Capacitation Research Articles

O-197 Correlation of intracellular pH of non-normozoospermic men with fertilization rates in assisted reproduction procedures (Pilot study)

Abstract Study question Does measuring qualitative changes in the sperm pHi could predict the fertilizing potential of a non-normozoospermic patients under fertility treatment? Summary answer The increase of pHi correlates with fertilization rates. What is known already The intracellular pHi (pHi) is of great importance for a wide variety of sperm physiological processes, including its motility. The pHi regulates several key sperm proteins, such as the Ca2+ channel, CatSper (sperm cation channel) which is involved in sperm hyperactivation and the K+ channel SLO3.The latter participates in the regulation of membrane potential during capacitation. Interestingly, human sperm pHi has been found to positively correlate with both hyperactivated motility and in vitro fertilization (IVF) success in normozoospermic patients. Study design, size, duration This prospective study employed unidentified semen samples from 62 non-normozoospermic men (patients, age 38 ± 4 years old) undergoing fertility treatment from January to November 2023 at CITMER Reproductive Medicine, Mexico City. Frozen semen samples and procedures with less than 4 oocytes were excluded. The pHi of sperm samples was evaluated by time-lapse flow cytometry. For comparison, the pHi of 13 normozoospermic men (donors, age 28 + 6 years old) were also analyzed. Participants/materials, setting, methods Sperm were separated by density gradient and incubated in capacitating HTF media to be used for conventional IVF or ICSI. Cells were stained with vitality (propidium iodide) and pHi (BCECF-AM) sensitive fluorescent dyes. Fluorescence changes were evaluated using an AccuriC6 flow cytometer. For each pHi recording, 10 mM NH4Cl were used as an alkalinization positive control and for data normalization. Basal levels of sperm pHi and its correlation with fertilization rates, were performed using R. Main results and the role of chance The changes in pHi were recorded as changes in the BCECF fluorescence. The increase in fluorescence is proportional to an increase in pHi and vice versa. Interestingly, we observed that the increase in pHi in sperm used for ICSI but not for IVF procedures, which were paired with oocytes from female donors, are positively and significantly correlated with higher fertilization rates (R = 0.68; *p=0.02). This seems to be the same for ICSI treatment pairing sperm with oocyte from the female partner, although the correlation is not yet statistically significant (R = 0.44; p = 0.12). We did not find significant differences in the basal pHi values between sperm from donors and patients; however, we observed that sperm from patients, had higher pHi values (0.57 + 0.15 a.u.f) compared to sperm from donors (0.48 + 0.24 a.u.f). Our results suggest that sperm pHi may be an important regulator for the process of fusion and not only for fertilization. Qualitative sperm pHi values can contribute to predicting fertilization success in patients undergoing ICSI treatment. Limitations, reasons for caution The preliminary nature of the results implies a necessity to increase the number of analyzed semen samples. Physiological responses may vary even among the same patient or cell’s donor. Our population-based analysis could be underestimating such single cell variations. Wider implications of the findings Current protocols for sperm analysis fail to successfully predict the fertilizing capacity of semen samplest.Measuring pHi in capacitated sperm, could be a promising tool to help clinicians choose the best fertilization technique for each couple. This protocol is easy to perform in a laboratory that has a flow cytometer. Trial registration number Not applicable

P-065 HyperSperm, a new sperm preparation method for IVF/ICSI improves sperm capacitation while maintaining a high safety profile

Abstract Study question Does HyperSperm improve sperm capacitation without affecting sperm quality? Summary answer HyperSperm enhances sperm hyperactivated motility, a hallmark of capacitation, without compromising sperm viability, acrosome integrity, or DNA fragmentation. What is known already HyperSperm is a novel semen preparation method for IVF/ICSI based on mimicking effective capacitation that occurs in the female tract. HyperSperm, which consists of 3 media used sequentially to treat sperm before insemination, gave rise to more high-quality blastocysts compared to current standard of care in a pilot split oocyte study in 10 couples. Study design, size, duration This prospective in vitro study was conducted between July 2023 and January 2024 in an academic department. A consecutive cohort of 15 normozoospermic individuals were recruited and included. Each participant provided a semen sample by masturbation after written informed consent was obtained on the day of the collection. Participants/materials, setting, methods Semen samples from normozoospermic individuals (n = 15) were divided into two halves. After density gradient centrifugation, Control half was incubated in modified HTF (Human Tubal Fluid) for 2-4 hours, while the other half underwent HyperSperm treatment. The following parameters were assessed: sperm viability (eosin exclusion); motility and kinematic parameters (CASA); acrosome integrity (fluorescein-labeled Pisum sativum lectin staining); and DNA fragmentation by TUNEL. Differences between groups were evaluated by paired T-test. Significant differences were considered when p < 0.05. Main results and the role of chance Following treatments, sperm viability (90±3% Control vs. 91±3% HyperSperm) and motility (87±2% Control vs. 89±3% HyperSperm) were similar between groups (p > 0.05). Notably, HyperSperm induced a significant hyperactivation increase (9±2% Control vs. 22±3% HyperSperm), along with associated kinematic parameters (i.e., curvilinear velocity and lateral head displacement) (p < 0.05). Furthermore, HyperSperm treatment did not promote motility decrease over time. Finally, there were no differences in the percentage of sperm with intact acrosome (91±2% Control vs. 90±2% HyperSperm) and DNA fragmentation (3±1% Control vs. 3±1% HyperSperm) between groups (p > 0.05). Altogether, HyperSperm has shown to significantly improve sperm capacitation parameters while maintaining a high safety profile in the treated sample. Limitations, reasons for caution The study is limited to normozoospermic samples, and further research should validate these findings across broader male populations undergoing IVF/ICSI. Wider implications of the findings HyperSperm has demonstrated an increase in the production of high-quality blastocysts via IVF, that would reduce barriers to treatment access through higher cumulative success rates and lower treatment repetitions. The observed increase in hyperactivation combined with the safety profile of HyperSperm supports its potential for future adoption in reproductive clinics. Trial registration number not applicable

Snakehead Fish, Channa striata (Bloch, 1973), Protein Concentrate: Excellent Recovery of Fish-Based Albumin Source and Its Possible Application for Sperm Capacitation

Snakehead fish protein concentrate (SFC) shows promising recovery of excellent protein content that has broad potential applications, including the future use of its albumin content as a sperm capacitation promoter. However, the quantity of snakehead fish albumin recovered depends on several variables, including the habitat in which the fish thrives, extraction procedures, and the assay employed. To optimise the albumin content retrieved from snakehead fish flesh with more reliable results, multiple protein extraction methods were undertaken through the protein concentrate preparation and analysed using the Bromocresol purple (BCP) albumin assay. Total soluble protein (TSP), albumin level, and albumin proportion were recovered at a significant reduction in an acid solvent when exposed to up to 50 °C heating compared to extractions undertaken without heating. Moreover, the small number of protein bands identified indicates that the combination of acid solvent and heating treatment was similarly damaging. In this study, we detected the presence of albumin in SFC at 32 %, the highest percentage ever recorded employing the BCP assay, following extraction with water solvent without thermal treatment. Using SDS-PAGE and densitometric analysis, the identified putative albumin-related bands from the two major bands at 40 kDa and 47 kDa, containing respective proportions of 57 % and 16 % of the total protein loaded. Although this exploratory work requires additional analysis and purification steps, further research employing the SFC is worth identifying its ability and how this alternative albumin source can replace serum albumin to modulate the capacitation process in mammalian sperm.

Assessing the Risks of Pesticide Exposure: Implications for Endocrine Disruption and Male Fertility.

Pesticides serve as essential tools in agriculture and public health, aiding in pest control and disease management. However, their widespread use has prompted concerns regarding their adverse effects on humans and animals. This review offers a comprehensive examination of the toxicity profile of pesticides, focusing on their detrimental impacts on the nervous, hepatic, cardiac, and pulmonary systems, and their impact on reproductive functions. Additionally, it discusses how pesticides mimic hormones, thereby inducing dysfunction in the endocrine system. Pesticides disrupt the endocrine system, leading to neurological impairments, hepatocellular abnormalities, cardiac dysfunction, and respiratory issues. Furthermore, they also exert adverse effects on reproductive organs, disrupting hormone levels and causing reproductive dysfunction. Mechanistically, pesticides interfere with neurotransmitter function, enzyme activity, and hormone regulation. This review highlights the effects of pesticides on male reproduction, particularly sperm capacitation, the process wherein ejaculated sperm undergo physiological changes within the female reproductive tract, acquiring the ability to fertilize an oocyte. Pesticides have been reported to inhibit the morphological changes crucial for sperm capacitation, resulting in poor sperm capacitation and eventual male infertility. Understanding the toxic effects of pesticides is crucial for mitigating their impact on human and animal health, and in guiding future research endeavors.

Development of the first equine blastocyst produced by conventional IVF and in vitro culture in Europe resulting in the birth of a foal

In this case report, the production of the first equine blastocyst using conventional in vitro fertilization (IVF) and in vitro embryo culture methods in Europe is described. A healthy foal was born after transfer of a blastocyst using a complete in vitro production process, including in vitro oocyte maturation, in vitro sperm capacitation, fertilization in vitro and culture to the blastocyst stage in vitro. Oocytes were recovered from ovaries of slaughtered mares. After in vitro maturation, the oocytes were fertilized by conventional IVF and cultured for nine days. One embryo reached the blastocyst stage and was vitrified. After the selection of a suitable recipient mare that had ovulated four days earlier, the blastocyst was thawed and transferred. Five days after embryo transfer, a single embryonic vesicle was detected by transrectal ultrasonography. After a normal pregnancy of 323 days, a healthy colt was born. Parentage testing via microsatellite genotyping confirmed that the recipient was excluded as the foal’s dam and that the stallion whose semen was used, qualified as the sire.

The role of nitric oxide in the development of diseases of the male reproductive system and its potential applications in clinical practice

Nitric oxide (NO), a reactive nitrogen species, is a molecule of high physiological and pathological importance. Physiological mechanisms mediated by NO mainly include angiogenesis, growth, puberty, and senescence. NO has vital roles in normal reproduction, including steroidogenesis, gametogenesis, and the regulation of germ-cell apoptosis. In males, NO is a key player in steroidogenesis, erectile functions, sperm capacitation, and acrosome reaction. Moreover, NO is also a regulator of Sertoli cell-germ cell interaction and maintenance of the blood-testis barrier. In pathological conditions such as infections, increased nitric oxide synthase activities stimulate the excessive synthesis of NO which acts as a proinflammatory mediator inducing oxidative stress, detrimental to reproductive functions in males. Excessive NO synthesis disrupts gonadal functions and induces germ cell apoptosis and oxidative damage to the germ cells. This review elucidates how the differences in NO expression levels account for its beneficial and adverse impacts on male fertility.

A side-by-side comparison of different capacitation media in developing mouse sperm fertilizing ability

To acquire the ability to fertilize the egg, mammalian spermatozoa must undergo a series of changes occurring within the highly synchronized and specialized environment of the female reproductive tract, collectively known as capacitation. In an attempt to replicate this process in vitro, various culture media for mouse sperm were formulated over the past decades, sharing a similar overall composition but differing mainly in ion concentrations and metabolic substrates. The widespread use of the different media to study the mechanisms of capacitation might hinder a comprehensive understanding of this process, as the medium could become a confounding variable in the analysis. In this context, the present side-by-side study compares the influence of four commonly used culture media (FD, HTF and two TYH versions) on mouse sperm capacitation. We evaluated the induction of protein kinase A phosphorylation pathway, motility, hyperactivation and acrosome reaction. Additionally, in vitro fertilization and embryo development were also assessed. By analyzing these outcomes in two mouse colonies with different reproductive performance, our study provides critical insights to improve the global understanding of sperm function. The results obtained highlight the importance of considering variations in medium composition, and their potential implications for the future interpretation of results.

Male infertility and perfluoroalkyl and poly-fluoroalkyl substances: evidence for alterations in phosphorylation of proteins and fertility-related functional attributes in bull spermatozoa†.

Perfluoroalkyl and poly-fluoroalkyl substances (PFAS) are pervasive environmental pollutants and potential threats to reproductive health. Epidemiological studies have established an association between PFAS and male infertility, but the underlying mechanisms are unclear. Investigate the effect of perfluorooctane sulfonic acid (PFOS), the most prevalent and representative PFAS, on bull sperm protein phosphorylation and function. We exposed bull sperm to PFOS at 10 (average population exposure) and 100μM (high-exposure scenario), and analyzed global proteomic and phosphoproteomic analysis by TMT labeling and Nano LC-MS/MS. We also measured sperm fertility functions by flow cytometry. PFOS at 10-μM altered sperm proteins linked to spermatogenesis and chromatin condensation, while at 100μM, PFOS affected proteins associated with motility and fertility. We detected 299 phosphopeptides from 116 proteins, with 45 exhibiting differential expression between control and PFOS groups. PFOS dysregulated phosphorylation of key proteins (ACRBP, PRKAR2A, RAB2B, SPAG8, TUBB4B, ZPBP, and C2CD6) involved in sperm capacitation, acrosome reaction, sperm-egg interaction, and fertilization. PFOS also affected phosphorylation of other proteins (AQP7, HSBP9, IL4I1, PRKAR1A, and CCT8L2) related to sperm stress resistance and cryotolerance. Notably, four proteins (PRM1, ACRBP, TSSK1B, and CFAP45) exhibited differential regulation at both proteomic and phosphoproteomic levels. Flow cytometric analysis confirmed that PFOS increased protein phosphorylation in sperm and also decreased sperm motility, viability, calcium, and mitochondrial membrane potential and increased mitochondrial ROS in a dose-dependent manner. This study demonstrates that PFOS exposure negatively affects phosphorylation of proteins vital for bull sperm function and fertilization.

Effects of MnTBAP on Porcine Semen Cryopreservation and Capacitation.

Antioxidants protect cellular function and structure by neutralizing the oxidative stress caused by increased reactive oxygen species (ROS) during sperm freezing. Studies on cryopreservation using various antioxidants have demonstrated encouraging results. Many studies have used antioxidants to increase the efficiency of sperm freezing and to improve the success rate of artificial insemination and pregnancy. Manganese (III) tetrakis (4-benzoic acid) porphyrin chloride (MnTBAP) is a newly synthesized antioxidant with positive effects on sperm morphology and capacitation in humans, rams, and stallions. In this study, porcine semen was treated with 0, 50, 100, and 150 μM of MnTBAP based on a Tris-egg-yolk extender and frozen to determine whether MnTBAP can assist the status of sperm during cryopreservation. First, motility was assessed using the computer-assisted sperm analysis (CASA) system, with the 100 μM treatment group showing the highest motile rate (66.8%) compared with that of the other groups (control, 51.1%; 50 μM and 150 μM, 59.6%); therefore, the remaining analyses were conducted comparing the two groups (control vs. 100 μM group; p < 0.01). Second, fluorescence staining was applied to examine the control and 100 μM groups using fluorescence microscopy. The viability (41.7% vs. 62.4%) and the acrosome integrity (77.9% vs. 86.4%) differed significantly (p < 0.05). In addition, the mitochondrial membrane potential (MMP) was 46.5% vs. 51.9%; the fragmentation rate, estimated using the Sperm-sus-Halomax kit, was 63.4% vs. 57.4%; and the detected caspase activity was 30.1% vs. 22.9%. These tended to be higher in the treated group but did not differ significantly. Third, measurements using FACSLyric revealed that the 100 μM treatment group exhibited a state of elevated normal lipid arrangement within the plasma membrane and diminished levels of apoptosis and ROS (p < 0.01). We assessed the expression of genes relevant to antioxidant effectiveness using real-time RT-qPCR. Our findings indicated significant alterations in the expression levels of various mRNA species, with the exception of NOX5 (p < 0.05). Finally, the straws were dissolved and used to treat matured denuded oocytes to investigate the effect on fertilization and embryo development in vitro. The cleavage rate was (77.6% vs. 84.1%), and the blastocyst rate was 9.7% vs. 11.4% (p < 0.05). In conclusion, these results suggest that MnTBAP positively affected sperm freeze-thawing, improving the fertilization capacity, and leading to increased embryo development.

Effect of exogenous sperm capacitation inducers on stallion sperm

Although under appropriate laboratory conditions, sperm from different mammalian species can be capacitated in vitro, the optimal conditions for sperm capacitation in the stallion have been elusive. This study evaluated the effect of different capacitating inducers in Whitten and Tyrode media and assessed their impact on capacitation-related factors. Stallion sperm were incubated with different combinations of capacitating inducers at 38.5 °C in an air atmosphere. Sperm quality variables such as motility, mitochondrial membrane potential, and lipid peroxidation were assessed. Membrane fluidity and intracellular calcium levels were evaluated as early markers of capacitation, while tyrosine phosphorylation events and the sperm's ability to perform acrosomal exocytosis were used as late capacitation markers. Finally, these sperm were evaluated using a heterologous zona pellucida binding assay. The findings confirm that capacitating conditions evaluated increase intracellular calcium levels and membrane fluidity in both media. Similarly, including 2 or 3 inducers in both media increased tyrosine phosphorylation levels and acrosomal exocytosis after exposure to progesterone, confirming that stallion sperm incubated in these conditions shows cellular and molecular changes consistent with sperm capacitation. Furthermore, the zona pellucida binding assay confirmed the binding capacity of sperm incubated in capacitation conditions, a key step for stallion in vitro fertilization success. Further studies are needed to evaluate the effect of these conditions on in vitro fertilization in the horse.

Effect of bicarbonate and polyvinyl alcohol on in vitro capacitation and fertilization ability of cryopreserved equine spermatozoa.

Factors contributing to the limited success of in vitro fertilization in horses remain to be studied. In this work, we elucidated the effect of different essential capacitation media components, bicarbonate, and bovine serum albumin or polyvinyl-alcohol, and the incubation microenvironment on sperm parameters associated with capacitation, acrosome reaction, and their ability to activate oocytes via heterologous intracytoplasmic spermatozoa injection in equine cryopreserved spermatozoa. Frozen-thawed spermatozoa underwent incubation at different time intervals in either Tyrode's albumin lactate pyruvate medium (non-capacitating; NC) or Tyrode's albumin lactate pyruvate supplemented with bicarbonate, bicarbonate and polyvinyl-alcohol, bicarbonate and bovine serum albumin, polyvinyl-alcohol and bovine serum albumin alone. Protein kinase A-phosphorylated substrates and tyrosine phosphorylation levels, sperm motility, and acrosome reaction percentages were evaluated. After determining the best condition media (capacitating; CAP), heterologous intracytoplasmic spermatozoa injection on pig oocytes was performed and the phospholipase C zeta sperm localization pattern was evaluated. Incubation of frozen-thawed equine spermatozoa with bicarbonate and polyvinyl-alcohol in atmospheric air for 45min induced an increase in protein kinase A-phosphorylated substrates and tyrosine phosphorylation levels compared to NC condition. Sperm incubation in bicarbonate and polyvinyl-alcohol medium showed an increase in total motility and progressive motility with respect to NC (p ≤ 0.05). Interestingly, three parameters associated with sperm hyperactivation were modulated under bicarbonate and polyvinyl-alcohol conditions. The kinematic parameters curvilinear velocity and amplitude of lateral head displacement significantly increased, while straightness significantly diminished (curvilinear velocity: bicarbonate and polyvinyl-alcohol=120.9±2.9 vs. NC=76.91±6.9µm/s) (amplitude of lateral head displacement: bicarbonate and polyvinyl-alcohol=1.15±0.02 vs. NC=0.77±0.03µm) (straightness: bicarbonate and polyvinyl-alcohol=0.76±0.01 vs. NC=0.87±0.02) (p ≤ 0.05). Moreover, the spontaneous acrosome reaction significantly increased in spermatozoa incubated in this condition. Finally, bicarbonate and polyvinyl-alcohol medium was established as CAP medium. Although no differences were found in phospholipase C zeta localization pattern in spermatozoa incubated under CAP, equine spermatozoa pre-incubated in CAP condition for 45min showed higher fertilization rates when injected into matured pig oocytes (NC: 47.6% vs. CAP 76.5%; p ≤ 0.05). These findings underscore the importance of bicarbonate and polyvinyl-alcohol in supporting critical events associated with in vitro sperm capacitation in the horse, resulting in higher oocyte activation percentages following heterologous intracytoplasmic spermatozoa injection. This protocol could have an impact on reproductive efficiency in the equine breeding industry.

Advancements in Understanding and Enhancing Antioxidant-Mediated Sperm Cryopreservation in Small Ruminants: Challenges and Perspectives.

Cryopreservation poses significant challenges to the preservation of sperm integrity and function, particularly in small ruminants where cryodamage is pronounced. This review explores the molecular mechanisms underlying sperm cryodamage and strategies for improving cryopreservation outcomes, with a focus on the role of antioxidants. Cryopreservation-induced alterations in proteins and RNA transcripts critical for sperm function, including motility, capacitation, fertilization, and embryo development, are discussed. Proteomic, transcriptomic, and epigenomic advancements have provided valuable insights into these mechanisms, offering potential biomarkers for predicting sperm freezability and enhancing cryopreservation strategies. Combining technologies such as mass spectrometry and flow cytometry allows for a comprehensive understanding of molecular and cellular changes induced by the freezing-thawing process. However, challenges remain in optimizing cryoprotectant formulations and antioxidant supplementation to improve post-thaw sperm fertility. Further research is needed to explore a wider range of novel cryoprotectants, antioxidants, and proteins for cryopreservation media, as well as to validate their efficacy in enhancing sperm viability and function. Additionally, investigations into the effects of cryopreservation on RNA transcripts and epigenetic factors in small ruminant species are warranted to advance our understanding of sperm preservation. Overall, this review highlights the importance of antioxidants in mitigating cryodamage and underscores the need for continued research to refine cryopreservation protocols and improve reproductive outcomes in small ruminants.

Nirmatrelvir has detrimental effects on sperm function by altering the PI3K/PDK1/AKT signaling pathway

Nirmatrelvir (NMV) is a recently developed selective inhibitor of the main protease of Sars-Cov-2 that reduces the severity of infection. Despite its widespread use and various side effects, NMV's effect on male fertility is still unclear. This study was thus established to investigate how NMV affects male fertility. For experiments, Duroc spermatozoa were incubated with various concentrations of NMV (0, 0.1, 1, 10, 50, and 100 μM). Then, sperm motility, motion kinematics, capacitation status, intracellular ATP level, and cell viability were evaluated. In addition, the expression levels of phospho-PKA substrates, tyrosine-phosphorylated proteins, and PI3K/PDK1/AKT signaling pathway-related proteins were measured by western blotting. Our results showed that sperm motility, motion kinematics, proportion of capacitated spermatozoa, and intracellular ATP level were significantly decreased by NMV in a dose-dependent manner. Moreover, PKA activation was significantly suppressed by NMV, and expression levels of PI3K, phospho-PDK1, AKT, and phospho-AKT (Thr308 and Ser473) were significantly increased in a dose-dependent manner. Combining these findings, it is suggested that NMV has detrimental effects on sperm function by inducing abnormal changes in the PI3K/PDK1/AKT signaling pathway, resulting in PKA deactivation. Therefore, there is a need to pay particular attention to its male reproductive toxicity when NMV is administered.

How Per- and Poly-Fluoroalkyl Substances Affect Gamete Viability and Fertilization Capability: Insights from the Literature.

There has been emerging research linking per- and poly-fluoroalkyl substances (PFAS) to gamete viability and fertility. PFAS, prevalent in the environment and water supplies, undergo slow degradation due to their C-F bond and a long half-life (2.3-8.5 years). In females, PFAS inhibit the hypothalamic-pituitary-gonadal (HPG) axis, reducing follicle-stimulating hormone (FSH) and luteinizing hormone (LH) levels, leading to the inhibition of androgen and estradiol production. PFAS have been found to cause detrimental effects on egg quality through impairing folliculogenesis. In males, PFAS can impair sperm motility and morphology: two fundamental qualities of successful fertilization. PFAS exposure has been proven to inhibit testosterone production, sperm capacitation, and acrosomal reaction. After fertilization, the results of PFAS exposure to embryos have also been investigated, showing reduced development to the blastocyst stage. The aim of this review is to report the main findings in the literature on the impact of PFAS exposure to gamete competency and fertilization capability by highlighting key studies on both male and female fertility. We report that there is significant evidence demonstrating the negative impacts on fertility after PFAS exposure. At high doses, these environmentally abundant and widespread compounds can significantly affect human fertility.

The effect of temperature shock on enhancing sperm motility: A new insight into molecular and cellular mechanisms through current procedures

Asthenozoospermia, characterized by reduced progressive motility (below 32%), is a leading cause of male infertility. Intrauterine Insemination (IUI) serves as the first-line treatment in sperm-related processes, aiming to increase sperm motility. Although Density Gradient Centrifugation (DGC) and swim-up procedures have become primary treatment options, considered the gold standard for IUI, there is a need to optimize these methods with additional factors to enhance motility, particularly for Asthenozoospermia patients.We hypothesize that a brief cold shock, lasting approximately 15–20 min at 17 °C, followed by incubation and sperm processing, can substantially enhance motility. For the first time, the hypothesis and evaluation of post-exposure incubation following a short-term cold shock, within the temperature range of 17–20 °C, were explored and discussed.This hypothesis appears valid and holds importance for several reasons. Firstly, there is a significant relationship between cold shock and its impact on intracellular components and the molecular organization of the cell membrane. Additionally, this process regulates various physiological cellular processes, including transbilayer distribution, acrosome reaction, and sperm motility. Moreover, lowering the temperature induces a molecular flux, facilitating calcium uptake by sperm. This process significantly impacts the quantity of calcium accessible to the sperm, particularly within the flagellum. Choosing the temperature below 20 °C temperature can lead to the activation of calcium-absorbing protein channels in the shortest possible time. Furthermore, a crucial reaction in IUI is sperm capacitation, which occurs when the protein tyrosine phosphorylation pathway, a key factor, is activated. Alternatively, the cold incubation of sperm reveals an increased level of tyrosine phosphorylation and a higher percentage of induced Acrosome Reaction (AR) compared to sperm incubated at normal temperatures. Hence, when sperm is cooled, it initiates a process called tyrosine phosphorylation, ultimately leading to sperm capacitation. Besides these logical reasons, there is limited empirical and incidental support in two cases that confirmed the hypothesis well.

Sperm functionality is differentially regulated by porcine oviductal extracellular vesicles from the distinct phases of the estrous cycle.

Context Extracellular vesicles (EVs) derived from the oviductal fluid (oEVs) play a critical role in various reproductive processes, including sperm capacitation, fertilisation, and early embryo development. Aims To characterise porcine oEVs (poEVs) from different stages of the estrous cycle (late follicular, LF; early luteal, EL; mid luteal, ML; late luteal, LL) and investigate their impact on sperm functionality. Methods poEVs were isolated, characterised, and labelled to assess their binding to boar spermatozoa. The effects of poEVs on sperm motility, viability, acrosomal status, protein kinase A phosphorylation (pPKAs), tyrosine phosphorylation (Tyr-P), and in in vitro fertility were analysed. Key results poEVs were observed as round or cup-shaped membrane-surrounded vesicles. Statistical analysis showed that poEVs did not significantly differ in size, quantity, or protein concentration among phases of the estrous cycle. However, LF poEVs demonstrated a higher affinity for binding to sperm. Treatment with EL, ML, and LL poEVs resulted in a decrease in sperm progressive motility and total motility. Moreover, pPKA levels were reduced in presence of LF, EL, and ML poEVs, while Tyr-P levels did not differ between groups. LF poEVs also reduced sperm penetration rate and the number of spermatozoa per penetrated oocyte (P Conclusions poEVs from different stages of the estrous cycle play a modulatory role in sperm functionality by interacting with spermatozoa, affecting motility and capacitation, and participating in sperm-oocyte interaction. Implications The differential effects of LF and LL poEVs suggest the potential use of poEVs as additives in IVF systems to regulate sperm-oocyte interaction.

Sperm Incubation in Biggers-Whitten-Whittingham Medium Induces Capacitation-Related Changes in the Lizard Sceloporus torquatus.

Sperm capacitation involves biochemical and physiological changes that enable sperm to fertilize the oocyte. It can be induced in vitro under controlled conditions that simulate the environment of the oviduct. While extensively studied in mammals, its approach in lizards remains absent. Understanding the mechanisms that ensure reproduction is essential for advancing the implementation of assisted reproductive technologies in this group. We aimed to perform a sperm analysis to determine if capacitation-related changes were induced after incubation with capacitating media. Fifteen males of Sceloporus torquatus were collected during the early stage of the reproductive season. The sperm were isolated from the seminal plasma and then diluted up to a volume of 150 μL using BWW medium to incubate with 5% CO2 at 30 °C for a maximum duration of 3 h. A fraction was retrieved hourly for ongoing sperm assessment. The sperm analysis included assessments of its motility, viability, the capacitation status using the chlortetracycline (CTC) assay, and the acrosome integrity with the lectin binding assay to detect changes during incubation. We found that total motility was maintained up to 2 h post incubation, after which it decreased. However, sperm viability remained constant. From that moment on, we observed a transition to a deeper and less symmetrical flagellar bending in many spermatozoa. The CTC assay indicated a reduction in the percentage of sperm showing the full (F) pattern and an increase in those exhibiting the capacitated (B) and reactive (RA) patterns, accompanied by an elevation in the percentage of damaged acrosomes as revealed by the lectin binding assay. In mammals, these changes are often associated with sperm capacitation. Our observations support the notion that this process may also occur in saurian. While sperm analysis is a valuable method for assessing certain functional changes, additional approaches are required to validate this process.

Fatty acid composition and biophysical characteristics of the cell membrane of feline spermatozoa

Sperm membrane composition and biophysical characteristics play a pivotal role in many physiological processes (i.e. sperm motility, capacitation, acrosome reaction and fusion with the oocyte) as well as in semen processing (e.g. cryopreservation). The aim of this study was to characterize the fatty acid content and biophysical characteristics (anisotropy, generalized polarization) of the cell membrane of domestic cat spermatozoa. Semen was collected from 34 adult male cats by urethral catheterization. After a basic semen evaluation, the fatty acid content of some of the samples (n = 11) was evaluated by gas chromatography. Samples from other individuals (n = 23) were subjected to biophysical analysis: membrane anisotropy (which is inversely proportional to membrane fluidity) and generalized polarization (describing lipid order); both measured by fluorimetry at three temperature points: 38 °C, 25 °C and 5 °C. Spermatozoa from some samples (n = 10) were cryopreserved in TRIS egg yolk-glycerol extender and underwent the same biophysical analysis after thawing. Most fatty acids in feline spermatozoa were saturated (69.76 ± 24.45%), whereas the polyunsaturated fatty acid (PUFA) content was relatively low (6.12 ± 5.80%). Lowering the temperature caused a significant decrease in membrane fluidity and an increase in generalized polarization in fresh spermatozoa, and these effects were even more pronounced following cryopreservation. Anisotropy at 38 °C in fresh samples showed strong positive correlations with viability and motility parameters after thawing. In summary, feline spermatozoa are characterized by a very low PUFA content and a low ratio of unsaturated:saturated fatty acids, which may contribute to low oxidative stress. Cryopreservation alters the structure of the sperm membrane, increasing the fluidity of the hydrophobic portion of the bilayer and the lipid order in the hydrophilic portion. Because lower membrane fluidity in fresh semen was linked with better viability and motility after cryopreservation, this parameter may be considered an important factor in determination of sperm cryoresistance.

Birth of First In vitro Produced Calves in Bangladesh and Their Reproductive Fitness

The goal of the current study is to produce calves by implanting recipient cows with in vitro generated embryos. For in vitro maturation, slaughterhouse-driven cumulus-oocyte-complexes (COCs) with an even cytoplasm and at least three layers of compact cumulus cells were chosen (IVM). For the purpose of in vitro fertilization, capacitated fresh spermatozoa and presumed matured COCs were co-cultured for 18 to 20 hours (IVF). Cumulus cells were removed by carefully pipetting them into TL-HEPES. The zygotes spent three days in an in vitro culture (IVC) droplet. After this initial phase of culture, the 8–32 cell embryos were moved to IVC-II media, where they remained until Day 8 of development. On day 8, these embryos were transferred into recipient cows, with two embryos transferred to each of the five recipient cows. On day 60 of embryo transfer (ET), rectal palpation was used to assess pregnancy followed by ultrasonography on day 90. Out of five recipients, one cow delivered twine calves with a pregnancy rate of 20%. The calves were named Falguni and Chaitali. The duration of gestation was 277 days. Falguni weighed 12.87 kg at birth, whereas Chaitali weighed 18.59 kg. Falguni and Chaitali both showed typical growth patterns, with an average 254.77 g and 463.15 g/day. At a regular age, both heifer calves reach puberty and give birth. This research emphasizes the possibility that ovocytes from slaughterhouse ovaries can be used to produce healthy IVP calves, which would be a major step forward in Bangladesh’s fast expansion of high-yield dairy cattle.

Exosomes from uterine fluid promote capacitation of human sperm.

Extracellular vesicles (EVs) are membrane-bound vesicles containing various proteins, lipids, and nucleic acids. EVs are found in many body fluids, such as blood and urine. The release of EVs can facilitate intercellular communication through fusion with the plasma membrane or endocytosis into the recipient cell or through internalization of the contents. Recent studies have reported that EVs isolated from human endometrial epithelial cells (EECs) promote sperm fertilization ability. EVs from uterine flushing fluid more closely resemble the physiological condition of the uterus. However, it is unclear whether EVs derived directly from uterine flushing fluid have the same effect on sperm. This study aimed to research the effect of EVs from uterine flushing fluid on sperm. EVs were isolated from the uterine flushing fluid. The presence of EVs was confirmed by nanoparticle tracking analysis (NTA), Western blot, and transmission electron microscopy (TEM). EVs were incubated with human sperm for 2 h and 4 h. The effects of EVs on sperm were evaluated by analyzing acrosome reaction, sperm motility, and reactive oxygen species (ROS). The EVs fractions isolated from the uterine fluid were observed in cup-shaped vesicles of different sizes by TEM. All isolated vesicles contained similar numbers of vesicles in the expected size range (30-200 nm) by NTA. CD9 and CD63 were detected in EVs by western blot. Comparing the motility of the two groups incubated sperm motility significantly differed at 4 h. The acrosome reactions were promoted by incubating with EVs significantly. ROS were increased in sperm incubated with EVs. Our results showed EVs present in the uterine fluid. Acrosome reactions and ROS levels increased in human sperm incubated with EVs. EVs from uterine fluid can promote the capacitation of human sperm. The increased capacitation after sperm interaction with EVs suggests a possible physiological effect during the transit of the uterus.