Monoclonal antibodies specific to plant tubulin

Summary Tubulin was isolated from mung bean seedling by a combination of affinity (ethyl N-phenylcarbamate-Sepharose 4 B) and ion exchange (DEAE-Sephacel) chromatography. Using SDS-PAGE together with blotting with subunit-specific antitubulins, mung bean tubulin has been shown to consist of two -tubulin subunits, MBT₂ and MBT₃, of which MBT₃ is a minor component, and one -tubulin, MBT₁.Monoclonal antibodies were produced by fusing mouse myeloma cells and spleen cells from a Balb/c mouse immunized with mung bean tubulin. Antibody producing cell lines were identified by an ELISA assay and immunofluorescence microscopy and subsequently cloned by limiting dilution.The properties of monoclonal antibody (K₄E₇G₃) were examined by Western blot analysis and indirect immunofluorescence studies. K₄E₇G₃ reacts with MBT₂ and MBT₃ -tubulin subunits of mung bean tubulin, but not with MBT₁ -tubulin nor with the - and -subunits of sheep brain tubulin. Peptide fragments transferred onto nitrocellulose papers were treated with K₄E₇G₃ and with other monoclonal antibodies that are known to be specific to the -subunit of yeast tubulin and - or -subunit of mammalian brain tubulin. MBT₂ and MBT₃ are shown to be similar but not identical and are quite different from MBT₁ and the -subunit of sheep brain tubulin. K₄E₇G₃ reacts with peptide fragments in MBT₂ and MBT₃ that are not found in digests of brain tubulin, and that are either not reactive or only weakly reactive to the antibodies to yeast and brain -tubulin. It is concluded that K₄E₇G₃ and another monoclonal antibody, K₂D₇B₈, which has similar properties, are relatively specific for plant -tubulin.In indirect immunofluorescence studies on a wide range of plant cells, the epitopes recognised by these monoclonal antibodies are shown to be present in all types of microtubule array that were investigated. The spindle, preprophase band, phragmoplast and interphase microtubules were clearly observed in onion and mung bean root tip cells. Reactions with spindle microtubules ofFunaria spore mother cells and with the blepharoplast and flagella microtubules of fern spermatozoa are also seen. However, studies using several animal cell lines have shown that K₄E₇G₃ and K₂D₇B₈ do not give positive immunofluorescent localization of animal microtubules, correlating with the inability of K₄E₇G₃ to react with brain tubulin subunits on Western blot analysis.     

Immunocytochemical localization of actin and tubulin in rat testis and spermatozoa

Summary Using commercial monoclonal antibodies against actin and tubulin ( and ), the respective antigens were localized on semithin and ultrathin sections of the rat testis. Tubulin immunofluorescence was found in the socalled manchette surrounding the heads of the maturating spermatids as well as the sperm tail. The distribution pattern varied with sperm development. Modified Sertoli cells found at the transition between the seminiferous tubules and the rete testis displayed much filamentous tubulin-reactive material. The immunofluorescence findings could be confirmed at the ultrastructural level using the indirect immunogold method. Actin immunofluorescence was demonstrated in vascular smooth muscle cells, interstitial macrophages and — most intensely — in peritubular cells. Inside the seminiferous tubules the Sertoli cell junctions and the ectoplasmic specializations of the Sertoli cells that follow the outer contour of spermatid heads displayed distinct actin immunofluorescence. In addition to the locations mentioned, actin-like immunoreactivity was visualized at the ultrastructural level in the chromatoid body and the subacrosomal space of spermatids as well as on the outer dense fibers of the sperm tail.Immunoblotting experiments with actin antibodies showed that in extracts from testicular spermatozoa, intact or fragmented into heads and tails, from isolated Sertoli cells grown in vitro, and from testis tissue in addition to authentic actin a protein was present in sperm tail extracts that strongly bound the actin antibody. This protein may be an actin-related protein and may be responsible for the actin-like immunoreactivity of the outer dense fibers of the sperm tail.     

Immunocytochemical localization of actin and tubulin in rat testis and spermatozoa

Using commercial monoclonal antibodies against actin and tubulin (alpha and beta), the respective antigens were localized on semithin and ultrathin sections of the rat testis. Tubulin immunofluorescence was found in the socalled manchette surrounding the heads of the maturating spermatids as well as the sperm tail. The distribution pattern varied with sperm development. Modified Sertoli cells found at the transition between the seminiferous tubules and the rete testis displayed much filamentous tubulin-reactive material. The immunofluorescence findings could be confirmed at the ultrastructural level using the indirect immunogold method. Actin immunofluorescence was demonstrated in vascular smooth muscle cells, interstitial macrophages and - most intensely - in peritubular cells. Inside the seminiferous tubules the Sertoli cell junctions and the ectoplasmic specializations of the Sertoli cells that follow the outer contour of spermatid heads displayed distinct actin immunofluorescence. In addition to the locations mentioned, actin-like immunoreactivity was visualized at the ultrastructural level in the chromatoid body and the subacrosomal space of spermatids as well as on the outer dense fibers of the sperm tail. Immunoblotting experiments with actin antibodies showed that in extracts from testicular spermatozoa, intact or fragmented into heads and tails, from isolated Sertoli cells grown in vitro, and from testis tissue in addition to authentic actin a protein was present in sperm tail extracts that strongly bound the actin antibody. This protein may be an actin-related protein and may be responsible for the actin-like immunoreactivity of the outer dense fibers of the sperm tail.     

Use of monoclonal antibodies to analyse the expression of a multi-tubulin family

We have used a panel of monoclonal antibodies in a study of the expression of multiple tubulins in Physarum polycephalum. Three anti-beta-tubulin monoclonal antibodies, DM1B, DM3B3 and KMX-1 all reacted with the beta 1-tubulin isotypes expressed in both myxamoebae and plasmodia. However, these antibodies showed a spectrum of reduced reactivity with the plasmodial beta 2-tubulin isotype - the competence of recognition of this isotype was graded DM1B greater than KMX-1 greater than DM3B3. The anti-alpha-tubulin monoclonal antibody, YOL 1/34 defined the full complement of Physarum alpha-tubulin isotypes, whilst the anti-alpha-tubulin monoclonal antibody, KMP-1 showed a remarkably high degree of isotype specificity. KMP-1 recognises all of the myxamoebal alpha 1-tubulin isotypes but only recognises 3 out of the 4 alpha 1-tubulin isotypes expressed in the plasmodium (which normally focus in the same 2D gel spot). KMP-1 does not recognise the plasmodial specific alpha 2-tubulin isotype. This monoclonal antibody reveals a new level of complexity amongst the tubulin isotypes expressed in Physarum and suggests that monoclonal antibodies are valuable probes for individual members of multi-tubulin families.     

Enhanced immunization techniques to obtain highly specific monoclonal antibodies

Despite fast advances in genomics and proteomics, monoclonal antibodies (mAbs) are still a valuable tool for areas such as the evolution of basic research in stem cells and cancer, for immunophenotyping cell populations, diagnosing and prognosis of diseases, and for immunotherapy. To summarize different subtractive immunization approaches successfully used for the production of highly specific antibodies, we identified scientific articles in NCBI PubMed using the following search terms: subtractive immunization, monoclonal antibody, tolerization, neonatal, high-zone tolerance, masking immunization. Patent records were also consulted. From the list of results, we included all available reports, from 1985 to present, that used any enhanced immunization technique to produce either polyclonal or monoclonal antibodies. Our examination yielded direct evidence that these enhanced immunization techniques are efficient in obtaining specific antibodies to rare epitopes, with different applications, such as to identify food contaminants or tumor cells.     

Intraflagellar transport delivers tubulin isotypes to sensory cilium middle and distal segments

Sensory cilia are assembled and maintained by kinesin-2-dependent intraflagellar transport (IFT). We investigated whether two Caenorhabditis elegans α- and β-tubulin isotypes, identified through mutants that lack their cilium distal segments, are delivered to their assembly sites by IFT. Mutations in conserved residues in both tubulins destabilize distal singlet microtubules. One isotype, TBB-4, assembles into microtubules at the tips of the axoneme core and distal segments, where the microtubule tip tracker EB1 is found, and localizes all along the cilium, whereas the other, TBA-5, concentrates in distal singlets. IFT assays, fluorescence recovery after photobleaching analysis and modelling indicate that the continual transport of sub-stoichiometric numbers of these tubulin subunits by the IFT machinery can maintain sensory cilia at their steady-state length.     

Requirement for the betaI and betaIV tubulin isotypes in mammalian cilia

Nielsen et al., [2001: Curr Biol 11:529-533], based on studies in Drosophila, have proposed that beta tubulin in axonemal microtubules must contain a specific acidic seven amino acid sequence in its carboxyl terminus. In mammals, the two betaIV isotypes (betaIVa and betaIVb) contain that sequence. In order to test the application of this hypothesis to mammals, we have examined the expression of beta tubulin isotypes in four different ciliated tissues (trachea, ependyma, uterine tube, and testis) using isotype-specific antibodies and indirect immunofluorescence. We find that betaIV tubulin is present in all ciliated cell types examined, but so is betaI tubulin. Taken together with recent studies that show that betaI and betaIV tubulin are both present in the cilia of vestibular hair cells, olfactory neurons, and nasal respiratory epithelial cells, we propose that both betaI tubulin and betaIV tubulin may be required for axonemal structures in mammals.     

Naturally occurring antibodies to liposomes. II. Specificity and electrophoretic pattern of rabbit antibodies reacting with sphingomyelin-containing liposomes

Sera obtained from rabbits after immunization with a variety of unrelated antigens contain antibodies that induce complement- (C) mediated lysis of sphingomyelin-containing liposomes in the absence of the relevant antigen from the membrane. Absorption or inhibition with dimyristoyl-phosphatidyl choline-containing liposomes were less effective than with sphingomyelin-containing liposomes in decreasing or abolishing C-dependent lysis of target-liposomes. Phosphoryl choline chloride inhibited the C-dependent lysis mediated by these antibodies, but only when used in high molar excess and in the presence of low antibody concentrations. Purified anti-liposome antibodies displayed an isoelectric focusing pattern consistent with a polyclonal response. The findings confirm the antibody nature of the anti-liposome activity of rabbit sera and indicate that their predominant specificity is directed against conformations of the phospholipid molecule in which the polar (phosphoryl choline) group does not have a major contribution.     

Copolymerization of two distinct tubulin isotypes during microtubule assembly in vitro

Cells contain multiple tubulin isotypes that are the products of different genes and posttranslational modifications. It has been proposed that tubulin isotypes become segregated into different classes of microtubules each adapted to specific activities and functions. To determine if mixtures of tubulin isotypes segregate into different classes of polymers in vitro, we used immunoelectron microscopy to examine the composition of microtubule copolymers that assembled from mixtures of purified tubulin subunits from chicken brain and erythrocytes, each of which has been shown to exhibit distinct assembly properties in vitro. We observed that (a) the two isotypes coassemble rapidly and efficiently despite the fact that each isotype exhibits its own unique biochemical and assembly properties; (b) at low monomer concentrations the ratio of tubulin isotypes changes along the lengths of elongating copolymers resulting in gradients in immuno-gold labeling; (c) two distinct classes of copolymers each containing a distinct ratio of isotypes assemble simultaneously in the same subunit mixture; and (d) subunits and polymers of different isotypes associate nearly equally well with each other, there being only a slight bias favoring interactions among subunits and polymers of the same isotype. The observations agree with previous studies on the homogeneous distribution of multiple isotypes within cells and suggest that if segregation of isotypes does occur in vivo, it is most likely directed by cell-specific microtubule-associated proteins (MAPs) or specialized intracellular conditions.     

Use of bacterial DHFR-II fusion proteins to elicit specific antibodies

Plasmids containing the coding region of the type II dihydrofolate reductase (DHFR) specified by R388 have been used to alter the amino acid (aa) sequence at the C-terminus of this protein. These plasmids have a unique cloning site in the C-terminal portion of the 78-aa coding region. Insertions of DNA fragments into this site produced plasmids that code for proteins with 6- to 80-aa extensions. The vectors were constructed to terminate translation in all three phases beyond the position of insertion of foreign DNA. Random DNA fragments from the major sperm protein (MSP) gene of Caenorhabditis elegans produced by DNase I cleavage were inserted into these vectors. Cell extracts from colonies containing MSP sequences were examined by gel electrophoresis and immunoblotting. One of the hybrid DHFR-MSP proteins was isolated and antibody was prepared to it. This antibody preparation reacted with MSP in immunoblots of purified MSP and whole cell extracts of the worm. A rapid purification procedure for the DHFR is presented.     

Differential distribution of tubulin epitopes in human spermatozoa

Two monoclonal antibodies (16 D3 and 24 E3) were used to map tubulin domains in human spermatozoa by indirect immunofluorescence. Their specificity to tubulin in these cells was established by Western blotting. Whereas 16 D3 uniformly stained the principal piece of the flagellum, the staining provided by 24 E3 decreased along the tail to become very weak 30 micron further away from the midpiece. This latter antibody also reacted with the proximal centriole as well as the midpiece, but not all spermatozoa stained identically at this level indicating heterogeneity within the population of sperm cells from a given donor. 16 D3 reacted weakly with the head, and the staining was interrupted after a bright spot in the neck. The study of a pathological case (the short tail spermatozoon) with an abnormal arrangement of dense fibers was consistent with a correlation between the distribution of the epitope defined by 24 E3 and that of peri-axenomal structures. The existence of tubulin domains interacting with these structures is postulated.     

Acoel spermatozoa: ultrastructure and immunocytochemistry of tubulin

Acoel spermatozoa are filiform and contain two parallel axonemes, which do not show the trepaxonematan 9 + ‘1’ pattern, but instead, another kind of 9 + ‘1’ pattern, or a 9 + 0 or 9 + 2 pattern. Spermatozoa have either cortical singlet microtubules or central microtubules. Identification of these groups of microtubules and recognition of homologies between species is difficult with electron microscopy. In addition to conventional electron microscopy, indirect immunofluorescence of tubulin was performed on three species (Symsagittifera schultzei, Symsagittifera psammophila, and Actinoposthia beklemischevi). This technique facilitated understanding of the general morphology of the filiform spermatozoon and of the arrangement of the microtubular organelles along its length. We have found that different monoclonal antibodies (anti-alpha-, anti-alpha-acetylated- and anti-beta-tubulin) can distinguish distinct subcellular populations of microtubules. The axonemes were labelled by the three antibodies in all species. The cortical microtubules (in Actinoposthia beklemischevi) were labelled by the three antibodies. The central microtubules (in Symsagittifera schultzei and S. psammophila) were labelled with the anti-beta-tubulin antibody and not labelled by the anti-alpha- and anti-alpha-acetylated-tubulin. Similar experiments were performed on other Platyhelminthes and indicated that immunocytochemistry of spermatozoa may provide new characters for phylogenetic studies. This revised version was published online in July 2006 with corrections to the Cover Date.     

Characterization of PH-20 in canine spermatozoa and testis

The purpose of this study was to characterize the sperm membrane protein PH-20 in the dog. Canine spermatozoa were extracted with Triton X- 100 and the presence of PH-20 was determined by immunoblot with an antibody against recombinant macaque PH-20. The hyaluronidase activity of canine PH-20 was determined with substrate gel electrophoresis based upon digestion of hyaluronic acid (HA) incorporated into the separating gels. Hyaluronidase activity was also quantified using a microplate assay. Sperm extracts were incubated at pH 4 or 7 in wells containing agarose and HA. For immunolabeling of PH-20 on canine sperm membranes, canine sperm were fixed and incubated with R-10 primary antibody, and an anti-rabbit IgG-FITC secondary antibody. Samples were visualized by fluorescence microscopy. Non-reducing SDS-PAGE and Western blot of detergent-extracted canine sperm revealed a major band at 50 kDa, and three other bands at 42, 124, and >209 kDa. Substrate PAGE revealed translucent bands of hyaluronidase activity of similar size to bovine testicular hyaluronidase. These bands were markedly more pronounced at pH 4 than at pH 7. The microplate assay also demonstrated that hyaluronidase activity was over four times greater at the acidic pH. Immunolabeling of canine spermatozoa demonstrated that PH-20 is localized to the anterior head region and appeared in the Golgi area of round spermatids as detected by the immunohistochemical staining of the testis. This study provides evidence that PH-20 is present on the membrane of canine spermatozoa and in round spermatids. Canine PH-20 exhibits hyaluronidase activity that is markedly more pronounced at acidic pH.     

Characterization of galactose-binding proteins in equine testis and spermatozoa

Carbohydrate-binding proteins are thought to be involved in a myriad of sperm functions including sperm-oviductal and sperm-zona interactions. Recent studies in our laboratory have characterized galactose-binding proteins on equine spermatozoa as possible candidate molecules for sperm adhesion to oviduct epithelial cells. In the current study, equine sperm membrane proteins were subjected to galactose-affinity chromatography, and bound proteins were eluted with excess galactose in a calcium-free buffer. The eluted fraction recovered after galactose-affinity chromatography was used for generation of a polyclonal antibody which was immobilized on an affinity column to recover a purified protein from equine sperm extracts. Several protein bands of approximately 70, 25, and 20-18 kDa were detected with a major band at 25k Da on immunoblots which was subjected to N-terminal amino acid sequencing. These galactose binding proteins (GBP) were specific to sperm and testis and were absent in all the somatic tissues tested. Based upon immunocytochemistry, GBP were localized over the sperm head. In noncapacitated sperm, fluorescent labeling was observed over the rostral sperm head as well as the postacrosomal area; whereas in capacitated sperm, the labeling was localized primarily in the equatorial segment. Immunohistochemistry of equine testis demonstrated abundant staining in the adluminal region of the seminiferous tubules corresponding to round spermatids. In summary, this study demonstrates the presence of testis- and sperm-specific galactose binding proteins in the horse. The function of these proteins remains to be determined.     

Characterization of rabbit testis beta-galactosidase and arylsulfatase A: purification and localization in spermatozoa during the acrosome reaction.

Examination of the role of carbohydrates in specific recognition between spermatozoa and zona pellucida has focussed on understanding the interaction of sperm hydrolases or lectin-like molecules with zona pellucida ligands. To elucidate the role of specific spermatozoan hydrolases in gamete interaction, rabbit testis beta-galactosidase and arylsulfatase A were purified, characterized, and localized in spermatozoa. beta-Galactosidase and arylsulfatase A co-purified after affinity, size, or reverse-phase chromatography. N-Terminal amino acid analysis and enzymatic characterization suggested that neither enzyme is a testis-specific isozyme. Size chromatography indicated that both enzymes aggregated into macromolecular complexes at pH 4.0, while both dissociated at pH 8.0. beta-Galactosidase and arylsulfatase A co-localized on the sperm surface and in the acrosome and postacrosomal regions of spermatozoa. Throughout the zona-induced acrosome reaction, both enzymes remained associated with the detached acrosomal cap and postacrosomal region of acrosome-reacted spermatozoa. Because the acrosome is an acidic subcellular compartment, internal beta-galactosidase and arylsulfatase A are probably aggregated in acrosome-intact spermatozoa and dissociate as they are exposed to pH increases during the acrosome reaction.     

Use of flow cytometry in oenology to analyse yeasts

Flow cytometry is a rapid method with many microbiological applications. This technique can be used to obtain counts of viable yeasts in 30 min, whereas a 48 h incubation is necessary with plate counts. This rapid method was tested for its suitability to analyse wine yeasts in a multicentre study in our three laboratories. The study compares measurements obtained by flow cytometry and the usual method, in order to test the reliability of the new method. The results obtained were very similar in terms of both the micro-organisms detected and the precision of measurements.     

Composition of gangliosides from ovine testis and spermatozoa

Gangliosides were extracted and purified from ovine testis and ejaculated spermatozoa which contained, respectively, 57 and 9 nmol lipid-bound sialic acid per gram wet weight. Fourteen gangliosides were resolved by thin-layer chromatography of testicular gangliosides, of which eleven were purified in sufficient quantity to enable a complete compositional analysis of the carbohydrate residues to be performed. None of the gangliosides contained fucose, but several contained N-glycolylneuraminic acid as a component of the sialic acid species. Relative migration on thin-layer chromatograms relative to known standards, compositional analysis, and selective degradation by specific enzymes were used as the basis for identification. Testis contained members of the ganglio series (GM1, GD1a, GD1b, GT1b, GQ1b), hematoside series (GM3, GD3), and sialosylparagloboside in the molar ratio of 54:40:6, respectively. Testicular GM3, GM1, GD3, GD1a, GD1b and GT1b ran as double bands on thin-layer chromatography which could be accounted for by observed differences in the fatty acid moiety. In addition, the slower migrating band of each pair contained some or all of its sialic acid residues as N-glycolylneuraminic acid, whereas the faster migrating band contained exclusively N-acetylneuraminic acid, except for GM3 where N-acetylneuraminic acid was the sole species in both bands. Thin-layer chromatography of sperm gangliosides revealed seven bands comigrating with equivalent testicular gangliosides. These coincided with the slower migrating bands of testicular GM3, GM1, GD3, GD1a, both bands of GD1b, and possibly both bands of GT1b. Sperm contained only trace amounts of sialosylparagloboside but, in addition, two unidentified bands which were absent from testis were also observed. The molar ratio of the ganglio series to the hematoside series in sperm was 42:58 with GM3 accounting for 42% of total gangliosides.     

Use of microcapsular leptospiral antigens for detecting specific antibodies

The sensitivity of microcapsular leptospiral antigens, produced by Japan Lyophilization Laboratory and intended for use in tests for the detection of antibodies to leptospires in the sera of experimentally immunized laboratory animals, were studied. The comparative study of the microcapsular agglutination (MCA) test and other serological tests, such as the microagglutination (MA) test and the indirect enzyme immunoassay (EIA), was made. The leptospiral antigens under study were found to actively react with serospecific and group-specific antibodies. In infected guinea pigs and rabbits specific antibodies could be detected from days 3-4 in the MCA test and only from days 5-7 in the MA test. The average antibody level determined by titration in the MCA test was 3.3 times higher and in indirect EIA, 4.3 times higher than that determined by titration in the MA test. These data make it possible to recommend the use of microcapsular leptospiral antigens for the early diagnosis of leptospirosis.