Your search keyword '"Tomes, Claudia N."' showing total 11 results

1. The signaling module cAMP/Epac/Rap1/PLCε/IP3 mobilizes acrosomal calcium during sperm exocytosis

Author

Lucchesi, Ornella, Ruete, María C., Bustos, Matías A., Quevedo, María F., and Tomes, Claudia N.

Published

2016

2. Protein kinase C-mediated phosphorylation of the two polybasic regions of synaptotagmin VI regulates their function in acrosomal exocytosis

Author

Roggero, Carlos M., Tomes, Claudia N., De Blas, Gerardo A., Castillo, Jimena, Michaut, Marcela A., Fukuda, Mitsunori, and Mayorga, Luis S.

Subjects

Exocytosis -- Analysis, Phosphorylation -- Analysis, Protein kinases -- Structure, Protein kinases -- Research, Spermatozoa -- Research, Biological sciences

Abstract

We have previously reported that synaptotagmin VI is present in human sperm cells and that a recombinant protein containing the C2A and C2B domains abrogates acrosomal exocytosis in permeabilized spermatozoa, an effect that was regulated by phosphorylation. In this report, we show that each individual C2 domain blocks acrosomal exocytosis. The inhibitory effect was completely abrogated by phosphorylation of the domains with purified PKC[beta]II. We found by site-directed mutagenesis that Thr418 and/or Thr419 in the polybasic region (KKKTTIK) of the C2B domain--a key region for the function of synaptotagmins--are the PKC target that regulates its inhibitory effect on acrosomal exocytosis. Similarly, we showed that Thr284 in the polybasic region of C2A (KCKLQTR) is the target for PKC-mediated phosphorylation in this domain. An antibody that specifically binds to the phosphorylated polybasic region of the C2B domain recognized endogenous phosphorylated synaptotagmin in the sperm acrosomal region. The antibody was inhibitory only at early stages of exocytosis in sperm acrosome reaction assays, and the immunolabeling decreased upon sperm stimulation, indicating that the protein is dephosphorylated during acrosomal exocytosis. Our results indicate that acrosomal exocytosis is regulated through the PKC-mediated phosphorylation of conserved threonines in the polybasic regions of synaptotagmin VI. Keywords: Spermatozoon; Acrosome reaction; Human sperm; Synaptotagmin; PKC; Phosphorylation

Published

2005

3. SNARE complex assembly is required for human sperm acrosome reaction

Author

Tomes, Claudia N., Michaut, Marcela, De Blas, Gerardo, Visconti, Pablo, Matti, Ulf, and Mayorga, Luis S.

Subjects

Spermatozoa -- Physiological aspects, Calcium metabolism -- Research, Exocytosis -- Research, Biological sciences

Published

2002

4. Synaptotagmin VI Participates in the Acrosome Reaction of Human Spermatozoa

Author

Michaut, Marcela, De Blas, Gerardo, Tomes, Claudia N., Yunes, Roberto, Fukuda, Mitsunori, and Mayorga, Luis S.

Subjects

Exocytosis -- Genetic aspects, Spermatozoa -- Genetic aspects, Developmental genetics -- Research, Biological sciences

Abstract

Acrosomal exocytosis is a calcium-dependent secretion event causing the release of the acrosomal contents and the loss of the membranes surrounding the acrosome. The synaptotagmins are a family of calcium-binding proteins that participate in the exocytosis of synaptic vesicles. The ubiquitous synaptotagmin VI isoform was found in human sperm cells by Western blot analysis. Immunocytochemistry at the optical and electron microscopy levels localized the protein to the outer acrosomal membrane. Calcium-triggered acrosomal exocytosis in permeabilized sperm cells was abrogated by a specific anti-synaptotagmin VI antibody, indicating that the protein is required for the process. Moreover, a recombinant fusion protein between glutathione S-transferase and the two calcium and phospholipid binding domains of synaptotagmin VI completely inhibited calcium-triggered exocytosis. Interestingly, phorbol ester-dependent in vitro phosphorylation of this recombinant protein abolished its inhibitory effect. We previously showed that, in permeabilized spermatozoa, addition of active Rab3A triggers acrosomal exocytosis at very low calcium concentration. Rab3A-promoted exocytosis was inhibited by the cytosolic domain of synaptotagmin VI and by the anti-synaptotagmin VI antibody, indicating that synaptotagmin is also necessary for Rab-mediated acrosomal content release. In conclusion, the results strongly indicate that synaptotagmin VI is a key component of the secretory machinery involved in acrosomal exocytosis. Key Words: acrosome reaction; regulated exocytosis; membrane fusion; synaptotagmin VI; synaptotagmin phosphorylation; protein kinase C; human spermatozoa; streptolysin O.

Published

2001

5. Calcium-induced Acrosomal Exocytosis Requires, cAMP Acting through a Protein Kinase A-independent, Epac-mediated Pathway.

Author

Branham, María T., Mayorga, Luis S., and Tomes, Claudia N.

Subjects

*EXOCYTOSIS, *CALCIUM, *NUCLEOTIDES, *GUANOSINE triphosphatase, *CYCLIC adenylic acid, *PROTEIN kinases

Abstract

Epac, a guanine nucleotide exchange factor for the small GTPase Rap, binds to and is activated by the second messenger cAMP. In sperm, there are a number of signaling pathways required to achieve egg-fertilizing ability that depend upon an intracellular rise of cAMP. Most of these processes were thought to be mediated by cAMP-dependent protein kinases. Here we report a new dependence for the cAMP-induced acrosome reaction involving Epac. The acrosome reaction is a specialized type of regulated exocytosis leading to a massive fusion between the outer acrosomal and the plasma membranes of sperm cells. Ca2+ is the archetypical trigger of regulated exocytosis, and we show here that its effects on acrosomal release are fully mediated by cAMP. Ca2+ failed to trigger acrosomal exocytosis when intracellular cAMP was depleted by an exogenously added phosphodiesterase or when Epac was sequestered by specific blocking antibodies. The nondiscriminating dibutyryl-cAMP and the Epac-selective 8-(p-chlorophenylthio)-2'-O-methyladenosine-3',5'-cyclic monophosphate analogues triggered the acrosome reaction in the effective absence of extracellular Ca2+. This indicates that cAMP, via Epac activation, has the ability to drive the whole cascade of events necessary to bring exocytosis to completion, including tethering and docking of the acrosome to the plasma membrane, priming of the fusion machinery, mobilization of intravesicular Ca2+, and ultimately, bilayer mixing and fusion. cAMP-elicited exocytosis was sensitive to anti-α-SNAP, anti-NSF, and anti-Rab3A antibodies, to intra-acrosomal Ca2+ chelators, and to botulinum toxins but was resistant to cAMP-dependent protein kinase blockers. These experiments thus identify Epac in human sperm and evince its indispensable role downstream of Ca2+ in exocytosis. [ABSTRACT FROM AUTHOR]

Published

2006

6. Membrane-permeable Rab27A is a regulator of the acrosome reaction: Role of geranylgeranylation and guanine nucleotides.

Author

Bustos, Matías A., Lucchesi, Ornella, Ruete, María C., and Tomes, Claudia N.

Subjects

*MEMBRANE proteins, *ACROSOME reaction, *EXOCYTOSIS, *ISOPRENYLATION, *SYNAPTOTAGMINS, *GUANOSINE triphosphatase

Abstract

The acrosome reaction is the regulated exocytosis of mammalian sperm's single secretory granule, essential for fertilization. It relies on small GTPases, the cAMP binding protein Epac, and the SNARE complex, among other components. Here, we describe a novel tool to investigate Rab27-related signaling pathways: a hybrid recombinant protein consisting of human Rab27A fused to TAT, a cell penetrating peptide. With this tool, we aimed to unravel the connection between Rab3, Rab27 and Rap1 in sperm exocytosis and to deepen our understanding about how isoprenylation and guanine nucleotides influence the behaviour of Rab27 in exocytosis. Our results show that TAT-Rab27A-GTP-γ-S permeated into live sperm and triggered acrosomal exocytosis per se when geraylgeranylated but inhibited it when not lipid-modified. Likewise, an impermeant version of Rab27A elicited exocytosis in streptolysin O-permeabilized — but not in non-permeabilized — cells when geranylgeranylated and active. When GDP-β-S substituted for GTP-γ-S, isoprenylated TAT-Rab27A inhibited the acrosome reaction triggered by progesterone and an Epac-selective cAMP analogue, whereas the non-isoprenylated protein did not. Geranylgeranylated TAT-Rab27A-GTP-γ-S promoted the exchange of GDP for GTP on Rab3 and Rap1 detected by far-immunofluorescence with Rab3-GTP and Rap1-GTP binding cassettes. In contrast, TAT-Rab27A lacking isoprenylation or loaded with GDP-β-S prevented the activation of Rab3 and Rap1 elicited by progesterone. Challenging streptolysin O-permeabilized human sperm with calcium increased the population of sperm with Rap1-GTP, Rab3-GTP and Rab27-GTP in the acrosomal region; pretreatment with anti-Rab27 antibodies prevented the activation of all three. The novel findings reported here include: the description of membrane permeant TAT-Rab27A as a trustworthy tool to unveil the regulation of the human sperm acrosome reaction by Rab27 under physiological conditions; that the activation of endogenous Rab27 is required for that of Rab3 and Rap1; and the connection between Epac and Rab27 and between Rab27 and the configuration of the SNARE complex. Moreover, we present direct evidence that Rab27A's lipid modification, and activation/inactivation status correlate with its stimulatory or inhibitory roles in exocytosis. [ABSTRACT FROM AUTHOR]

Published

2018

7. The Rab3A-22A Chimera Prevents Sperm Exocytosis by Stabilizing Open Fusion Pores.

Author

Quevedo, María F., Lucchesi, Ornella, Bustos, Matías A., Pocognoni, Cristian A., De la Iglesia, Paola X., and Tomes, Claudia N.

Subjects

*SPERMATOZOA physiology, *ACROSOMES, *SECRETORY granules, *EXOCYTOSIS, *STREPTOLYSIN, *CELL communication, *BIOLOGICAL membranes, *CONFOCAL microscopy

Abstract

At the final stage of exocytotis, a fusion pore opens between the plasma and a secretory vesicle membranes; typically, when the pore dilates the vesicle releases its cargo. Sperm contain a large dense-core secretory granule (the acrosome) whose contents are secreted by regulated exocytosis at fertilization. Minutes after the arrival of the triggering signal, the acrosomal and plasma membranes dock at multiple sites and fusion pores open at the contact points. It is believed that immediately afterward, fusion pores dilate spontaneously. Rab3A is an essential component of human sperm exocytotic machinery. Yet, recombinant, persistently active Rab3A halts calcium-triggered secretion when introduced after docking into streptolysin O-permeabilized cells; so does a Rab3A-22A chimera. Here, we applied functional assays, electron and confocal microscopy to show that the secretion blockage is due to the stabilization of open fusion pores. Other novel findings are that sperm SNAREs engage in α-SNAP/NSF-sensitive complexes at a post-fusion stage. Complexes are disentangled by these chaperons to achieve vesiculation and acrosomal contents release. Thus, post-fusion regulation of the pores determines their expansion and the success of the acrosome reaction. [ABSTRACT FROM AUTHOR]

Published

2016

8. Munc18-1 Controls SNARE Protein Complex Assembly during Human Sperm Acrosomal Exocytosis.

Author

Rodríguez, Facundo, Zanetti, M. Natalia, Mayorga, Luis S., and Tomes, Claudia N.

Subjects

*SNARE proteins, *EXOCYTOSIS, *SPERMATOZOA, *IMMUNOGLOBULINS, *SYNTAXINS, *ELECTRON microscopy

Abstract

The spermatozoon is a very specialized cell capable of carrying out a limited set of functions with high efficiency. Sperm are then excellent model cells to dissect fundamental processes such as regulated exocytosis. The secretion of the single densecore granule of mammalian spermatozoa relies on the same highly conserved molecules and goes through the same stages as exocytosis in other types of cells. In this study, we describe the presence of Munc18-1 in human sperm and show that this protein has an essential role in acrosomal exocytosis. We observed that inactivation of endogenous Munc18-1 with a specific antibody precluded the stabilization of trans-SNARE complexes and inhibited acrosomal exocytosis. Addition of recombinant Munc18-1 blocked secretion by sequestering monomeric syntaxin, an effect that was rescued by α-soluble NSF attachment protein. By electron microscopy, we observed that both the anti-Munc18-1 antibody and recombinant Munc18-1 inhibited the docking of the acrosome to the plasma membrane. In conclusion, our results indicate that Munc18-1 plays a key role in the dynamics of trans-SNARE complex assembly and/or stabilization, a process that is necessary for the docking of the outer acrosomal membrane to the plasma membrane and subsequent fusion pore opening. [ABSTRACT FROM AUTHOR]

Published

2012

9. Epac Activates the Small G Proteins Rapi and Rab3A to Achieve Exocytosis.

Author

Branham, Maria T., Bustos, Matías A., De BIas, Gerardo A., Rehmann, Holger, Zarelli, Valeria E. P., Treviño, Claudia L., Darszon, Alberto, Mayorga, Luis S., and Tomes, Claudia N.

Subjects

*EXOCYTOSIS, *ACROSOME reaction, *INOSITOL, *PROTEIN kinases, *G proteins, *GUANOSINE triphosphatase, *ADENYLATE cyclase, *PHOSPHOLIPASES

Abstract

Exocytosis of the acrosome (the acrosome reaction) relies on cAMP production, assembly of a proteinaceous fusion machinery, calcium influx from the extracellular medium, and mobilization from inositol 1,4,5-trisphosphate-sensitive intracellular stores. Addition of cAMP to human sperm suspensions bypasses some of these requirements and elicits exocytosis in a protein kinase A and extracellular calcium-independent manner. The relevant cAMP target is Epac, a guanine nucleotide exchange factor for the small GTPase Rap. We show here that a soluble adenylyl cyclase synthesizes the cAMP required for the acrosome reaction. Epac stimulates the exchange of GDP for GTP on Rap 1, upstream of a phospholipase C. The Epac-selective cAMP analogue 8-pCPT-2'-O-Me-cAMP induces a phospholipase Cdependent calcium mobilization in human sperm suspensions. In addition, our studies identify a novel connection between cAMP and Rab3A, a secretory granule-associated protein, revealing that the latter functions downstream of soluble adenylyl cyclase/cAMP/Epac but not of Rapi. Challenging sperm with calcium or 8-pCPT-2'-O-Me-cAMP boosts the exchange of GDP for GTP on Rab3A. Recombinant Epac does not release GDP from Rab3A in vitro, suggesting that the Rab3A-GEF activation by cAMP/Epac in vivo is indirect. We propose that Epac sits at a critical point during the exocytotic cascade after which the pathway splits into two limbs, one that assembles the fusion machinery into place and another that elicits intracellular calcium release. [ABSTRACT FROM AUTHOR]

Published

2009

10. PTP1B Dephosphorylates N-Ethylmaleimide-sensitive Factor and Elicits SNARE Complex Disassembly during Human Sperm Exocytosis.

Author

Zarelli, Valeria E. P., Ruete, Maria C., Roggero, Carlos M., Mayorga, Luis S., and Tomes, Claudia N.

Subjects

*PROTEIN-tyrosine kinases, *EXOCYTOSIS, *ACROSOME reaction, *PHOSPHORYLATION, *CELL membranes

Abstract

The reversible phosphorylation of tyrosyl residues in proteins is a cornerstone of the signaling pathways that regulate numerous cellular responses. Protein tyrosine phosphorylation is controlled through the concerted actions of protein-tyrosine kinases and phosphatases. The goal of the present study was to unveil the mechanisms by which protein tyrosine dephosphorylation modulates secretion. The acrosome reaction, a specialized type of regulated exocytosis undergone by sperm, is initiated by calcium and carried out by a number of players, including tyrosine kinases and phosphatases, and fusion-related proteins such as Rab3A, α-SNAP, N-ethylmaleimide-sensitive factor (NSF), SNAREs, complexin, and synaptotagmin VI. We report here that inducers were unable to elicit the acrosome reaction when permeabilized human sperm were loaded with anti-PTP1B antibodies or with the dominant-negative mutant PTP1B D181A; subsequent introduction of wild type PTP1B or NSF rescued exocytosis. Wild type PTP1B, but not PTP1B D181A, caused cis SNARE complex dissociation during the acrosome reaction through a mechanism involving NSF. Unlike its non-phosphorylated counterpart, recombinant phospho-NSF failed to dissociate SNARE complexes from rat brain membranes. These results strengthen our previous observation that NSF activity is regulated rather than constitutive during sperm exocytosis and indicate that NSF must be dephosphorylated by PTP1B to disassemble SNARE complexes. Interestingly, phospho-NSF served as a substrate for PTP1B in an in vitro assay. Our findings demonstrate that phosphorylation of NSF on tyrosine residues prevents its SNARE complex dissociation activity and establish for the first time a role for PTP1B in the modulation of the membrane fusion machinery. [ABSTRACT FROM AUTHOR]

Published

2009

11. Complexin/Synaptotagmin Interplay Controls Acrosomal Exocytosis.

Author

Roggero, Carlos M., de Blas, Gerardo A., Han Dais, Tomes, Claudia N., Rizo, Josep, and Mayorga, Luis S.

Subjects

*CELL physiology, *EXOCYTOSIS, *ACROSOME reaction, *FERTILIZATION (Biology), *MAMMALS, *PHOSPHOLIPID antibodies, *BIOCHEMISTRY

Abstract

Regulated secretion is a fundamental process underlying the function of many cell types. In particular, acrosomal exocytosis in mammalian sperm is essential for egg fertilization. Regulated secretion requires SNARE proteins and, in neurons, also synaptotagmin I and complexin. Recent reports suggest that complexin imposes a fusion block that is released by Ca2+ and synaptotagmin I. However, no direct evidence for this model in secreting cells has been provided and whether this cornplexin/ synaptotagmin interplay functions in other types of secretion is unknown. In this report, we show that the C2B domain of synaptotagmin VI and an anti-complexin antibody blocked the formation of trans SNARE complexes in permeabilized human sperm, and that this effect was reversed by adding complexin. In contrast, an excess of complexin stopped exocytosis at a later step, when SNAREs were assembled in loose trans complexes. Interestingly, this blockage was released by the addition of the synaptotagmin VI C2B domain in the presence of Ca2+. We have previously demonstrated that the activity of this domain is regulated by protein kinase C-mediated phosphorylation. Here, we show that a phosphomirnetic mutation in the polybasic region of the C2B domain strongly affects its Ca2+ and phospholipids binding properties. Importantly, this mutation completely abrogates its ability to rescue the complexin block. Our results show that the functional interplay between complexin and synaptotagmin has a central role in a physiological secretion event, and that this interplay can be modulated by phosphorylation of the C2B domain. [ABSTRACT FROM AUTHOR]

Published

2007