Regulation of boar sperm functionality by the nitric oxide synthase/nitric oxide system

Staicu, Florentin-Daniel; López‐Úbeda, Rebeca; Romero-Aguirregomezcorta, Jon; Martínez-Soto, Juan Carlos; Parra, Carmen Matas

doi:10.1007/s10815-019-01526-6

Cited by 15 publications

(12 citation statements)

References 82 publications

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“…Both signaling pathways, GSK-3α and PKA, are essential in the regulation of boar sperm motility [35][36][37]. Part of our results with ONOO − are in line with a recent study in boar spermatozoa that found that phosphorylation of PKA substrates is significantly lower when using NO synthase inhibitors [27]. The peroxynitrite-induced increase in GSK-3α phosphorylation is greater in TCM (2.4 fold-increase over control), than in TBM (1.7 fold-increase) as stimulating medium TCM alone is already promoting higher levels of phosphorylated GSK-3α than the un-stimulating TBM.…”

Section: Discussionsupporting

confidence: 91%

“…Specifically, in boar spermatozoa there are discrepancies regarding the involvement of NO pathway in the acrosome reaction. Thus, Staicu et al, (2019) [27] recently found that exogenous NO does not affect acrosome reaction, whereas Hou et al, (2008) [28] described that NO donor increases the number of acrosome-reacted spermatozoa. Our results with ONOO-support the idea that the pathway of NO, including related RNS, is not likely involved in the acrosome reaction of boar spermatozoa.…”

Section: Discussionmentioning

confidence: 99%

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Molecular Mechanisms Involved in the Impairment of Boar Sperm Motility by Peroxynitrite-Induced Nitrosative Stress

Serrano

Garrido

Céspedes

et al. 2020

IJMS

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Excessive levels of reactive nitrogen species (RNS) produce nitrosative stress. Among RNS is peroxynitrite, a highly reactive free radical generated when nitric oxide reacts with superoxide anion. Peroxynitrite effects have been mainly studied in somatic cells, and in spermatozoa the majority of studies are focused in humans. The aim of this study is to investigate the in vitro peroxynitrite effect on boar spermatozoa functions and the molecular mechanisms involved. Spermatozoa were exposed to the donor 3-morpholinosydnonimine (SIN-1) in non-capacitating or capacitating medium, motility was evaluated by CASA, functional parameters by flow cytometry and sperm protein phosphorylation by Western blotting. SIN-1 treatment, that significantly increases peroxynitrite levels in boar spermatozoa, potentiates the capacitating-stimulated phosphorylation of cAMP-dependent protein kinase 1 (PKA) substrates and GSK-3α. SIN-1 induced peroxynitrite does not decrease sperm viability, but significantly reduces sperm motility, progressive motility, velocities and motility coefficients. Concomitantly, peroxynitrite does not affect mitochondrial membrane potential, plasma membrane fluidity, or A23187-induced acrosome reaction. However, peroxynitrite significantly increases sperm lipid peroxidation in both media. In conclusion, peroxynitrite compromises boar sperm motility without affecting mitochondrial activity. Although peroxynitrite potentiates the phosphorylation of pathways leading to sperm motility, it also causes oxidative stress that might explain, at least partially, the motility impairment. physiologically by spermatozoa, generating peroxynitrite (ONOO − ) by a very fast and irreversible reaction [13] due to its exothermic nature [15]. In the same way, peroxynitrite can diffuse into the cells and even cross cell membranes and at low concentrations contribute to modulate sperm functions, mainly capacitation, as demonstrated in human spermatozoa [13] or in cryopreserved bovine spermatozoa, where ONOO − might also act as an inducer of sperm capacitation [16]. However, peroxynitrite molecule has been involved in some diseases (reviewed in [17]), because it is a strong oxidizing and/or nitrating agent that covalently binds to a variety of biomolecules causing lipid peroxidation, protein oxidation, nitration of the aromatic-side chains of amino acids as tyrosine and tryptophan, DNA oxidation, and inactivation of different enzymes. Therefore, ONOO − causes oxidative stress that promotes protein damage by direct oxidation of proteins side-chain, but also by adduction of secondary products resulting from the oxidation of polyunsaturated fatty acids, lipid peroxidation [18].The molecular and functional effects of nitrosative stress induced by high concentrations of ONOO − in spermatozoa have been mainly investigated in the human species [5,7,8,10,13,19], where ROS and RNS promote a dose dependent increase of sperm tyrosine-nitrated proteins and S-glutathionylation and impair sperm motility and capacitation [5,13]. Among negative eff...

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Molecular Mechanisms Involved in the Impairment of Boar Sperm Motility by Peroxynitrite-Induced Nitrosative Stress

Serrano

Garrido

Céspedes

et al. 2020

IJMS

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“…Meiser and Schulz [20] localized the nNOS isoform in the apical region of the head and tail of bull spermatozoa, whereas the eNOS was located only in the apical region. In ejaculated boar spermatozoa, eNOS and nNOS were identified in the acrosome and iNOS in the whole head, neck and flagellum [40]. However, no immunotypes or changes in NOS localization after in vitro capacitation were reported for bull or boar spermatozoa.…”

Section: Discussionmentioning

confidence: 91%

“…This behavior could be explained by the different roles of the NOS isoforms. Staicu et al [40] postulated that the constitutive isoforms (eNOS and nNOS) could be involved in sperm capacitation and that iNOS could be related to inflammation or stress, so the changes observed in iNOS during in vitro capacitation with melatonin could not exactly be related to this process. Taking into account the bimodal role that melatonin has on ram sperm in in vitro capacitation, stimulating this process at low concentrations (100 pM) and preventing it at high doses (1 µM) [27], it is quite surprising that both melatonin concentrations have similar effects on iNOS and nNOS distribution.…”

Section: Discussionmentioning

confidence: 99%

Does Melatonin Exert Its Effect on Ram Sperm Capacitation Through Nitric Oxide Synthase Regulation?

Miguel-Jiménez

Carvajal‐Serna

Calvo

et al. 2020

IJMS

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Nitric oxide (NO·), synthesized from L-arginine by nitric oxide synthase (NOS), is involved in sperm functionality. NOS isoforms have been detected in spermatozoa from different species, and an increment in NOS activity during capacitation has been reported. This work aims to determine the presence and localization of NOS isoforms in ram spermatozoa and analyse their possible changes during in vitro capacitation. Likewise, we investigated the effect of melatonin on the expression and localization of NOS and NO· levels in capacitated ram spermatozoa. Western blot analysis revealed protein bands associated with neuronal NOS (nNOS) and epithelial NOS (eNOS) but not with inducible NOS (iNOS). However, the three isoforms were detected by indirect immunofluorescence (IFI), and their immunotypes varied over in vitro capacitation with cAMP-elevating agents. NO· levels (evaluated by DAF-2-DA/PI staining) increased after in vitro capacitation, and the presence of L-arginine in the capacitating medium raised NO· production and enhanced the acrosome reaction. Incubation in capacitating conditions with a high-cAMP medium with melatonin modified the NOS distribution evaluated by IFI, but no differences in Western blotting were observed. Melatonin did not alter NO· levels in capacitating conditions, so we could infer that its role in ram sperm capacitation would not be mediated through NO· metabolism.All isoforms of this enzyme have been described in human [17][18][19], bovine [20,21], murine [22] and boar [9] spermatozoa, among others. Furthermore, it has been demonstrated that NOS activity increases during in vitro capacitation in human sperm [5]. However, to the best of our knowledge, there are no previous studies identifying any NOS isoforms in ram spermatozoa.In mammals, melatonin is secreted by the pineal gland in response to light stimulus, and, apart from other functions, it modulates the secretion and synthesis of gonadotropic hormones via the hypothalamic-pituitary axis [23]. Thus, melatonin regulates reproductive seasonality in some species, such as ovine. Apart from pineal melatonin, this molecule is synthetized in other tissues and organs, including those in the male reproductive tract, as we recently demonstrated in ram [24]. Melatonin is also present in reproductive fluids such as seminal plasma [25] or follicular fluid [26]. This could explain how melatonin affects ram sperm functionality directly, modulating processes such as capacitation and decreasing apoptosic markers and oxidative stress [27]. The antioxidant capacity of melatonin in ram spermatozoa could be the reason for its antiapoptotic action, since high levels of reactive oxygen species (ROS) lead to cell death [28][29][30][31]. The ROS include superoxide anion (O 2 -), hydrogen peroxide (H 2 O 2 ), hydroxyl (OH) and nitric oxide (NO·) (also included in the reactive nitrogen species, RNS). All these molecules play an important role in sperm capacitation (reviewed by [32]).Melatonin can modulate NOS activity and, consequently, the nitric oxide in somat...

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“…Furthermore, it is still unclear whether the physiological state (e.g., capacitation) of sperm cells may affect NOS distribution. In a recent study in capacitated boar spermatozoa, Staicu et al [23] found that the eNOS and nNOS are mainly distributed in the sperm head, whereas iNOS is localized in both the sperm head and the flagellum. The study also suggested a link between NOSs distribution and sperm normal function (capacitation, acrosome reaction, tyrosine phosphorylation, and Ca 2+ flux).…”

mentioning

confidence: 98%

The Roles of NO and H2S in Sperm Biology: Recent Advances and New Perspectives

Kadlec

Ros-Santaella

Pintus

2020

IJMS

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After being historically considered as noxious agents, nitric oxide (NO) and hydrogen sulfide (H2S) are now listed as gasotransmitters, gaseous molecules that play a key role in a variety of cellular functions. Both NO and H2S are endogenously produced, enzymatically or non-enzymatically, and interact with each other in a range of cells and tissues. In spite of the great advances achieved in recent decades in other biological systems, knowledge about H2S function and interactions with NO in sperm biology is in its infancy. Here, we aim to provide an update on the importance of these molecules in the physiology of the male gamete. Special emphasis is given to the most recent advances in the metabolism, mechanisms of action, and effects (both physiological and pathophysiological) of these gasotransmitters. This manuscript also illustrates the physiological implications of NO and H2S observed in other cell types, which might be important for sperm function. The relevance of these gasotransmitters to several signaling pathways within sperm cells highlights their potential use for the improvement and successful application of assisted reproductive technologies.

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Regulation of boar sperm functionality by the nitric oxide synthase/nitric oxide system

Cited by 15 publications

References 82 publications

Molecular Mechanisms Involved in the Impairment of Boar Sperm Motility by Peroxynitrite-Induced Nitrosative Stress

Molecular Mechanisms Involved in the Impairment of Boar Sperm Motility by Peroxynitrite-Induced Nitrosative Stress

Does Melatonin Exert Its Effect on Ram Sperm Capacitation Through Nitric Oxide Synthase Regulation?

The Roles of NO and H2S in Sperm Biology: Recent Advances and New Perspectives

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