intensities of the two species in the mass spectrum can be used to determine the antigen concentration. Sample incubation and processing methods were such that a typical analysis could be performed in less than 1 h while subnanomolar sensitivities were maintained. The technique has been used for the rapid, selective, and quantitative screening of human blood for the presence of myotoxin a, and Mojave toxin form the venoms of the prairie rattlesnakes, Crotalus viridis viridis, and and the Mojave rattlesnake, Crotalus scutulatus scutulatus.
Previously, we demonstrated that a protein from Xenopus egg jelly exhibits sperm chemoattractant activity when assayed by either video microscopy or by sperm passage across a porous filter. Here we describe the isolation and purification of allurin, the protein responsible for this activity. Freshly oviposited jellied eggs were soaked in buffer, and the conditioned medium was loaded onto an anion exchange column and eluted with an NaCl gradient. The active fraction was purified further by RP-HPLC, the chemoattractant protein appearing as a single sharp peak. The amino acid sequence of the protein, determined by direct sequencing and cloning of cDNAs coding for the protein, consisted of 184 amino acids having a molecular mass of 21,073 Da. The protein shares homology with the mammalian cysteine-rich secretory protein (CRISP) family that includes testes-specific spermatocyte protein 1, a cell adhesion protein which links spermatocytes to Seritoli cells, and acidic epididymal glycoproteins that bind to sperm and have been implicated in sperm-egg fusion. Phylogenetic analysis suggests that allurin evolved from the ancestral protein that gave rise to the mammalian CRISP family. Addition of allurin to this family portends that the CRISP family represents a group of ''sperm escort'' proteins, which bind to sperm at various steps in their life history, facilitating passage from one functional stage to the next. Allurin stands out in this regard, representing both the first vertebrate sperm chemoattractant to be purified and sequenced and the first member of the CRISP family to be found in the female reproductive tract. sperm chemotaxis ͉ fertilization ͉ TPX-1 ͉ AEG ͉ CRISP
Genes for 51.4- and 41.9-kDa insecticidal proteins of Bacillus sphaericus were separately cloned and expressed in Escherichia coli. Both proteins were required for toxicity. Approximately equal numbers of cells containing the 51.4- and 41.9-kDa proteins produced the greatest toxicity; excess 41.9-kDa protein did not affect toxicity, whereas excess 51.4-kDa protein reduced activity. Larvae were killed when 41.9-kDa protein was fed up to 24 h after the 51.4-kDa protein, but not when the order of feeding was reversed. Radiolabelled toxins bound in approximately equal amounts to the gastric caecum and posterior midgut of Culex quinquefasciatus larvae. Radiolabelled 51.4-kDa protein was rapidly degraded by ca. 12-13 kDa in the larval gut, while 41.9-kDa protein was degraded by 1-2 kDa. Nonreduced toxin extracted from B. sphaericus produced a band on SDS-PAGE of ca. 68-74 kDa that contained both 51.4- and 41.9-kDa proteins based on sequence analysis, and a band of ca. 51 kDa that contained primarily 41.9-kDa protein. Escherichia coli containing 51.4-kDa protein enhanced toxicity of the latter eluted SDS-PAGE band. These proteins may associate very strongly, and trace amounts of 51.4-kDa protein in preparations of 41.9-kDa protein from B. sphaericus may be responsible for the previously reported toxicity of the latter.
A new myotoxic phospholipase Az homologue, having a serine residue in position 49 instead of highly conserved aspartic acid, was found in the venom of Vipevu ummodytes. The primary structure revealed additional mutations in the positions important for enzymatic activity. Tyr28 is exchanged for a histidine and Gly33 for asparagine. These changes render earlier-reported weak enzymatic activity unlikely. The role of this rather abundant venom fraction is apparently in myotoxicity, which was confirmed in the muscle-cell culture from neonatal rats. The muscle-cell culture proved to be a good tool to investigate the effects of various myotoxins on muscle cells. MATERIALS AND METHODS Protein sequencingAmmodytin L, formerly designated as venom fraction 1, was isolated as described [lo, 111. For the primary structure determination, Applied Biosystems gas-phase sequencer, model470A, connected on-line to a model 120A phenylthiohydantoin (PTH)-amino acid analyser was used. Cys residues were alkylated with radioactive [3H]iodoacetic acid (Amersham) and determined as cdrboxymethyl-PTH derivatives on reverse-phase HPLC and by radioactive detection on a Beckmann LSlOOC fl-counter. 1-Chloro-3-tosylamido-4-phenyl-butan-2-one-treated (TPCK) trypsin was obtained from Sigma. Endoproteinase Lys-C was from Boehringer. Hydroxylamine hydrochloride from Fluka was used for AsnGly cleavage. All other chemicals were of sequential grade. Amino acid analyses of peptide hydrolysates, obtained with 6 M HCl at 13 0" C for 24 h, were performed by HPLC, using an ODS 2 column and pre-column derivatisation with opht ha1 aldehyde.Carboxymethylated ammodytin L was maleylated according to the procedure of Butler and Hartley [13]. Trypticckw age of maleylated carboxymethylated ammodytin L was performed at 37°C and pH 8.2 in 0.5 M N-methylmorpholinel acetate with 2% (by mass) proteinase for 40 min. Cleavage with 2% (by mass) endoproteinase Lys-C was performed at 38°C and pH 8.1 in 0.25 M ammonium hydrogencarbonate for 6 h. Hydroxylamine cleavage of the Asn-Gly bond was performed according to Bornstein and Balian [14]. Peptide purification was performed by Sephacryl S-200 gel-filtration chromatography (1 50 cm x 0.5 cm) using a flow rate of 2.4 ml/ h with 50% HCOOH as the eluent and by HPLC on Chrompack reverse-phase C8 and CIS columns (100 mm x 3 mm) equilibrated with 0.1 % trifluoroacetic acid in water and eluted by linear gradients to 80% acetonitrile and 0.1% trifluoroacetic acid. The flow rate was 1 ml/min. The absorbance was monitored either at 277 nm or 215 nm.
Recently, we cloned and sequenced the cDNA of allurin, a sperm chemoattractant isolated from the jelly of Xenopus laevis eggs [Proc. Natl. Acad. Sci. U.S.A. 78 (2001) 11205]. In this report, we demonstrate that allurin mRNA is expressed almost exclusively in the oviduct and that its expression is increased 2.5-fold by human chorionic gonadotropin over a 12-h period. Both dot blots and immunocytochemistry show that allurin is secreted from the upper two thirds of the oviduct that includes the pars recta and the proximal pars convoluta. Allurin appears to be deposited on the ciliated surfaces of luminal epithelial cells that come in direct contact with eggs as they move through the oviduct. Immune staining also demonstrates the presence of allurin in the serosal capsule of the oviduct. In contrast, allurin is not found within the tubular jelly-secreting glands or ducts that constitute a major portion of the oviduct wall. Therefore, we hypothesize that allurin is synthesized by nonciliated secretory cells in the luminal epithelium of the oviduct, is displayed on the ciliary layer and then mechanically mixed with jelly, and applied to eggs as they progress down the oviduct. This hypothesis is consistent with the fact that eggs progressing down the oviduct initially show evidence of allurin being incorporated into the J1 layer. Subsequently, allurin within J1 diffuses outward to J3 and eggs stored in the uterus now demonstrate a J3 localization of this chemoattractant.
Crisp proteins appear to play multiple roles in the life history of sperm. One of these roles is to act as a sperm chemoattractant. Allurin, a 21 kDa Crisp protein rapidly released from the egg jelly of at least two frogs, X. laevis and X. tropicalis, elicits directed motility in both homospecific and heterospecific sperm. In X. tropicalis, allurin is coded for by the newly documented Crisp A gene. Recently, the observation that allurin can also elicit chemotaxis in mouse sperm raises the question of whether allurin-like proteins might act as sperm chemoattractants in mammals. Although an allurin gene has yet to be documented in mammals, Crisp proteins truncated post-translationally appear to exist in both the male and female reproductive tract of mammals.
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