Chromatin condensation but not DNA integrity of pig sperm is greater in the sperm-rich fraction

Background Protamination and condensation of sperm chromatin as well as DNA integrity play an essential role during fertilization and embryo development.In some mammals,like pigs,ejaculates are emitted in three separate fractions:pre-sperm,sperm-rich(SRF)and post sperm-rich(PSRF).These fractions are known to vary in volume,sperm concentration and quality,as well as in the origin and composition of seminal plasma(SP),with differences being also observed within the SRF one.Yet,whether disparities in the DNA integrity and chromatin condensation and pro-tamination of their sperm exist has not been interrogated.Results This study determined chromatin protamination(Chromomycin A3 test,CMA_(3)),condensation(Dibromobi-mane test,DBB),and DNA integrity(Comet assay)in the pig sperm contained in the first 10 m L of the SRF(SRF-P1),the remaining portion of the sperm-rich fraction(SRF-P2),and the post sperm-rich fraction(PSRF).While chromatin protamination was found to be similar between the different ejaculate fractions(P>0.05),chromatin condensation was seen to be greater in SRF-P1 and SRF-P2 than in the PSRF(P=0.018 and P=0.004,respectively).Regarding DNA integrity,no differences between fractions were observed(P>0.05).As the SRF-P1 has the highest sperm concentra-tion and ejaculate fractions are known to differ in antioxidant composition,the oxidative stress index(OSi)in SP,calcu-lated as total oxidant activity divided by total antioxidant capacity,was tested and confirmed to be higher in the SRF-P1 than in SRF-P2 and PSRF(0.42±0.06 vs.0.23±0.09 and 0.08±0.00,respectively;P<0.01);this index,in addition,was observed to be correlated to the sperm concentration of each fraction(Rs=0.973;P<0.001).Conclusion While sperm DNA integrity was not found to differ between ejaculate fractions,SRF-P1 and SRF-P2 were observed to exhibit greater chromatin condensation than the PSRF.This could be related to the OSi of each fraction.

Determination of double-and single-stranded DNA breaks in bovine sperm is predictive of their fertilizing capacity

Background:The analysis of chromatin integrity has become an important determinant of sperm quality.In frozenthawed bovine sperm,neither the sequence of post-thaw injury events nor the dynamics of different types of sperm DNA breaks are well understood.The aim of the present work was to describe such sperm degradation aftermath focusing on DNA damage dynamics,and to assess if this parameter can predict pregnancy rates in cattle.Results:A total of 75 cryopreserved ejaculates from 25 Holstein bulls were evaluated at two post-thawing periods(0-2 h and 2-4 h),analyzing global and double-stranded DNA damage through alkaline and neutral Comet assays,chromatin deprotamination and decondensation,sperm motility,viability,acrosomal status,and intracellular levels of total ROS,superoxides and calcium.Insemination of 59,605 females was conducted using sperm from the same bulls,thus obtaining the non-return to estrus rates after 90 d(NRR).Results showed an increased rate of double-stranded breaks in the first period(0-2 h:1.29±1.01%/h vs.2-4 h:0.13±1.37%/h;P<0.01),whereas the rate of sperm with moderate+high single-stranded breaks was higher in the second period(0-2 h:3.52±7.77%/h vs.2-4h:21.06±11.69%/h;P<0.0001).Regarding sperm physiology,viability decrease rate was different between the two periods(0-2 h:-4.49±1.79%/h vs.2-4 h:-2.50±3.39%/h;P=0.032),but the progressive motility decrease rate was constant throughout post-thawing incubation(0-2 h:-4.70±3.42%/h vs.2-4 h:-1.89±2.97%/h;P>0.05).Finally,whereas no correlations between bull fertility and any dynamic parameter were found,there were correlations between the NRR and the basal percentage of highly-damaged sperm assessed with the alkaline Comet(Rs=-0.563,P=0.003),between NRR and basal progressive motility(Rs=0.511,P=0.009),and between NRR and sperm with high ROS at 4 h post-thaw(Rs=0.564,P=0.003).Conclusion:The statistically significant correlations found between intracellular ROS,sperm viability,sperm motility,DNA damage and chromatin deprotamination suggested a sequence of events all driven by oxidative stress,where viability and motility would be affected first and sperm chromatin would be altered at a later stage,thus suggesting that bovine sperm should be used for fertilization within 2 h post-thaw.Fertility correlations supported that the assessment of global DNA damage through the Comet assay may help predict bull fertility.

Expression of miR‑138 in cryopreserved bovine sperm is related to their fertility potential

Background MicroRNAs(miRNAs)are small,single-stranded,non-coding RNA molecules of 22–24 nucleotides that regulate gene expression.In the last decade,miRNAs have been described in sperm of several mammals,including cattle.It is known that miRNAs can act as key gene regulators of early embryogenesis in mice and humans;however,little is known about the content,expression,and function of sperm-borne miRNAs in early bovine embryo.In this study,total sperm RNA was isolated from 29 cryopreserved sperm samples(each coming from a separate bull)using a RNeasy kit and treatment with DNase I.RNA concentration and purity were determined through an Epoch spectrophotometer and an Agilent Bioanalyzer.The expression of 10 candidate miRNAs in bovine sperm(bta-miR-10a,bta-miR-10b,bta-miR-138,bta-miR-146b,bta-miR-19b,bta-miR-26a,bta-miR-34a,bta-miR-449a,bta-miR-495 and btamiR-7),previously identified in testis and/or epididymis,was evaluated with RT-qPCR.The cel-miR-39-3p was used as a spike-in exogenous control.Nonparametric Mann–Whitney tests were run to evaluate which miRNAs were differentially expressed between bulls with high fertility[HF;non-return rates(NRR)ranging from 39.5 to 43.5]and those with subfertility(SF;NRR ranging from 33.3 to 39.3).Several sperm functionality parameters(e.g.,viability,membrane stability or oxygen consumption,among others)were measured by multiplexing flow cytometry and oxygen sensing technologies.Results RNA concentration and purity(260/280 nm ratio)(mean±SD)from the 29 samples were 99.3±84.6 ng/μL and 1.97±0.72,respectively.Bioanalyzer results confirmed the lack of RNA from somatic cells.In terms of the presence or absence of miRNAs,and after applying the Livak method,8 out of 10 miRNAs(bta-miR-10b,-138,-146b,-19b,-26a,-449a,-495,-7)were consistently detected in bovine sperm,whereas the other two(bta-miR-10a,and-34a)were absent.Interestingly,the relative expression of one miRNA(bta-miR-138)in sperm was significantly lower in the SF than in the HF group(P=0.038).In addition to being associated to fertility potential,the presence of this miRNA was found to be negatively correlated with sperm oxygen consumption.The expression of three other miRNAs(bta-miR-19b,bta-miR-26a and bta-miR-7)was also correlated with sperm function variables.Conclusions In conclusion,although functional validation studies are required to confirm these results,this study suggests that sperm bta-miR-138 is involved in fertilization events and beyond,and supports its use as a fertility biomarker in cattle.

Sperm function, mitochondrial activity and in vivo fertility are associated to their mitochondrial DNA content in pigs

Background Despite their low abundance in sperm, mitochondria have diverse functions in this cell type, includ-ing energy production, signalling and calcium regulation. In humans, sperm mitochondrial DNA content(mtDNAc) has been reported to be negatively linked to sperm function and fertility. Yet, the association between mtDNAc and sperm function in livestock remains unexplored. For this reason, this study aimed to shed some light on the link between mtDNAc and sperm function and fertilising potential in pigs. A qPCR method for mtDNAc quantification was optimised for pig sperm, and the association of this parameter with sperm motility, kinematics, mitochondrial activity, and fertility was subsequently interrogated.Results First, the q PCR method was found to be sensitive and efficient for mtDNAc quantification in pig sperm. By using this technique, mtDNAc was observed to be associated to sperm motility, mitochondrial activity and in vivo, but not in vitro, fertility outcomes. Specifically, sperm with low mtDNAc were seen to exhibit greater motility but decreased mitochondrial activity and intracellular reactive oxygen species. Interestingly, samples with lower mtD-NAc showed higher conception and farrowing rates, but similar in vitro fertilisation rates and embryo development, when compared to those with greater mtDNAc.Conclusions These findings enrich our comprehension of the association of mtDNAc with sperm biology, and lay the foundation for future research into employing this parameter as a molecular predictor for sperm function and fer-tility in livestock.

GSTM3, but not IZUMO1, is a cryotolerance marker of boar sperm

Background: Cryopreservation is currently the most efficient method for long-term preservation of mammalian gametes and is extensively used in swine artificial insemination(AI) centres. However, it is well-known that cryopreservation procedures induce changes in the water phase in both intra and extracellular compartments,which alter the content and localisation of several proteins and ends up curtailing the structural integrity of functional sperm(i.e., cryoinjuries). Alterations and deficiencies of sperm-oocyte binding proteins during gamete recognition are one of the causes of reproductive failure both in vitro and in vivo. In this sense, characterisation of cryopreservation effects upon oocyte-binding proteins of sperm, such as IZUMO1 and GSTM3, is essential when assessing the impact of this technique in swine reproduction.Results: Cryopreservation was found to induce changes in the localisation of IZUMO1 and GSTM3 in boar sperm.However, the relative content of both proteins was not altered after thawing. Furthermore, whereas IZUMO1 content was found not to be related to the cryotolerance of boar sperm, GSTM3 content was observed to be higher in poor(PFE) than in good(GFE) freezability ejaculates in both pre-frozen(1.00 INT·mm^2± 0.14 INT·mm^2 vs.0.72 INT·mm^2± 0.15 INT·mm^2;P < 0.05) and post-thawed(0.96 INT·mm^2± 0.20 INT·mm^2 vs. 70 INT·mm^2± 0.19 INT·mm^2;P < 0.05) samples. Moreover, GSTM3 levels were found to be higher in those spermatozoa that exhibited low mitochondrial activity, high reactive oxygen species(ROS) production, and high membrane lipid disorder postthaw(P < 0.05).Conclusions: The difference in GSTM3 content between GFE and PFE, together with this protein having been found to be related to poor sperm quality post-thaw, suggests that it could be used as a cryotolerance marker of boar spermatozoa. Furthermore, both IZUMO1 and GSTM3 relocate during cryopreservation, which could contribute to the reduced fertilising capacity of frozen-thawed boar sperm.

Aquaglyceroporins but not orthodox aquaporins are involved in the cryotolerance of pig spermatozoa

Background:Aquaporins(AQPs)are a family of transmembrane water channels that includes orthodox AQPs,aquaglyceroporins(GLPs)and super AQPs.AQP3,AQP7,AQP9 and AQP11 have been identified in boar sperm,and they are crucial for sperm maturation and osmoregulation.Water exchange is an important event in cryopreservation,which is the most efficient method for long-term storage of sperm.However,the freezethaw process leads to sperm damage and a loss of fertilizing potential.Assuming that the quality of frozenthawed sperm partially depends on the regulation of osmolality variations during this process,AQPs might play a crucial role in boar semen freezability.In this context,the aim of this study was to unravel the functional relevance of the different groups of AQPs for boar sperm cryotolerance through three different inhibitors.Results:Inhibition of different groups of AQPs was found to have different effects on boar sperm cryotolerance.Whereas the use of 1,3-propanediol(PDO),an inhibitor of orthodox AQPs and GLPs,decreased total motility(P<0.05),it increased post-thaw sperm viability,lowered membrane lipid disorder and increased mitochondrial membrane potential(MMP)(P<0.05).When acetazolamide(AC)was used as an inhibitor of orthodox AQPs,the effects on post-thaw sperm quality were restricted to a mild increase in MMP in the presence of the intermediate concentration at 30 min post-thaw and an increase in superoxide levels(P<0.05).Finally,the addition of phloretin(PHL),a GLP inhibitor,had detrimental effects on post-thaw total and progressive sperm motilities,viability and lipid membrane disorder(P<0.05).Conclusions:The effects of the different inhibitors suggest that GLPs rather than orthodox AQPs are relevant for boar sperm freezability.Moreover,the positive effect of PDO on sperm quality suggests a cryoprotective role for this molecule.

Metabolomic fingerprinting of pig seminal plasma identifies in vivo fertility biomarkers

Background:Metabolomic approaches,which include the study of low molecular weight molecules,are an emerging-omics technology useful for identification of biomarkers.In this field,nuclear magnetic resonance(NMR)spectroscopy has already been used to uncover(in)fertility biomarkers in the seminal plasma(SP)of several mammalian species.However,NMR studies profiling the porcine SP metabolome to uncover in vivo fertility biomarkers are yet to be carried out.Thus,this study aimed to evaluate the putative relationship between SPmetabolites and in vivo fertility outcomes.To this end,24 entire ejaculates(three ejaculates per boar)were collected from artificial insemination(AI)-boars throughout a year(one ejaculate every 4 months).Immediately after collection,ejaculates were centrifuged to obtain SP-samples,which were stored for subsequent metabolomic analysis by NMR spectroscopy.Fertility outcomes from 1525 inseminations were recorded over a year,including farrowing rate,litter size,stillbirths per litter and the duration of pregnancy.Results:A total of 24 metabolites were identified and quantified in all SP-samples.Receiver operating characteristic(ROC)curve analysis showed that lactate levels in SP had discriminative capacity for farrowing rate(area under the curve[AUC]=0.764)while carnitine(AUC=0.847),hypotaurine(AUC=0.819),sn-glycero-3-phosphocholine(AUC=0.833),glutamate(AUC=0.799)and glucose(AUC=0.750)showed it for litter size.Similarly,citrate(AUC=0.743),creatine(AUC=0.812),phenylalanine(AUC=0.750),tyrosine(AUC=0.753)and malonate(AUC=0.868)levels had discriminative capacity for stillbirths per litter;and malonate(AUC=0.767)and fumarate(AUC=0.868)levels for gestation length.Conclusions:The assessment of selected SP-metabolites in ejaculates through NMR spectroscopy could be considered as a promising non-invasive tool to predict in vivo fertility outcomes in pigs.Moreover,supplementing AI-doses with specific metabolites should also be envisaged as a way to improve their fertility potential.

Sperm chromatin condensation as an in vivo fertility biomarker in bulls:a flow cytometry approach

Background:Genetic selection in cattle has been directed to increase milk production.This,coupled to the fact that the vast majority of bovine artificial inseminations(AI)are performed using cryopreserved sperm,have led to a reduction of fertility rates over the years.Thus,seeking sensitive and specific sperm biomarkers able to predict fertility rates is of vital importance to improve cattle reproductive efficiency.In humans,sperm chromatin condensation evaluated through chromomycin A3(CMA3)has recently been purported to be a powerful biomarker for sperm functional status and male infertility.The objectives of the present study were:a)to set up a flow cytometry method for simultaneously evaluating chromatin condensation and sperm viability,and b)to test whether this parameter could be used as a predictor of in vivo fertility in bulls.The study included pools of three independent cryopreserved ejaculates per bull from 25 Holstein males.Reproductive outcomes of each sire were determined by non-return rates,which were used to classify bulls into two groups(highly fertile and subfertile).Results:Chromatin condensation status of bovine sperm was evaluated through the combination of CMA3 and Yo-Pro-1 staining and flow cytometry.Sperm quality parameters(morphology,viability,total and progressive motility)were also assessed.Pearson correlation coefficients and ROC curves were calculated to assess their capacity to predict in vivo fertility.Sperm morphology,viability and total motility presented an area under the ROC curve(AUC)of 0.54,0.64 and 0.68,respectively(P>0.05),and thus were not able to discriminate between fertile and subfertile individuals.Alternatively,while the percentage of progressively motile sperm showed a significant predictive value,with an AUC of 0.73(P=0.05),CMA3/Yo-Pro-1 staining even depicted superior results for the prediction of in vivo fertility in bulls.Specifically,the percentage of viable sperm with poor chromatin condensation showed better accuracy and precision to predict in vivo fertility,with an AUC of 0.78(P=0.02).Conclusions:Chromatin condensation evaluated through CMA3/Yo-Pro-1 and flow cytometry is defined here as a more powerful tool than conventional sperm parameters to predict bull in vivo fertility,with a potential ability to maximising the efficiency of dairy breeding industry.

Quantitatively mapping local quality of super-resolution microscopy by rolling Fourier ring correlation

In fluorescence microscopy,computational algorithms have been developed to suppress noise,enhance contrast,and even enable super-resolution(SR).However,the local quality of the images may vary on multiple scales,and these differences can lead to misconceptions.Current mapping methods fail to finely estimate the local quality,challenging to associate the SR scale content.Here,we develop a rolling Fourier ring correlation(rFRC)method to evaluate the reconstruction uncertainties down to SR scale.To visually pinpoint regions with low reliability,a filtered rFRC is combined with a modified resolution-scaled error map(RSM),offering a comprehensive and concise map for further examination.We demonstrate their performances on various SR imaging modalities,and the resulting quantitative maps enable better SR images integrated from different reconstructions.Overall,we expect that our framework can become a routinely used tool for biologists in assessing their image datasets in general and inspire further advances in the rapidly developing field of computational imaging.

The regulation of host cytoskeleton during SARS-CoV-2 infection in the nervous system

The global economy and public health are currently under enormous pressure since the outbreak of COVID-19. Apart from respiratory discomfort, a subpopulation of COVID-19 patients exhibits neurological symptoms such as headache, myalgia, and loss of smell. Some have even shown encephalitis and necrotizing hemorrhagic encephalopathy. The cytoskeleton of nerve cells changes drastically in these pathologies, indicating that the cytoskeleton and its related proteins are closely related to the pathogenesis of nervous system diseases. In this review, we present the up-to-date association between host cytoskeleton and coronavirus infection in the context of the nervous system. We systematically summarize cytoskeleton-related pathogen-host interactions in both the peripheral and central nervous systems, hoping to contribute to the development of clinical treatment in COVID-19 patients.

Actin nucleator formins regulate the tension-buffering function of caveolin-1

Both the mechanosensitive actin cytoskeleton and caveolae contribute to active processes such as cell migration,morphogenesis,and vesicular trafficking.Although distinct actin components are well studied,how they contribute to cytoplasmic caveolae,especially in the context of mechano-stress,has remained elusive.Here,we identify two actin-associated mobility stereotypes of caveolin-1(CAV-1)-marked intracellular vesicles,which are characterized as‘dwelling’and‘go and dwelling’.In order to exploit the reason for their distinct dynamics,elongated actin-associated formin functions are perturbed.We find drastically decreased density,increased clustering,and compromised motility of cytoplasmic CAV-1 vesicles resulting from lacking actin nucleator formins by both chemical treatment and RNA silencing of formin genes.Furthermore,hypo-osmosis-stimulated diminishing of CAV-1 is dramatically intensified upon blocking formins.The clustering of CAV-1 vesicles when cells are cultured on soft substrate is also aggravated under formin inhibition condition.Together,we reveal that actin-associated formins are essential for maintaining the dynamic organization of cytoplasmic CAV-1 and importantly its sensitivity upon mechanical challenge.We conclude that tension-controlled actin formins act as a safety valve dampening excessive tension on CAV-1 and safeguarding CAV-1 against mechanical damage.

Interactive mechanisms between caveolin-1 and actin filaments or vimentin intermediate filaments instruct cell mechanosensing and migration

Introduction Cell mechanosensing is the process that cell senses extracellular mechanical cues through mechanosensors and transduces them to downstream signaling pathways to alter cell mechanics and behaviors,which is involved in embryonic development(Gaetani et al.,2020),tissue regeneration(Fu et al.,2019),inflammatory response(Worbs et al.,2017),and tumor invasion and metastasis(Gargalionis et al.,2018).This ability is crucial for cells to adapt to mechanical stimuli(compressive force,shear stress,substrate rigidity,topology,adhesiveness,etc.)and maintain homeostasis(Chen et al.,2017).

单分子视踪技术揭示SARS-CoV-2病毒利用动态的丝状伪足入侵细胞

SARS-CoV-2病毒侵袭细胞的分子机制已被初步探索,但关于其如何调节亚细胞结构重塑从而侵袭多种器官及细胞类型尚不清楚.本文利用活细胞实时成像技术揭示了SARS-CoV-2病毒颗粒通过宿主细胞丝状伪足进入靶细胞的动态过程.利用荧光标记的SARS-CoV-2病毒样颗粒(VLP)和稀疏去卷积算法成像技术,发现VLP利用丝状伪足以“冲浪”和“抓取”两种模式到达入侵点,以避免病毒在细胞膜上随机搜索入侵位点,此外,结合力学模拟实验,阐明了病毒诱导丝状伪足的形成和丝状伪足的回缩速度分别取决于细胞骨架动力学和病毒重力引起的底物表面摩擦阻力.进一步研究发现SARS-CoV-2通过丝状伪足进入细胞的过程依赖于小G蛋白Cdc42(细胞分裂周期蛋白42)活性和肌动蛋白相关蛋白fasin(肌动蛋白结合蛋白)、formin(成核蛋白)和Arp2/3(肌动蛋白相关蛋白2/3复合物).综上所述,本文结果强调了SARS-CoV-2感染能对宿主细胞的微丝骨架进行时空调节,使细胞形成丝状伪足作为病毒进入的“高速轨道”,丝状伪足形成相关蛋白及其信号通路可作为潜在的抗病毒靶标.

Discovery of Trametinib as an orchestrator for cytoskeletal vimentin remodeling

The dynamic remodeling of the cytoskeletal network of vimentin intermediate filaments supports various cellular functions,including cell morphology,elasticity,migration,organelle localization,and resistance against mechanical or pathological stress.Currently available chemicals targeting vimentin predominantly induce network reorganization and shrinkage around the nucleus.Effective tools for long-term manipulation of vimentin network dispersion in living cells are still lacking,limiting in-depth studies on vimentin function and potential therapeutic applications.Here,we verified that a commercially available small molecule,trametinib,is capable of inducing spatial spreading of the cellular vimentin network without affecting its transcriptional or Translational regulation.Further evidence confirmed its low cytotoxicity and similar effects on different cell types.Importantly,Trametinib has no impact on the other two cytoskeletal systems,actin filaments and the microtubule network.Moreover,Trametinib regulates vimentin network dispersion rapidly and efficiently,with effects persisting for up to 48 h after drug withdrawal.We also ruled out the possibility that Trametinib directly affects the phosphorylation level of vimentin.In summary,we identified an unprecedented regulator Trametinib,which is capable of spreading the vimentin network toward the cell periphery,and thus complemented the existing repertoire of vimentin remodeling drugs in the field of cytoskeletal research.