Mechanisms of the sperm guidance, an essential aid for meeting the oocyte

Lottero-Leconte, Raquel; Alonso, C.; Castellano, Luciana; Martı́nez, Silvina Pérez

doi:10.21037/tcr.2017.03.68

Cited by 11 publications

(6 citation statements)

References 21 publications

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“…A temperature difference of about 2°C exists between the storage site and fertilization site of the mammalian oviduct, leading to the hypothesis that spermatozoa can sense and swim towards the oocyte along a rising temperature gradient, known as thermotaxis (Xiao et al, 2022). Spermatozoa can sense a concentration gradient of the chemoattractant released by the cumulus oophorus complexes (CCs) as it navigates spermatozoa to the oocyte through the oviduct (Bahat & Eisenbach, 2006; Eisenbach & Giojalas, 2006; Ko et al, 2018; Lottero Leconte et al, 2017). As a result, CCs appear to be an important factor in natural sperm selection (Rappa et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Microfluidic devices employing chemo‐ and thermotaxis for sperm selection can improve sperm parameters and function in patients with high DNA fragmentation

et al. 2022

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Conventional sperm processing uses centrifugation has a negative effect on sperm parameters and DNA integrity. We designed and fabricated a novel microfluid device based on chemotaxis and thermotaxis, and compared it with the swim‐up method. Twenty normal samples with high DNA fragmentation were included. Each sample was divided into four groups: Group 1, control, Group 2: sperm selection by thermotaxis, Group 3: sperm selection by chemotaxis, and Group 4: sperm selection with thermotaxis and chemotaxis. We used cumulus cells in a microfluid device to create chemotaxis, and, two warm stages to form a temperature gradient for thermotaxis. The spermatozoa were assessed based on the concentration, motility, and fine morphology using Motile Sperm Organelle Morphology Examination, mitochondrial membrane potential (MMP), acrosome reaction (AR), and sperm DNA fragmentation. Concentration (22.40 ± 5.39 vs. 66.50 ± 19.21; p < 0.001) and DNA fragmentation (12.30 ± 3.96% vs. 17.95 ± 2.89%; p < 0.001) after selection in the chemotaxis and thermotaxis microfluid device were significantly lower than control group. The progressive motility (93.75 ± 4.39% vs. 75.55 ± 5.86%, p < 0.001), normal morphology (15.45 ± 2.50% vs. 10.35 ± 3.36, p < 0.001), MMP (97.65 ± 1.81% vs. 94 ± 3.89%, p = 0.02), and AR status (79.20 ± 5.28% vs. 31.20 ± 5.24%, p < 0.001) in the chemotaxis and thermotaxis microfluid device were significantly increased compared to control group. According to these findings, spermatozoa that have penetrated the cumulus oophorus have better morphology and motility, as well as acrosome reactivity and DNA integrity.

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Section: Introductionmentioning

confidence: 99%

Microfluidic devices employing chemo‐ and thermotaxis for sperm selection can improve sperm parameters and function in patients with high DNA fragmentation

et al. 2022

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“…In mammalian sperm, the TRPV4 vanilloid type of TRP receptor has been identified as the most important temperature-sensitive ion channel (Mundt et al, 2018). This is of interest, because thermotaxis has been described as a very important mechanism in the modulation of mammalian sperm function inside the female genital tract (Lottero-Leconte et al, 2017). Additionally, considering the extreme sensitivity of mammalian sperm to temperature changes as small as 0.0006 °C (Hunter, 2012), a tight control of thermotaxis-modulating systems such as TRPV4 could be important for the regulation of sperm function after ejaculation.…”

Section: Introductionmentioning

confidence: 99%

The effects of red LED light on pig sperm function rely upon mitochondrial electron chain activity rather than on a PKC-mediated mechanism

Blanco-Prieto

Maside²,

Peña³

et al. 2022

Front. Cell Dev. Biol.

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While irradiation with red LED light has been reported to modulate sperm function in different mammalian species, the mechanisms underlying their response are poorly understood. This work sought to provide new insights into whether this effect relies on a direct action upon mitochondrial electron chain and/or on PKC-linked mechanisms such as those related to opsins. For this purpose, pig semen was light-stimulated for 1, 5 or 10 min in the presence/absence of antimycin A, an inhibitor of the mitochondrial electron chain, or PKC 20–28® (PKCi), a PKC inhibitor. Antimycin A completely blocked the effects of light at all the performed irradiation patterns. This effect was linked to a complete immobility of sperm, which was accompanied with a significant (p < 0.05) drop in several markers of mitochondrial activity, such as JC-1 staining and O2 consumption rate. Antimycin A, however, did not affect intracellular ATP levels, intramitochondrial calcium, total ROS, superoxides or cytochrome C oxidase (CCO) activity. In the case of PKCi, it did also counteract the effects of light on motility, O2 consumption rate and CCO activity, but not to the same extent than that observed for antimycin A. Finally, the effects observed when sperm were co-incubated with antimycin A and PKCi were similar to those observed with antimycin A alone. In conclusion, red LED light acts on sperm function via a direct effect on mitochondrial electron chain. Additionally, light-activated PKC pathways have a supplementary effect to that observed in the electron chain, thereby modulating sperm parameters such as motility and CCO activity.

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“…Subcellular thermometry has great potential for studying the molecular mechanisms of temperature-related biological phenomena, such as the variation of cell-death types in photothermal cancer therapy 1 – 3 , cellular thermotaxis 4 – 8 , and cellular level thermogenesis 9 – 13 . Nanodiamond (ND) spin-based thermometry is a novel opto-microwave hybrid technique that can probe subcellular temperatures with distinct photostability 14 – 18 , various functionalized surfaces 19 – 21 , and low cytotoxicity 22 – 26 .…”

Section: Introductionmentioning

confidence: 99%

Wide-field fluorescent nanodiamond spin measurements toward real-time large-area intracellular thermometry

Nishimura

Oshimi

Umehara

et al. 2021

Sci Rep

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Measuring optically detected magnetic resonance (ODMR) of diamond nitrogen vacancy centers significantly depends on the photon detectors used. We study camera-based wide-field ODMR measurements to examine the performance in thermometry by comparing the results to those of the confocal-based ODMR detection. We show that the temperature sensitivity of the camera-based measurements can be as high as that of the confocal detection and that possible artifacts of the ODMR shift are produced owing to the complexity of the camera-based measurements. Although measurements from wide-field ODMR of nanodiamonds in living cells can provide temperature precisions consistent with those of confocal detection, the technique requires the integration of rapid ODMR measurement protocols for better precisions. Our results can aid the development of camera-based real-time large-area spin-based thermometry of living cells.

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Mechanisms of the sperm guidance, an essential aid for meeting the oocyte

Cited by 11 publications

References 21 publications

Microfluidic devices employing chemo‐ and thermotaxis for sperm selection can improve sperm parameters and function in patients with high DNA fragmentation

Microfluidic devices employing chemo‐ and thermotaxis for sperm selection can improve sperm parameters and function in patients with high DNA fragmentation

The effects of red LED light on pig sperm function rely upon mitochondrial electron chain activity rather than on a PKC-mediated mechanism

Wide-field fluorescent nanodiamond spin measurements toward real-time large-area intracellular thermometry

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