Violeta Calle-Guisado scite author profile

AMP-activated protein kinase AMPK regulates cellular energy by controlling metabolism through the inhibition of anabolic pathways and the simultaneous stimulation of catabolic pathways. Given its central regulator role in cell metabolism, AMPK activity and its regulation have been the focus of relevant investigations, although only a few studies have focused on the AMPK function in the control of spermatozoa’s ability to fertilize. This review summarizes the known cellular roles of AMPK that have been identified in mammalian spermatozoa. The involvement of AMPK activity is described in terms of the main physiological functions of mature spermatozoa, particularly in the regulation of suitable sperm motility adapted to the fluctuating extracellular medium, maintenance of the integrity of sperm membranes, and the mitochondrial membrane potential. In addition, the intracellular signaling pathways leading to AMPK activation in mammalian spermatozoa are reviewed. We also discuss the role of AMPK in assisted reproduction techniques, particularly during semen cryopreservation and preservation (at 17 °C). Finally, we reinforce the idea of AMPK as a key signaling kinase in spermatozoa that acts as an essential linker/bridge between metabolism energy and sperm’s ability to fertilize.

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Stage-specific metabolomic changes in equine oviductal fluid: New insights into the equine fertilization environment

González‐Fernández

Sánchez‐Calabuig

Calle-Guisado

et al. 2020

Theriogenology

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AMP-activated kinase in human spermatozoa: identification, intracellular localization, and key function in the regulation of sperm motility

et al. 2017

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AMP-activated kinase (AMPK), a protein that regulates energy balance and metabolism, has recently been identified in boar spermatozoa where regulates key functional sperm processes essential for fertilization. This work's aims are AMPK identification, intracellular localization, and their role in human spermatozoa function. Semen was obtained from healthy human donors. Sperm AMPK and phospho-Thr172-AMPK were analyzed by Western blotting and indirect immunofluorescence. High- and low-quality sperm populations were separated by a 40%–80% density gradient. Human spermatozoa motility was evaluated by an Integrated Semen Analysis System (ISAS) in the presence or absence of the AMPK inhibitor compound C (CC). AMPK is localized along the human spermatozoa, at the entire acrosome, midpiece and tail with variable intensity, whereas its active form, phospho-Thr172-AMPK, shows a prominent staining at the acrosome and sperm tail with a weaker staining in the midpiece and the postacrosomal region. Interestingly, spermatozoa bearing an excess residual cytoplasm show strong AMPK staining in this subcellular compartment. Both AMPK and phospho-Thr172-AMPK human spermatozoa contents exhibit important individual variations. Moreover, active AMPK is predominant in the high motility sperm population, where shows a stronger intensity compared with the low motility sperm population. Inhibition of AMPK activity in human spermatozoa by CC treatment leads to a significant reduction in any sperm motility parameter analyzed: percent of motile sperm, sperm velocities, progressivity, and other motility coefficients. This work identifies and points out AMPK as a new molecular mechanism involved in human spermatozoa motility. Further AMPK implications in the clinical efficiency of assisted reproduction and in other reproductive areas need to be studied.

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Human sperm motility is downregulated by the AMPK activator A769662

et al. 2017

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AMP-activated kinase (AMPK) plays a key function in maintaining cellular energy homeostasis. We recently identified and localized AMPK protein in human spermatozoa and showed that inhibition of AMPK activity significantly modified human sperm motility. Recently, AMPK has gained great relevance as prime target for pharmacological approaches in several energy-related pathologies and therefore pharmacological research is aimed to develop direct AMPK-activating compounds such as A769662. Our aim was to investigate the effect of A769662 in essential functional processes of human spermatozoa. Human spermatozoa were incubated in the presence or absence of the AMPK activator A769662 for different incubation times (0-20 h) and motility was evaluated by CASA system whereas other functional parameters were evaluated by flow cytometry. A769662 treatment significantly reduces the percentages of motile, progressive, and rapid spermatozoa starting at 2 h. Moreover, AMPK activator in human spermatozoa causes a significant reduction in any velocity measured, which is concomitant to a significant decrease in the percentage of rapid spermatozoa, both at short- (2-3 h) and long-time treatment (20 h). Treatment of human spermatozoa with A769662 does not significantly alter any of the following functional parameters: sperm viability, mitochondrial membrane potential, phosphatidylserine translocation to the outer leaf of plasma membrane, acrosome membrane integrity, or mitochondrial superoxide anion production. In summary, our results suggest that AMPK in human spermatozoa contributes to the regulation of sperm motility, without affecting basic physiological parameters of human spermatozoa (viability, mitochondrial membrane potential or reactive oxygen species production, acrosome membrane integrity, phosphatidylserine exposure at plasma membrane). As sperm motility is required in the female reproductive tract to achieve fertilization, we conclude that AMPK is an essential regulatory kinase of the human spermatozoa function. This conclusion needs to be taken into account when AMPK is elected as prime target in pharmacological approaches for several energy-related pathologies.

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HSP90 maintains boar spermatozoa motility and mitochondrial membrane potential during heat stress

Calle-Guisado

Bragado

García‐Marín

et al. 2017

Animal Reproduction Science

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