N-thiocarboxyanhydrides, amino acid-derived enzyme-activated H2S donors, enhance sperm mitochondrial activity in presence and absence of oxidative stress

Background Hydrogen sulfide (H.sub.2S) donors are crucial tools not only for understanding the role of H.sub.2S in cellular function but also as promising therapeutic agents for oxidative stress-related diseases. This study aimed to explore the effect of amino acid-derived N-thiocarboxyanhydrides (N...

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Published in:BMC veterinary research 2023-02, Vol.19 (1), p.1-52, Article 52
Main Authors: Pintus, Eliana, Chinn, Abigail F., Kadlec, Martin, García-Vázquez, Francisco Alberto, Novy, Pavel, Matson, John B., Ros-Santaella, José Luis
Format: Article
Language:English
Subjects:
Amino acids
Bioenergetics
By products
Carbon dioxide
Carbonic anhydrases
Enzymes
Experiments
Fertility
Gasotransmitters
H2S-releasing agents
Hydrogen sulfide
Infertility
Mammalian cells
Mitochondria
Motility
Oxidative stress
Physiology
Plasma
Reactive oxygen species
Reproductive biotechnologies
Reproductive technologies
Semen
Sperm
Sperm lifespan
Velocity
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Summary:Background Hydrogen sulfide (H.sub.2S) donors are crucial tools not only for understanding the role of H.sub.2S in cellular function but also as promising therapeutic agents for oxidative stress-related diseases. This study aimed to explore the effect of amino acid-derived N-thiocarboxyanhydrides (NTAs), which release physiological H.sub.2S levels in the presence of carbonic anhydrase, on porcine sperm function during short-term incubation with and without induced oxidative stress. For this purpose, we employed two H.sub.2S-releasing NTAs with release half-lives (t.sub.1/2) in the range of hours that derived from the amino acids glycine (Gly-NTA) or leucine (Leu-NTA). Because carbonic anhydrase is crucial for H.sub.2S release from NTAs, we first measured the activity of this enzyme in the porcine ejaculate. Then, we tested the effect of Gly- and Leu-NTAs at 10 and 1 nM on sperm mitochondrial activity, plasma membrane integrity, acrosomal status, motility, motile subpopulations, and redox balance during short-term incubation at 38 [degrees]C with and without a reactive oxygen species (ROS)-generating system. Results Our results show that carbonic anhydrase is found both in spermatozoa and seminal plasma, with activity notably higher in the latter. Both Gly- and Leu-NTAs did not exert any noxious effects, but they enhanced sperm mitochondrial activity in the presence and absence of oxidative stress. Moreover, NTAs (except for Leu-NTA 10 nM) tended to preserve the sperm redox balance against the injuries provoked by oxidative stress, which provide further support to the antioxidant effect of H.sub.2S on sperm function. Both compounds also increased progressive motility over short-term incubation, which may translate into prolonged sperm survival. Conclusions The presence of carbonic anhydrase activity in mammalian spermatozoa makes NTAs promising molecules to investigate the role of H.sub.2S in sperm biology. For the first time, beneficial effects of NTAs on mitochondrial activity have been found in mammalian cells in the presence and absence of oxidative stress. NTAs are interesting compounds to investigate the role of H.sub.2S in sperm mitochondria-dependent events and to develop H.sub.2S-related therapeutic protocols against oxidative stress in assisted reproductive technologies. Keywords: Bioenergetics, Gasotransmitters, H.sub.2S-releasing agents, Reproductive biotechnologies, Sperm lifespan
ISSN:1746-6148
1746-6148
DOI:10.1186/s12917-023-03593-5