Your search keyword '"González Enrique A"' showing total 14 results

1. Calpain Regulates Reactive Oxygen Species Production during Capacitation through the Activation of NOX2 and NOX4.

Author

Ortiz-García, César I., Salgado-Lucio, Monica L., Roa-Espitia, Ana L., Muñoz-Sánchez, Aidé A., Cordero-Martínez, Joaquín, and Hernández-González, Enrique O.

Subjects

REACTIVE oxygen species, CALPAIN, ACROSOME reaction, GUINEA pigs, SPERMATOZOA, OXIDASES

Abstract

Capacitation is a series of physiological, biochemical, and metabolic changes experienced by mammalian spermatozoa. These changes enable them to fertilize eggs. The capacitation prepares the spermatozoa to undergo the acrosomal reaction and hyperactivated motility. Several mechanisms that regulate capacitation are known, although they have not been fully disclosed; among them, reactive oxygen species (ROS) play an essential role in the normal development of capacitation. NADPH oxidases (NOXs) are a family of enzymes responsible for ROS production. Although their presence in mammalian sperm is known, little is known about their participation in sperm physiology. This work aimed to identify the NOXs related to the production of ROS in guinea pig and mouse spermatozoa and define their participation in capacitation, acrosomal reaction, and motility. Additionally, a mechanism for NOXs' activation during capacitation was established. The results show that guinea pig and mouse spermatozoa express NOX2 and NOX4, which initiate ROS production during capacitation. NOXs inhibition by VAS2870 led to an early increase in the capacitation and intracellular concentration of Ca2+ in such a way that the spermatozoa also presented an early acrosome reaction. In addition, the inhibition of NOX2 and NOX4 reduced progressive motility and hyperactive motility. NOX2 and NOX4 were found to interact with each other prior to capacitation. This interaction was interrupted during capacitation and correlated with the increase in ROS. Interestingly, the association between NOX2-NOX4 and their activation depends on calpain activation, since the inhibition of this Ca2+-dependent protease prevents NOX2-NOX4 from dissociating and ROS production. The results indicate that NOX2 and NOX4 could be the most important ROS producers during guinea pig and mouse sperm capacitation and that their activation depends on calpain. [ABSTRACT FROM AUTHOR]

Published

2023

2. Participation of signaling proteins in sperm hyperactivation.

Author

Cordero-Martínez, Joaquín, Jimenez-Gutierrez, Guadalupe Elizabeth, Aguirre-Alvarado, Charmina, Alacántara-Farfán, Verónica, Chamorro-Cevallos, Germán, Roa-Espitia, Ana L., Hernández-González, Enrique O., and Rodríguez-Páez, Lorena

Subjects

CYSTIC fibrosis transmembrane conductance regulator, SPERMATOZOA, GENITALIA, CALCIUM channels, ADENYLATE cyclase

Abstract

Sperm hyperactivation is described as a fast whip movement of the flagellum, an irregular trajectory, and an asymmetrically flagellum bend. This motility pattern is achieved during the passage of the sperm along the female genital tract. It helps the spermatozoa to cross through different viscous ambient fluids to finally reach the oocyte. Important signaling proteins are located in the sperm head and flagellum, and they all play an important role in the cascade that controls the sperm hyperactivation. The presence of HCO3− modulates the activity of the soluble adenylyl cyclase (sAC), leading to the production of cAMP. In turn, cAMP modulates the sperm-specific Na+/H+ exchanger (sNHE) and the t-complex protein 11 (TCP11) which play an essential role on the signaling pathway (cAMP/PKA and tyrosine phosphorylation) and sperm hypermotility. sNHE, cystic fibrosis transmembrane conductance regulator (CFTR), and voltage-gated proton channel (Hv) mainly contribute to the regulation of the intracellular pH (pHi) during capacitation. HCO3− entrance and the removal of H+ from the cytoplasm induces the alkalization of pHi, and this change will contribute to the activation of the cation channel of sperm (CatSper). Recently, it was described the participation on sperm motility and the regulation of calcium channels of an autophagy-related protein, the microtubule-associated protein light chain 3 (LC3). This review gathers important literature about the essential roles of sAC, sNHE, CFTR, Hv, and CatSper in the acquisition of sperm hyperactivation, and provides an integrated overview of recently described roles of TCP11 and LC3 on the sperm signaling pathway. Additionally, we provide insight into the infertility induced by the dysfunction of these critical proteins. [ABSTRACT FROM AUTHOR]

Published

2022

3. Efecto de la vitamina biotina en la estructura y motilidad del espermatozoide durante la capacitación.

Author

Pastén Hidalgo, Karina, Riverón Negrete, Leticia, González Maciel, Angélica, Reynoso Robles, Rafael, Cordero-Martínez, Joaquín, Roa Espitia, Ana L., Hernández González, Enrique O., Hernández Vázquez, Alain, and Fernández Mejía, Cristina

Abstract

Copyright of Acta Pediatrica de Mexico is the property of Instituto Nacional de Pediatria (INP) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. Calpain inhibition prevents flotillin re-ordering and Src family activation during capacitation.

Author

Maldonado-García, Deneb, Salgado-Lucio, Monica, Roa-Espitia, Ana, Reyes-Miguel, Tania, and Hernández-González, Enrique

Subjects

FERTILIZATION (Biology), SPERMATOZOA, SPECTRIN, CALPAIN, AUTOPHOSPHORYLATION, FLOTILLINS

Abstract

Prior to fertilization, mammalian sperm undergo several molecular, biochemical and physiological changes in a process termed capacitation. However, the mechanisms explaining the involvement of cytoskeletal remodeling and membrane re-ordering in each process prior to fertilization remain poorly understood. We found that the migration of both flotillin microdomains and Src family kinases towards the apical ridge of guinea pig sperm occurs under capacitating conditions. This re-ordering is associated with spectrin cleavage by calpain. Moreover, Src, Fyn, Lyn and Hck interact with flotillin-1; this interaction increases in a capacitation-dependent manner and the increased autophosphorylation of these kinases is linked to flotillin-1 association. The aforementioned results are prevented by the inhibition of calpain by calpeptin. Thus, spectrin cytoskeleton cleavage during capacitation seems to precede the reorganization of flotillin microdomains and Src family kinases towards the apical ridge of the sperm head in order to initiate the signaling cascade required for proper capacitation and further acrosome reaction. The significance of the Src family kinase reorganization for capacitation is demonstrated by the inhibition of calpain during capacitation also preventing the Src-family-kinase-dependent phosphorylation of FAK at Tyr576/577. Our work further highlights the scaffolding properties of flotillin microdomains and reveals the importance of their large-scale segregation during capacitation. [ABSTRACT FROM AUTHOR]

Published

2017

5. ADAM15 participates in fertilization through a physical interaction with acrogranin.

Author

Pastén, Karina, Bastian, Yadira, Roa-Espitia, Ana L., Maldonado-García, Deneb, Mendoza-Hernández, Guillermo, Ortiz-García, Cesar I., Mújica, Adela, and Hernández-González, Enrique O.

Subjects

FERTILIZATION (Biology), PROTEIN-protein interactions, SPERMATOZOA, OVUM, GUINEA pigs, METALLOPROTEINASES, CELL membranes, REPRODUCTION, MAMMALS

Abstract

Mammalian fertilization is completed by direct interaction between sperm and egg. This process is primarily mediated by both adhesion and membrane-fusion proteins found on the gamete surface. ADAM1, 2, and 3 are members of the ADAMs protein family, and have been involved in sperm-egg binding. In this study, we demonstrate the proteolytic processing of ADAM15 during epididymal maturation of guinea pig spermatozoa to produce a mature form a size of 45 kDa. We find that the size of the mature ADAM15, 45 kDa, in cauda epididymal spermatozoa indicates that the pro-domain and metalloprotease domain are absent. In addition, using indirect immunofluorescence, ADAM15 was found throughout the acrosome, at the equatorial region and along the flagellum of guinea pig spermatozoa. After acrosome reaction, ADAM15 is lost from the acrosomal region and retained in the equatorial region and flagellum. In this study, we also report the first evidence of a complex between ADAM15 and acrogranin. By immunoprecipitation, we detected a protein band of 65 kDa which co-immunoprecipated together ADAM15. Analysis of the N-terminal sequence of this 65 kDa protein has revealed its identity as acrogranin. In addition, using cell-surface labeling, ADAM15 was found to be present on the cell surface. Assays of heterologous fertilization showed that the antibody against acrogranin inhibited the sperm-egg adhesion. Interestingly, ADAM15 and acrogranin were also found associated in two breast cancer cell lines. In conclusion, our results demonstrated that ADAM15 and acrogranin are present on and associated with the surface of guinea pig spermatozoa; besides both proteins may play a role during sperm-egg binding. [ABSTRACT FROM AUTHOR]

Published

2014

6. Involvement of Cystic Fibrosis Transmembrane Conductance Regulator in Mouse Sperm Capacitation.

Author

Hernández-González, Enrique O., Treviño, Claudia L., Castellano, Laura E., De Ia Vega-Beltrán, José L., Ocampo, Ana Y., Wertheimer, Eva, Visconti, Pablo E., and Darszon, Alberto

Subjects

*SPERMATOZOA, *AMINO acids, *PHOSPHORYLATION, *ZONA pellucida, *POTASSIUM channels, *SODIUM channels

Abstract

Mammalian sperm acquire fertilizing ability in the female tract during a process known as capacitation. In mouse sperm, this process is associated with increases in protein tyrosine phosphorylation, membrane potential hyperpolarization, increase in intracellular pH and Ca2+, and hyperactivated motility. The molecular mechanisms involved in these changes are not fully known. Present evidence suggests that in mouse sperm the capacitation-associated membrane hyperpolarization is regulated by a cAMP/protein kinase A-dependent pathway involving activation of inwardly rectifying K+ channels and inhibition of epithelial sodium channels (ENaCs). The cystic fibrosis transmembrane conductance regulator (CFTR) is a Cl- channel that controls the activity of several transport proteins, including ENaCs. Here we explored whether CFTR is involved in the regulation of ENaC inhibition in sperm and therefore is essential for the capacitation-associated hyperpolarization. Using reverse transcription-PCR, Western blot, and immunocytochemistry, we document the presence of CFTR in mouse and human sperm. Interestingly, the addition of a CFTR inhibitor (diphenylamine-2-carboxylic acid; 250 µM) inhibited the capacitation-associated hyperpolarization, prevented ENaC closure, and decreased the zona pellucida-induced acrosome reaction without affecting the increase in tyrosine phosphorylation. Incubation of sperm in Cl--free medium also eliminated the capacitation-associated hyperpolarization. On the other hand, a CFTR activator (genistein; 5-10 µM) promoted hyperpolarization in mouse sperm incubated under conditions that do not support capacitation. The addition of dibutyryl cyclic AMP to noncapacitated mouse sperm elevated intracellular Cl-. These results suggest that cAMP-dependent Cl- fluxes through CFTR are involved in the regulation of ENaC during capacitation and thus contribute to the observed hyperpolarization associated with this process. [ABSTRACT FROM AUTHOR]

Published

2007

7. Sodium and Epithelial Sodium Channels Participate in the Regulation of the Capacitation-associated Hyperpolarization in Mouse Sperm.

Author

Hernández-González, Enrique O., Sosnik, Julian, Edwards, Jennifer, Acevedo, Juan José, Mendoza-Lujambio, Irene, López-Gonzáiez, Ignacio, Demarco, Ignacio, Wertheimer, Eva, Darszon, Alberto, and Visconti, Pablo E.

Subjects

*CELL membranes, *SPERMATOZOA, *NEUROMUSCULAR depolarizing agents, *EPITHELIAL cells, *EPITHELIUM, *AMILORIDE

Abstract

In a process called capacitation, mammalian sperm gain the ability to fertilize after residing in the female tract. During capacitation the mouse sperm plasma membrane potential (Em) hyperpolarizes. However, the mechanisms that regulate sperm Em are not well understood. Here we show that sperm hyperpolarize when external Na+ is replaced by N-methyl-glucamine. Readdition of external Na+ restores a more depolarized Em by a process that is inhibited by amiloride or by its more potent derivative 5-(N-ethyl-N-isopropyl)-amiloride hydrochloride. These findings indicate that under resting conditions an electrogenic Na+ transporter, possibly involving an amiloride sensitive Na+ channel, may contribute to the sperm resting Em. Consistent with this proposal, patch clamp recordings from spermatogenic cells reveal an amiloride-sensitive inward Na+ current whose characteristics match those of the epithelial Na+ channel (ENaC) family of epithelial Na+ channels. Indeed, ENaC-α and -δ mRNAs were detected by reverse transcription-PCR in extracts of isolated elongated spermatids, and ENaC-α and -δ proteins were found on immunoblots of sperm membrane preparations. Immunostaining indicated localization of ENaC-α to the flagellar midpiece and of ENaC-δ to the acrosome. Incubations known to produce capacitation in vitro or induction of capacitation by cell-permeant cAMP analogs decreased the depolarizing response to the addition of external Na+. These results suggest that increases in cAMP content occurring during capacitation may inhibit ENaCs to produce a required hyperpolarization of the sperm membrane. [ABSTRACT FROM AUTHOR]

Published

2006

8. FAK regulates actin polymerization during sperm capacitation via the ERK2/GEF-H1/RhoA signaling pathway.

Author

Salgado-Lucio, Monica L., Ramírez-Ramírez, Danelia, Jorge-Cruz, Coral Y., Roa-Espitia, Ana L., and Hernández-González, Enrique O.

Subjects

FIBRONECTINS, GUANINE nucleotide exchange factors, ACROSOME reaction, POLYMERIZATION, SPERMATOZOA

Abstract

Actin polymerization is a crucial process during sperm capacitation. We have recently described the participation of FAK during actin polymerization in guinea pig spermatozoa. However, the mechanism by which FAK mediates these processes is unknown. Our previous data have shown that MAPK1 (hereafter referred to as ERK2) is activated during the first minutes of capacitation, and inhibition of ERK2 blocked actin polymerization and the acrosome reaction. In this current study, we found that FAK is involved in ERK2 activation - as FAK was phosphorylated at tyrosine residue 925 and bound to Grb2 - and that inhibition of FAK results in a significant decrease of ERK2 activation. We also confirmed the presence of Rho guanine nucleotide exchange factor 2 (ARHGEF2, hereafter referred to as GEF-H1), which is able to associate with RhoA during capacitation. RhoA activation and its participation in actin polymerization were also analyzed. Inhibition of FAK or ERK1/2 impeded GEF-H1 phosphorylation, RhoA activation, and the association between GEF-H1 and RhoA. Finally, we observed the presence of fibronectin on the sperm surface, its role in sperm-sperm interaction as well as participation of β-integrin in the activation of ERK2. Our results show that the signaling pathway downstream of fibronectin, via integrin, FAK, Grb2, MEK1/2, ERK2, GEF-H1 and RhoA regulates the actin polymerization associated with spermatozoa capacitation. [ABSTRACT FROM AUTHOR]

Published

2020

9. Presence, processing, and localization of mouse ADAM15 during sperm maturation and the role of its disintegrin domain during sperm-egg binding.

Author

Pastén-Hidalgo, Karina, Hernández-Rivas, Rosaura, Roa-Espitia, Ana Lilia, Sánchez-Gutiérrez, Manuel, Martínez-Pérez, Francisco, Monrroy, Alma Olivia, Hernández-González, Enrique O., and Mújica, Adela

Subjects

PROTEINS, MICE, SPERMATOZOA, INTEGRINS, FERTILIZATION (Biology)

Abstract

Successful fertilization requires gametes to complete several stages, beginning with maturation and transport along the male and female reproductive tracts and ending with the interaction between the sperm and the egg. This last step involves sperm--egg adhesion and membrane fusion. ADAMs (disintegrin and metalloprotease domain proteins) are a family of membrane-anchored glycoproteins that are thought to play diverse roles in cell--cell adhesion through their interaction with integrins. This study analyzes the presence, location, processing, and possible role of ADAM15 in mouse sperm. The presence of ADAM15 in mouse spermatozoa was detected by Western blotting, which revealed that ADAM15 is post-translationally processed, during epididymal sperm maturation and the acrosome reaction. The 35 kDa antigen present in the acrosome-reacted sperm is the last proteolytic product of the 110/75 kDa ADAM15 found in non-capacitated sperm. This 35 kDa protein contains the disintegrin domain. By indirect immunofluorescence, ADAM15 was identified in the acrosomal region and along the flagellum of mouse spermatozoa. In acrosome-reacted sperm, ADAM15 was lost from the acrosomal region, but remained diffusely distributed throughout the head and flagellum. Furthermore, the ADAM15 disintegrin domain (RPPTDDCDLPEF) partially inhibited fusion and almost completely inhibited sperm--oolemma adhesion. In conclusion, our data indicate that ADAM15 is present in the testis and in spermatozoa from the caput, corpus, and cauda epididymis, as well as in non-capacitated and acrosome-reacted gametes. Results also indicate that ADAM15 is processed during epididymal maturation and acrosome reaction and that it may play a role during sperm--egg binding. [ABSTRACT FROM AUTHOR]

Published

2008

10. Sperm channel diversity and functional multiplicity.

Author

Darszon, Alberto, Acevedo, Juan J., Galindo, Blanca E., Hernández-González, Enrique O., Nishigaki, Takuya, Treviño, Claudia L., Wood, Chris, and Beltrán, Carmen

Subjects

ION channels, CELLS, COMMUNICATION, SPERMATOZOA, FERTILIZATION (Biology)

Abstract

Ion channels are extraordinarily efficient machines that move ions in diversely controlled manners, allowing cells to rapidly exchange information with the outside world and with other cells. Communication is the currency of fertilization, as it is of most fundamental cell signaling events. Ion channels are deeply involved in the dialogue between sperm, its surroundings, and the egg. How sperm swim, find the egg and fertilize it depend on ion permeability changes modulated by environmental cues and components of the egg outer layer. Different ion channels distinctly localized in these tiny, amazing cells perform specific decoding functions that shape the sophisticated behavior of sperm. It is not surprising that certain sperm ion channels are turning out to be unique. New strategies to characterize sperm ion transport have opened exciting possibilities to dissect sperm--egg signaling and unveil novel contraception targets. [ABSTRACT FROM AUTHOR]

Published

2006

11. Perfluorooctane sulfonate and perfluorooctanoic acid induce plasma membrane dysfunction in boar spermatozoa during in vitro capacitation.

Author

Ortiz-Sánchez, Paola Berenice, Roa-Espitia, Ana L., Fierro, Reyna, López-Torres, Aideé S., Jiménez-Morales, Irma, Oseguera-López, Iván, Hernández-González, Enrique O., and González-Márquez, Humberto

Subjects

*PERFLUOROOCTANOIC acid, *PERFLUOROOCTANE sulfonate, *CELL membranes, *ACROSOME reaction, *FLUOROALKYL compounds, *SPERMATOZOA, *INTRACELLULAR calcium

Abstract

Spermatozoa require the capacitation, a series of biochemical events, to perform fertilization. Many toxic compounds can interfere in this process, including perfluorooctane sulfonate (PFOS) and perfluorooctanoic acid (PFOA), which belong to the perfluoroalkyl substances (PFAS). Since both substances are found in many everyday materials and are highly persistent, they accumulate in organisms where they have been associated with fertility problems. This study analyzes the effects of PFOS and PFOA on the functionality of boar spermatozoa, and changes in the plasma membrane (PM) during capacitation. The median lethal concentrations (LC50) of PFOS and PFOA were 460 and 1894 µM, respectively, while the mean inhibitory concentrations of capacitation (ICC50) were 274 µM and 1458 µM, respectively. The ICC50 of PFOA was insufficient to reduce the capacitation, but 950 µM (½ LC50) of PFOA and the ICC50 of PFOS significantly reduced the number of capacitated spermatozoa. PFOS and PFOA also impeded the progesterone (P4)-induced acrosomal reaction (iAR). These effects occur despite the accumulation of [Ca2+] i under capacitating conditions. The accumulation of [Ca2+] i produces saturation, which prevents its entry through ionophore A23187 and P4 in the presence of PFOS. Membrane potential (Emv) was deregulated. Both PFAS affected lipid membrane conductance mediated by valinomycin. The spermatozoa presented 49% and 47% of membrane dysfunction with PFOS and PFOA, respectively. By causing membrane damage, both substances prevented the release of cholesterol and altered the organization of membrane microdomains (MMDs). Data indicate that both PFAS caused alterations in PM functionality. • PFOS and PFOA slowed down the capacitation process of boar spermatozoa. • They increased intracellular calcium significantly during capacitation. • PFOS and PFOA produce membrane plasma dysfunction. • Both compounds alter cholesterol efflux and the reorganization of membrane domains. • PFOS and PFOA alter the distribution of actin-F cytoskeleton. [ABSTRACT FROM AUTHOR]

Published

2022

12. Dietary Biotin Supplementation Impairs Testis Morphology and Sperm Quality.

Author

Pastén-Hidalgo, Karina, Riverón-Negrete, Leticia, Sicilia-Argumedo, Gloria, Canul-Medina, Gustavo, Salazar-Anzures, Tonatiuh, Tapia-Rodríguez, Miguel, Hernández-González, Enrique O., Roa-Espitia, Ana Lilia, Cedillo-Peláez, Carlos, and Fernandez-Mejia, Cristina

Subjects

*CELL proliferation, *ANIMAL experimentation, *BIOMARKERS, *BIOTIN, *DIETARY supplements, *MICE, *SPERMATOZOA, *SPERM motility, *TESTIS, *TESTOSTERONE, *TOXICITY testing, *SPERM count

Abstract

Supplements containing pharmacological concentrations of biotin are commercially available over the counter. Classical toxicity studies have considered biotin administration as harmless; however, recent investigations have shown that biotin supplementation modifies tissue morphology without changes in toxicity markers, raising concerns about the consequences of morphological changes on tissues' functions and the safety of pharmacological concentrations of the vitamin. Testes are very sensitive to toxicants, and testicular histology is a reliable method to study its function. In this work, we investigated the effects of dietary biotin supplementation on testis morphology and spermatogenesis function using an experimental model, in which we have not observed unfavorable effects on other tissue functions or toxicity markers. Male BALB/cAnNHsd mice were fed a control or a biotin-supplemented diet (1.76 or 97.7 mg biotin/kg diet) for 8 weeks. Compared to the control group, the biotin-supplemented mice presented remarkable testis morphology changes, including increased spermatogonia layers; the cellular mechanism involved is related to increased proliferation. Sperm count and serum testosterone levels were not affected, but spermatozoa motility and morphology were significantly impaired in the biotinsupplemented mice. These results caution against the use of supplements with high concentrations of biotin and indicate that biotin's pharmacological effects on morphology need to be considered in toxicological studies. [ABSTRACT FROM AUTHOR]

Published

2020

13. Cytoskeletal proteins F-actin and β-dystrobrevin are altered by the cryopreservation process in bull sperm

Author

Felipe-Pérez, Yazmin Elizabeth, Valencia, Jaime, Juárez-Mosqueda, María de Lourdes, Pescador, Nasario, Roa-Espitia, Ana Lilia, and Hernández-González, Enrique Othón

Subjects

*F-actin, *CYTOSKELETAL proteins, *DYSTROBREVIN, *CRYOPRESERVATION of organs, tissues, etc., *SPERMATOZOA, *CELL physiology, *CELL membranes, *CELLULAR signal transduction

Abstract

Abstract: The cryopreservation process has an important impact on sperm structure and physiology. The negative effects have been mainly observed on the plasma membrane, which is directly stabilized by the cytoskeleton. Since cytoskeleton proteins are osmosensitive and thermosensitive, the aim of this study was to evaluate the damage caused to the bull sperm cytoskeleton by cryopreservation (freezing–thawing). Fresh and frozen-thawed bull semen samples were exposed to a treatment with the neutral detergent Brij 36-T. Electron microscopy evidenced important damages at the sperm perinuclear theca after the protein extraction protocol; the perinuclear theca was partially solubilized, the perinuclear theca substructure disappeared in the cryopreserved samples. Furthermore, the sperm head’s shape was significantly altered on the cryopreserved samples. Fluorescence analysis showed a decrease of the intensity of actin and dystrobrevin on the frozen-thawed samples. Western blot assays revealed a stronger signal for actin and β-dystrobrevin in the frozen-thawed sperm samples than in the fresh ones. Our results suggest that the cryopreservation process highly alters the sperm cytoskeleton stability, causing its proteins to become more fragile and therefore more susceptible to be extracted. [Copyright &y& Elsevier]

Published

2012

14. Low concentrations of lead decrease the sperm fertilization ability by altering the acrosome reaction in mice.

Author

Godínez-Solís, Yazmín, Solís-Heredia, María de Jesúa, Roa-Espitia, Ana, Parra-Forero, Lyda Yuliana, Hernández-González, Enrique O., Hernández-Ochoa, Isabel, and Quintanilla-Vega, Betzabet

Subjects

*ACROSOME reaction, *LEAD toxicology, *SPERMATOZOA, *FERTILIZATION in vitro, *OXIDATIVE stress, *MICE, *DRINKING water

Abstract

Lead (Pb) exposure at high concentrations is associated with poor sperm quality, acrosome alterations, and low fertilization rate. Sperm capacitation and the acrosome reaction (AR) are required for successful fertilization. Actin polymerization is crucial for correct capacitation, and small GTPases, such as RhoA, Rac1, and Cdc42, are involved. This study aimed to evaluate the effects of Pb on sperm fertilization ability, capacitation, AR, and the mechanisms involved in mice exposed to low Pb concentrations. CD1 mice were exposed to 0.01% Pb2+ for 45 days through their drinking water and their spermatozoa were collected from the cauda epididymis-vas deferens to evaluate the following: AR (oAR: initial, sAR: spontaneous, and iAR: induced) using the PNA-FITC assay, sperm capacitation (P-Tyr levels), actin polymerization (phalloidin-TRITC), MDA production (stress oxidative marker), the RhoA, Rac1, and Cdc42 protein levels, and the in vitro fertilization (IVF). After the treatment, the blood Pb (PbB) concentration was 9.4 ± 1.6 μg/dL. Abnormal sperm morphology and the oAR increased (8 and 19%, respectively), whereas the iAR decreased (15%) after a calcium ionophore challenge, and the actin polymerization decreased in the sperm heads (59%) and tails (42%). Rac1 was the only Rho protein to significantly decrease (33%). Spermatozoa from the Pb-treated mice showed a significant reduction in the fertilization rate (19%). Our data suggest that Pb exposure at environmental concentrations (PbB < 10 μg/dL) decreases the acrosome function and affects the sperm fertilization ability; this is probably a consequence of the low Rac1 levels, which did not allow adequate actin polymerization to occur. • Lead exposure decreases actin polymerization and acrosome reaction. • Rac1 is a target of Pb toxicity in sperm cells. • Low Pb concentrations decrease the fertilization rate of spermatozoa. [ABSTRACT FROM AUTHOR]

Published

2019