RalGPS2 is involved in tunneling nanotubes formation in 5637 bladder cancer cells.

RalGPS2 is a Ras-independent Guanine Nucleotide Exchange Factor (GEF) for RalA containing a PH domain and an SH3-binding region and it is involved in several cellular processes, such as cytokinesis, control of cell cycle progression, differentiation, cytoskeleton organization and rearrangement. Up to now, few data have been published regarding RalGPS2 role in cancer cells, and its involvement in bladder cancer is yet to be established. In this paper we demonstrated that RalGPS2 is expressed in urothelial carcinoma-derived 5637 cancer cells and is essential for cellular growth. These cells produces thin membrane protrusions that displayed the characteristics of actin rich tunneling nanotubes (TNTs) and here we show that RalGPS2 is involved in the formation of these cellular protrusions. In fact the overexpression of RalGPS2 or of its PH-domain increased markedly the number and the length of nanotubes, while the knock-down of RalGPS2 caused a strong reduction of these structures. Moreover, using a series of RalA mutants impaired in the interaction with different downstream components (Sec5, Exo84, RalBP1) we demonstrated that the interaction of RalA with Sec5 is required for TNTs formation. Furthermore, we found that RalGPS2 interacts with the transmembrane MHC class III protein leukocyte specific transcript 1 (LST1) and RalA, leading to the formation of a complex which promotes TNTs generation. These findings allow us to add novel elements to molecular models that have been previously proposed regarding TNTs formation.

Expression and localization of the deubiquitinating enzyme mUBPy in wobbler mouse testis during spermiogenesis.

Mouse ubiquitin-specific processing protease (mUBPy) is a deubiquitinating enzyme highly expressed in both brain and testis. In testis, it interacts with the DnaJ protein, MSJ-1; both mUBPy and MSJ-1 are located on the cytoplasmic surface of the developing acrosome and in the centrosomal region during spemiogenesis. Present data show the first appearance in testis of mUbpy mRNA and protein at 10 days post-partum (d.p.p.). In addition, to investigate on a possible role of mUBPy in sperm formation, we took advantage of mutant wr/wr (wobbler) mice characterized by male infertility, which is likely due to the lack of a real, functional acrosome. RT-PCR and Northern blot analyses show that mUbpy is up-regulated in adult wobbler testis. Furthermore, in wild-type testis mUBPy protein is primarily detected by Western blot in the soluble (cytosolic/nuclear) fraction during the first round of spermatogenesis and in the adult. By contrast, mUBPy is primarily detected in membranous/insoluble protein fraction when wobbler phenotype is clearly shown (30 d.p.p.) and in adult wobbler testis. By immunohistochemistry, whereas in wild-type animals mUBPy marks the profile of the acrosomic vesicle in differentiating spermatids, in wobbler mice only a detergent pre-treatment procedure allows to detect mUBPy immunoreactivity, which results in diffuse spotted granules inside the cytoplasm and around the nuclear shape. In conclusion, in wobbler testis expression of mUbpy is up-regulated, while a differential sorting of the protein characterizes wobbler spermatids where acrosome formation is impaired.

MUBPy is a novel centrosome-associated protein and interacts with gamma-tubulin.

mUBPy is a deubiquitinating enzyme expressed preferentially in male germ cells and neurons. Recently, mUBPy has been shown to be involved in the down-regulation of growth factor receptors. In mouse spermatozoa mUBPy interacts with the sperm-specific molecular chaperone MSJ-1 and associates with the proteasome. The ubiquitin/proteasome system plays a key role during spermatogenesis to yield functional spermatozoa. Immunoelectron microscopy has been here used to localize both mUBPy and MSJ-1 in mouse spermatozoa. mUBPy and MSJ-1 label the cytoplasmic side of the acrosomal membrane and the centrosome, two sperm structures fundamental for a successful fertilization. In vitro protein interaction assay reveals that mUBPy is able to bind gamma-tubulin, a centrosomal protein marker. This protein interaction has been confirmed in vivo by double protein immunolabelling in spermatogenic cells. Upon the grounds of these findings and in the light of recent acquisition on the centrosome biology, we suggest that mUBPy could have a key role during mouse fertilization and propose mUBPy as a novel centrosomal component.

Tyrosine protein kinase in boar spermatozoa: identification and partial characterization.

A protein-tyrosine kinase has been isolated from a detergent-soluble extract of boar spermatozoa, using poly(Glu, Tyr)4:1 as a substrate. The purification procedure involves sequential column chromatographies on phosphocellulose, polyamino acid affinity and Sephadex G-100 molecular sieving, and results in more than a 1200-fold enrichment. Analysis of the most purified preparation by sodium dodecyl sulfate polyacrylamide gel electrophoresis revealed a major Coomassie blue-stained band of molecular mass 42 kDa. The Tyr-protein kinase does not seem to be autophosphorylable. The Km value for poly(Glu, Tyr)4:1 is relatively low, 2.3 microM, and the tyrosine-polymer phosphorylating activity is apparently inhibited by tyrphostin. The characteristics shown by this new tyrosine kinase--the first to be described in mature male germ cells--support the hypothesis that it belongs to the group of non-receptor-associated tyrosine kinases.

Calcium and polyphosphoinositides: their distribution in relation to the membrane changes occurring in the head of boar spermatozoa.

Ejaculated boar spermatozoa, previously incubated in a rigorously Ca++-free medium, were exposed to Ca++ for different incubation times and processed for the detection of Ca++ localization by a pyroantimonate technique. The distribution of polyphosphoinositides, anionic phospholipids natural constituents of membrane known to bind Ca++, was investigated using a specific cytochemical probe, i.e., neomycin conjugated with horseradish peroxidase. The in situ localizations thus obtained revealed: short exposure to Ca++ ions (10 min) evocated a Ca++-induced release of calcium from the nonmitochondrial intracellular store, i.e., the outer acrosomal membrane; a more prolonged exposure (20 min) triggered the occurrence of fusional and exocytotic events, that appeared to be morphologically related to the acrosome reaction; the outer acrosomal membrane, which is the fusigenic sperm membrane, was the elective site of the neomycin/peroxidase labeling. When assayed for the presence of a phospholipase C-like activity, the detergent extract obtained from boar spermatozoa exhibited substantial amount of p-nitrophenyl-phosphorylcholine hydrolyzing activity. The results, on the whole, allow us to suggest a relationship between Ca++ and polyphosphoinositides turnover in the events triggering the acrosome reaction, the exocytotic process peculiar to mammalian spermatozoa.

Evidence for a calsequestrin-like calcium-binding protein in human spermatozoa.

Human spermatozoa were investigated for the presence of protein(s) recognized by antibodies against calsequestrin, the high capacity, moderate affinity Ca2(+)-binding protein, originally described in striated muscle fibers. Western immunoblots of detergent-soluble sperm extracts probed with polyclonal antibodies raised against human skeletal muscle calsequestrin identified a strongly cross-reactive protein. This protein resembles muscle calsequestrin in many respects. In fact, its migration in sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) is pH dependent, its apparent molecular mass being 64 kDa in alkaline SDS-PAGE and 44 kDa in neutral SDS-PAGE; its isoelectric point is acidic (4.6); it is metachromatically stained blue by the carboxycyanine dye, Stains-All; it is a Ca2(+)-binding protein (45Ca blot overlay). Indirect immunofluorescence experiments showed that the immunoreactive protein has an intracellular localization confined to the tail mid-piece. From these findings we conclude that human sperm cells express a protein structurally and antigenically related to skeletal muscle calsequestrin; a basis for a novel interpretation of Ca2(+)-mediated events in spermatozoa is thus provided.

The effects of anticalmodulin drugs on the ultrastructure of boar spermatozoa.

Trifluoperazine, N-6-aminohexyl-5-chloro-1-naphthalene sulfonamide (W7), and calmidazolium are known to be calmodulin inhibitors and cell membrane soluble substances. In mammalian spermatozoa, calmodulin is present and is retained to mediate several sperm processes, such as sperm activation, sperm-egg fusion, microtubule disassembly, etc. We examined the effects of anticalmodulin drugs on the ultrastructure of freshly ejaculated boar spermatozoa. Whereas all the drugs, at the low concentrations tested, appear to prevent acrosomal alterations, at higher concentrations, they induced these alterations. Unexpectedly, the outer acrosomal membrane appeared to be more sensitive to the drugs than the plasma membrane; vesicles formed within the acrosome from the outer acrosomal membrane even when plasma membrane maintained its structural integrity. These findings were confirmed by the analysis carried out by fluorescent light microscopy by utilizing fluoresceinated Ricinus communis agglutinins to specifically stain the acrosomes.

Two-dimensional distortion of space representation in unilateral neglect: perceptual and response-related factors.

The paper reports the results of an experiment in which left-neglect patients were required to point at the location they judged vertically to correspond (within the frame of the visual stimulus display they were given) with a cue that was variably located along a left-right axis lying proximally or distally with respect to the left-right axis over which they had to give their response. Patients were found to make rightward errors as in a similar, single-case study. The significant positive correlation between those errors and the degree of response bias on a manual-response version of the Milner Landmark Task suggests that rightward pointing errors made by left-neglect patients in conditions such as those set in the present experiment are due to a dysfunction selectively affecting an output-related component of space representation.

Signaling events during male germ cell differentiation: bases and perspectives.

In all species, reproductive function depends on the ability of the individual to produce functional differentiated gametes. Spermatogenesis is a cyclic process in which diploid spermatogonia differentiate into mature haploid spermatozoa. Thus from a genetic point of view, spermatogenesis can be divided into two phases, namely the diploid and haploid phase. Indeed, this complex differentiation process is still more intriguing since primary spermatocytes, if genetically diploid, are functionally tetraploid, while elongating spermatids, the germ cells undergoing the most dramatic morphological changes, if genetically haploid, become functionally anucleate due to ongoing condensation of chromatin resulting in an inactive nuclear DNA. This multi-step differentiative pathway is dependent on a specific environment provided by the anatomical and cellular relationships that take place in the testis and more specifically within the seminiferous tubules. Already, early anatomists (mind comes to Enrico Sertoli and Gustaf Retzius) were fascinated by the mixed cellular composition of the testis correctly deciphered as a whole of interacting and interdependent cell types despite the fact these belong to two well-established and different cell lineages, i.e, the somatic and germinal line. Since their time (the XIX century) up to-day a conspicuous bulk of experimental work and a relative massive bibliographic documentation have been provided. From this it stands out : a) a sophisticated role played by the cyclic hormonal control elicited by the hypothalamic-pituitary axis; b) the structural membrane specializations of Sertoli-germ cell communications; c) the existence and action of a paracrine and autocrine testicular regulative secretion; d) a regulation of germ cell gene expression, highly specialized both at transcriptional, posttranscriptional, and translational level; e) an active participation of the haploid genome in the final steps of cell differentiation. Each of these points has been the matter of several more and less recent reviews to which the present author hands back in the course of this note. However all these points, although topics of separate and extensive treatises, are conceptually jointed by a 'leit-motiv', that is, the intracellular transduction of an exogenous signal evoking a specific stimulatory/inhibitory, proliferative/differentiative event. The spirit with which the present author interpreted this minireview was to recall some points to which to draw attention having as a scenario the complex process of male germ cell differentiation in mammals.

Early defect in the expression of mouse sperm DNAJ 1, a member of the DNAJ/heat shock protein 40 chaperone protein family, in the spinal cord of the wobbler mouse, a murine model of motoneuronal degeneration.

Prevention of protein misfolding is ensured by chaperone proteins, including the heat shock proteins (HSP) of the DNAJ/HSP40 family. Detection of abnormal protein aggregates in various neurodegenerative diseases has led to the proposal that altered chaperone activity contributes to neurodegeneration. Msj-1, a DNAJ/HSP40 protein located around the spermatozoa acrosome, was recently found to be down-regulated in the testis of wobbler mutant mice. Wobbler is an unidentified recessive mutation which triggers progressive motoneuron degeneration with abnormal intracellular protein accumulations, and defective spermatozoa maturation. Here, we examined Msj-1 expression in the spinal cord of the mutants and their controls. Msj-1 transcripts were amplified by reverse transcription-polymerase chain reaction from mutant and wild-type spinal cord RNA. Sequencing of Msj-1 coding region revealed no change in the mutant. In contrast, decreased Msj-1 mRNA levels were observed in five to six-week-old wobbler mice spinal cord, when motoneuron degeneration is at its apex, as compared to controls. A similar decrease was observed in two-week-old wobbler spinal cord, when the number of motoneurons is still unaltered, indicating that the decreased mRNA content is intrinsic to the mutant and not simply related to the loss of cells expressing Msj-1. Assays of Msj-1 protein levels yielded similar results. Immunofluorescent labeling revealed numerous Msj-1-ir motoneurons in five-week-old control spinal cord while no signal was observed in age-matched wobbler. Our results show, therefore, that Msj-1 expression is down-regulated in both organs affected by the wobbler mutation, the CNS and the testis, and that this defect precedes the first histological signs of motoneuron degeneration. These results provide the first example of an association between transcriptional repression of a chaperone protein and a neurodegenerative process.

Dansylalanyllysylchloromethyl ketone as a fluorescent probe for localization of acrosin activity in boar and human spermatozoa.

The localization of acrosin (EC 3.4.21.10) activity in mammalian spermatozoa was investigated by use of the fluorescent site-directed acrosin inhibitor, dansylalanyllysylchloromethyl ketone (DALCK). Fluorescence microscope preparations revealed, after the spermatozoa were subjected to a specific treatment, that acrosin activity is confined specifically to the inner acrosomal membrane (IAM). Spectrofluorometric and fluorescence polarization investigations verified that the fluorescent probe, once it is specifically bound to the treated spermatozoa, lies in a very hydrophobic environment and shows a remarkable reduction of rotational freedom. These results are compatible with the hypothesis that, under the experimental conditions used, active acrosin is tightly bound to the IAM and that the "specificity site" of the acrosin-active center is probably of a highly hydrophobic nature.

Molecular cloning and developmental pattern of expression of MSJ-1, a new male germ cell-specific DNAJ homologue.

A cDNA encoding a new member of the DnaJ protein family has been isolated by screening a mouse testicular expression library. The predicted protein, named MSJ-1, is 242 amino acid residues-long, containing the fingerprinting J domain in the NH2 terminus. A wide tissutal Northern blot analysis reveals that MSJ-1 is expressed only in the testis, while in situ hybridization analyses demonstrate that the mRNA is first transcribed in spermatids. The antiserum developed against a MSJ-1/GST fusion protein recognizes a protein of 30 kDa in germ cell protein extracts.

Structure of msj-1 gene in mice and humans: a possible role in the regulation of male reproduction.

Msj-1 gene encodes a DnaJ protein highly expressed in spermatids and spermatozoa of both rodents and amphibians, possibly involved in vesicle fusion and protein quality control by means of interaction with heat shock proteins. We isolated and characterized the entire murine msj-1 gene and searched for putative msj-1-like genes into the human genome. Furthermore, ultrastructural localization of MSJ-1 was analyzed in mouse germ cells by immunogold electron microscopy. The analysis of murine msj-1 genomic sequence reveals that it is an intron less gene. Putative promoter region was predicted within the 600 bp upstream the transcription start site. In mouse, msj-1 maps on chromosome 1, into an intronic region of UDP glucuronosyl-transferase 1 family cluster. At ultrastructural level, MSJ-1 marks the developing acrosomic vesicle and the sperm centriolar region. A blast search against the human genome database revealed two closed regions (Ha and Hb) on human chromosome 2 having high nucleotide identity with murine msj-1 coding region. Similarly to mouse, in human both regions map into an intronic region of UDP glycosyl-transferase 1 family polypeptide A cluster (ugt1a@). A significant ORF encoding a putative DnaJ protein of 145 aa was predicted from Ha. Finally, expression analysis, conducted by RT-PCR in human sperm cells, demonstrated that Ha mRNA is effectively present in humans; by Western blot, a specific MSJ-1 band of approximately 30kDa was detected in human sperm. Taken together, these data suggest that msj-1 gene might be conserved among vertebrates and might exert fundamental functions in reproduction.

Evidence for Ca(2+)-mediated F-actin/phospholipid binding of human sperm calpactin II.

We have previously reported the presence in human spermatozoa of calpactin II, a calcium-binding component of the membrane skeleton (Berruti, Exper. Cell Res. 179, 374, 1988). Reported here are studies which show the ability of sperm calpactin II to interact with filamentous actin and acidic phospholipids in a Ca(2+)-dependent fashion. At high Ca2+ concentrations (greater than 1 mM) sperm calpactin II binds to actin filament and it is resolubilized by EGTA. Liposome binding experiments reveal that sperm calpactin II does associate with phospholipidic vesicles at micromolar free Ca2+ levels. These interaction properties together with the cellular distribution of the protein revealed by immunofluorescence analysis in Ca2+ and ionophore A23187-treated human spermatozoa allow to hypothesize a physiological role for calpactin II in sperm Ca(2+)-mediated events.

CAMP activates Rap1 in differentiating mouse male germ cells: a new signaling pathway mediated by the cAMP-activated exchange factor Epac?

Rap1, a Ras-like G-protein, is implicated in the signaling of various cellular processes as morphogenesis, differentiation, cell adhesion and spreading, and maintenance of T cell anergy and B cell activation. The effectors that mediate Rap1 signaling have not yet been definitely identified, with the exception of B-Raf which, however, is restricted to neuronal tissues and a small subset of other cell types, including in particular male germ cells. We previously showed that in mouse spermatids Rap1 could interact with B-Raf giving rise to a signaling complex. Here we investigated about the possible molecules which "switch on" Rap1 finding that cAMP could in vivo activate endogenous Rap1. Spermatid-enriched cell cultures stimulated with 8-(4-chlorophenylthio)-cyclic AMP yielded higher levels of GTP-bound Rap1 than unstimulated cells. Since cAMP-induced Rap1 activation is actually retained to occur through Epac, we checked whether this recently discovered Rap1 exchange factor is expressed in male germ cells. Our findings indicate that Epac is present in spermatogenic cells and exhibits a preferential subplasmalemmal localization, although it shows also an intracellular location, more or less pronounced depending on the type of spermatogenic cell examined. Taken together, our data show that cAMP activates Rap1 in differentiating male germ cells which express the cAMP sensor Epac, thus suggesting that this activation might occur directly through Epac.

Biochemical characterization of the boar sperm 42 kilodalton protein tyrosine kinase: its potential for tyrosine as well as serine phosphorylation towards microtubule-associated protein 2 and histone H 2B.

The majority of cellular responses to changing environmental conditions is regulated by protein kinases. Spermatozoa have many special properties, including motility with demonstrated chemotaxis, the ability to undergo capacitation, and the acrosome reaction, which are in part controlled by extracellular signals and in which sperm kinases are considered to be involved. We have previously reported that there is a protein kinase activity, which phosphorylates the synthetic substrate poly-(Glu, Tyr) with a Km value of 2.3 microM, and is inhibited by the tyrosine kinase inhibitor tyrphostin, in the protein extract from boar spermatozoa (Berruti and Porzio, 1992: Biochim Biophys Acta 1118:149-154). Now we have demonstrated that the enzyme is cytosolic, is active as a monomer of M(r) 42,000, is stimulated by Mg2+ > Mn2+ but not by Ca2+, is renaturable, and can phosphorylate native protein substrates such as microtubule-associated protein 2 (MAP2) and histone H2B both on the tyrosine and serine residues. N-terminal sequence analysis suggests that it is a novel protein. These new findings imply that the boar sperm 42 kD kinase may be a novel member of the emerging class of dual-specificity protein kinases, and they raise the intriguing question of its function in the protein kinase network mediating signal transduction in mammalian spermatozoa.

Multiple forms of boar, bull, and human acrosin.

Analytical disk gel electrophoresis with staining techniques for amidohydrolase activity at pH 7.6 demonstrated that partially purified acrosomal extracts of ejaculated bull, boar, and human spermatozoa contained three, apparently four, and two fractions, respectively, with acrosin-like activity. Acrosin amidohydrolase activity is present in the gels incubated in the staining medium at pH 5.0. Some methods for the extraction of human acrosin have been compared. These consist essentially of the extraction by detergent treatment and the extraction by acid procedures. Acid extraction of human spermatozoa yields a higher amount of acrosin than does detergent extraction; the acrosin specific activity, extracted by these methods, seems to be similar.