Study of chromatin decondensation factors in human spermatozoids by flow cytometry

To date, the mechanisms responsible for radical change of chromatin structure in male germ cells during fertilization are unclear. Evidence suggesting the existence of proteolytic nuclear enzymes in mature human spermatozoids are presented in this work. The possible role of these previously unknown proteases in decondensation of chromatin of spermatozoids in a fertilized ovum is discussed. Application of the flow cytometry technique has shown that treatment of human spermatozoid nuclei with SH-reagents leads not only to destruction of disulfide bonds between protamine molecules that is necessary for their effective utilization but also induces specific endogenous proteolytic activity that consequently results in rather fast decondensation of chromatin followed by proteolytic cleavage of nuclear proteins. A chromatin decondensation process can be almost totally blocked by serine protease inhibitors and components of seminal fluid. An original cytochemical approach of binding of fluorescently labeled protease inhibitor to the target of investigation has been used in order to visualize the localization of proteases in male germ cell nuclei. The results of our study suggest that one of the factors of chromatin reorganization involved in the formation of male pronucleus is endogenous nuclear protease of spermatozoids, which is activated by glutathione or other SH-components of ovum cytoplasm.     

Does in vitro capacitation alter chromatin stability of ejaculated human spermatozoa? cytochemical studies

In vitro capacitation of human spermatozoa is commonly evaluated by the progressive motility percent. However its effects on sperm chromatin have hardly been studied. Our aim was to determine the extent to which in vitro capacitation with two treatments (B2 or human follicular fluid) alters the chromatin of human spermatozoa, by using two analytical methods, acridine orange staining and Feulgen-DNA cytophotometric measures. Ejaculates were obtained from 23 men participating in our in vitro fertilization program, and several measurements were made on the same ejaculate for each subject. No alteration was observed for the percent of native DNA after capacitation in B2, but spermatozoa incubation during the same time in human follicular fluid was followed by a significant decrease of the percent of native DNA (P less than 0.01). Feulgen-DNA content significantly increased after capacitation in either B2 or follicular fluid (P less than 0.05, P less than 0.001 respectively), and so did sperm nuclear surface area (P less than 0.001). In this study we observed a negative correlation between Feulgen-DNA content and fertilization rate (P less than 0.02). Moreover, the greater effects on Feulgen-DNA content were observed in men with abnormal sperm, whose spontaneous percent of native DNA was lower (P less than 0.05) and Feulgen-DNA content higher (P less than 0.05) than in men with normal sperm. These results indicate that capacitation in B2 as well as in human follicular fluid may alter the chromatin stability of human spermatozoa. Such results suggest a partial decondensation state of human spermatozoa during in vitro capacitation. However, beyond some level of decondensation, the fertilizing ability could be altered.     

The disruption in actin-perinuclear theca interactions are related with changes induced by cryopreservation observed on sperm chromatin nuclear decondensation of boar semen

The perinuclear theca (PT) is a cytoskeletal structure that surrounds the mammal sperm nucleus which must be disrupted once the sperm has penetrated the oocyte to permit normal chromatin decondensation and formation of male pronucleus. F-actin is a thermo sensitive protein found in the equatorial segment which is involved in the stability of PT. It has been reported that cryopreservation induces alterations in nuclear decondensation of spermatozoa, which have been interpreted as an over condensation. The aims of the present study were identified the presence of changes in sperm sPT integrity of frozen–thawed boar spermatozoa and its effect in sperm nuclei decondensation; and whether changes in the actin cytoskeleton are involved using an in vitro model to test probably differences in a chemical decondensation (DTT/heparin) between fresh (FS) and frozen–thawed (TS) spermatozoa. Results showed an increase on sPT damage in TS (P < 0.001), and significant changes in sperm chromatin nuclear decondensation (P < 0.05). In same way differences on the swelling degree was found assessed by measures in equatorial region of head sperm (P < 0.05). Evaluation with rodamine-labeled actin (0.2 μM) showed two different patterns with differences in percentages before and after cryopreservation (P < 0.001). F-actin stabilization constrained the equatorial segment of FS while this was not observed in TS. The data showed that the presence of early changes in sPT integrity and changes in the F-actin localization on TS may suggest the participation in F-actin in decondensation process and probably that the disruption of actin-PT interaction during freezing–thawing process could have far-reaching consequences for the subsequent fertility of spermatozoa.     

Reactivation of DNA replication in erythrocyte nuclei by Xenopus egg extract involves energy-dependent chromatin decondensation and changes in histone phosphorylation.

Reactivation of chicken erythrocyte nuclei for DNA replication in Xenopus egg extracts involves two phases of chromatin remodelling: a fast decondensation leading to a small volume increase and chromatin dispersion occurring within a few minutes (termed stage I decondensation), followed by a slower membrane-dependent decondensation and enlargement of up to 40-fold from the initial volume (stage II decondensation). Chromatin decondensation as measured by nuclear swelling and micrococcal nuclease digestion required ATP. We observed a characteristic change in the phosphorylation pattern of erythrocyte proteins upon incubation in egg extract. While histones H5, H2A, and H4 became selectively phosphorylated during decondensation, the phosphorylation of histone H3 and of several nonhistone proteins was prevented. Furthermore, histone H5 was selectively released from erythrocyte nuclei in an energy-dependent reaction. These molecular changes already occurred during stage I decondensation and they persisted during stage II decondensation. DNA replication was confined to nuclei of stage II decondensation which incorporated lamin LIII from the egg extract. These results show that initiation of DNA replication in chicken erythrocytes requires in addition to ATP-dependent chromatin remodelling (stage I), further changes in chromatin structure that correlates with lamin LIII incorporation, and stage II decondensation.     

Chromosome organization revealed upon the decondensation of telophase chromosomes inAllium

Chromosomes of root tip cells ofAllium cepa andAllium sativum were studied in early, middle and late telophase to examine the organization of mitotic chromosomes, taking advantage of the naturally occurring chromosome dispersion during the process of decondensation in telophase. Longitudinal and transverse sections of telophase chromosomes viewed under the transmission electron microscope showed that mitotic chromosomes inAllium were composed of helically coiled 400–550 nm chromatin fibres. In some regions of the longitudinal sections, these chromatin fibres were seen to be orientated parallel to one another but formed roughly a right angle to the long axis of the chromosome. In transverse sections, the telophase chromosome appeared to have a hollow centre encircled by the 400–550 nm chromatin fibre which in turn was a hollow tube structure formed by the coiling of a thinner fibre of 170–200 nm. In addition, cross views of chromatin fibres of 170–200 nm and 50–70 nm were also identified in telophase chromosome preparations. These two organizational levels of chromatin fibres also showed a hollow centre. The process of decondensation of telophase chromosomes is described, and some morphological characteristics associated with the activities of chromosome decondensation are analysed. Based on the observations made onAllium chromosomes in this study, various models of chromosome organization are discussed.     

Chromatin decondensation and nuclear reprogramming by nucleoplasmin

Somatic cell nuclear cloning has repeatedly demonstrated striking reversibility of epigenetic regulation of cell differentiation. Upon injection into eggs, the donor nuclei exhibit global chromatin decondensation, which might contribute to reprogramming the nuclei by derepressing dormant genes. Decondensation of sperm chromatin in eggs is explained by the replacement of sperm-specific histone variants with egg-type histones by the egg protein nucleoplasmin (Npm). However, little is known about the mechanisms of chromatin decondensation in somatic nuclei that do not contain condensation-specific histone variants. Here we found that Npm could widely decondense chromatin in undifferentiated mouse cells without overt histone exchanges but with specific epigenetic modifications that are relevant to open chromatin structure. These modifications included nucleus-wide multiple histone H3 phosphorylation, acetylation of Lys 14 in histone H3, and release of heterochromatin proteins HP1beta and TIF1beta from the nuclei. The protein kinase inhibitor staurosporine inhibited chromatin decondensation and these epigenetic modifications with the exception of H3 acetylation, potentially linking these chromatin events. At the functional level, Npm pretreatment of mouse nuclei facilitated activation of four oocyte-specific genes from the nuclei injected into Xenopus laevis oocytes. Future molecular elucidation of chromatin decondensation by Npm will significantly contribute to our understanding of the plasticity of cell differentiation.     

Involvement of mouse nucleoplasmin 2 in the decondensation of sperm chromatin after fertilization

The tightly condensed chromatin of spermatozoa is rapidly decondensed after the spermatozoa enter oocytes. Although no factor involved in sperm chromatin decondensation (SCD) has been identified in mammals, it has been suggested that a factor related to SCD activity is present in the germinal vesicle (GV) of oocytes. Here, we found that the nucleolus-like body (NLB), which is a component of the GV, is involved in SCD in murine oocytes. When NLBs were microsurgically removed from GV-stage oocytes, SCD was significantly retarded in the paternal genome after fertilization following meiotic maturation. We found that the retardation of SCD in the NLB-removed oocytes was restored by the microinjection of mRNA encoding nucleoplasmin 2 (NPM2), a component of NLBs. Furthermore, SCD was retarded in the fertilized oocytes from Npm2-knockout females, and recombinant NPM2 alone could induce the SCD in vitro. These data provide evidence that NPM2 is involved in sperm chromatin remodeling in mammals.     

Gold nanoparticles disturb nuclear chromatin decondensation in mouse sperm in vitro

The effect of gold nanoparticles on mouse epididymal sperm has been studied using the model system of nuclear chromatin decondensation in vitro. It is shown that the treatment of gametes, preliminary membrane-freed by sodium dodecyl sulfate, in the mediums containing gold nanoparticles (with diameter ∼2.5 nm) in concentrations 1.0 × 10¹⁵ or 0.5 × 10¹⁵ particles/ml and following incubation in dithiothreitol solution (DTT) resulted in failure of chromatin decondensation process and nucleus structure. We conclude that gold nanoparticles possess spermatotoxicity. The mechanism of cytotoxic effect of gold nanoparticles may be related with their interaction with molecules of double-helix DNA. The model system studied in this research is applicable for further investigations of cytotoxic effects of nanoparticles of different origin and made of different metals.     

Size-uniform heparin fragments as nuclear decondensation and acrosome reaction inducers in human spermatozoa

Using size- uniform mixtures of di-, tetra-, octa- and decasaccharides obtained from the depolymerization of heparin with heparinase, we have studied the activity that these low molecular weight heparin fragments may have on the acrosome reaction and sperm nuclei decondensation processess. Swelling of human spermatozoa nuclei was stimulated by heparin and their fragments and was dependent on the incubation time and directly correlated with the size of the fragment tested. Disaccharides were unable to increase the number of swollen nuclei. At short times (2-8 hrs) decasaccharides were the most active substances tested, including heparin. Only heparin and the tetra- and decasaccharides showed a significant increase in the number of acrosome-reacted spermatozoa, both fragments were more active than heparin at 2 hour incubation. Hexa- and octasaccharides induced a slight increase in the number of acrosome reacted spermatozoa and disaccharides were ineffective. The presence in animal systems of oligosaccharides derived from macromolecules and having specific biochemical properties, remembers the recent discovery of to those mediated by oligosaccharins in plants may exist in animals.     

Chromatin decondensation in S-phase involves recruitment of Cdk2 by Cdc45 and histone H1 phosphorylation

Cdc45 is required for initiation of DNA replication and fork progression, but its function in these processes remains unknown. We show that targeting Cdc45 to specific chromosomal sites in mammalian cells results in large-scale chromatin decondensation that strongly correlates with histone H1 phosphorylation. Cdk2 is recruited to sites of Cdc45 decondensation, and Cdk2 inhibitors reduce the level of decondensation. Targeting wild-type Cdk2, but not kinase-defective Cdk2, to chromatin is also effective at inducing decondensation involving phospho-H1. Cdc45, Cdk2, Cyclin A, and phospho-H1 associate with chromatin during S-phase, and Cdc45, Cdk2, and an active H1 kinase physically interact. Replicating DNA and phospho-H1 foci colocalize in vivo, and S-phase progression and H1 phosphorylation are directly related and Cdk2 dependent. Because Cdk2 colocalizes with replication foci and H1 regulates higher-order chromatin, we suggest a model in which Cdc45 recruits Cdk2 to replication foci, resulting in H1 phosphorylation, chromatin decondensation, and facilitation of fork progression.     

Studies on the decondensation of human, mouse, and bull sperm nuclei by heparin and other polyanions

We report heparin-induced decondensation of human, mouse, and bull sperm nuclei. Decondensation did not occur if the spermatozoa were intact but only if the membranes were severely damaged by freezing and thawing or by treatment with a detergent. If a disulphide bond reducing agent (thiol) was absent, decondensation of human sperm nuclei was usually a relatively slow process, with large interindividual variation. Mouse and bull sperm nuclei did not decondense in the absence of a thiol. With a thiol relatively low concentrations of heparin induced a rapid decondensation of the sperm nuclei of all three species. The decondensation activity was not specific for heparin; other polyanions were also active, with heparin being the most effective compound. It is supposed that heparin and other polyanions induce sperm nuclear decondensation because they deplete protamines from the chromatin. Thus the negatively charged phosphate groups of the DNA are no longer opposed by positively charged protamines. Consequently the mutual repulsion of unopposed phosphate groups causes the DNA molecules to stretch, which results in an increase of the sperm nuclear volume. Since heparin and other polyanions induce decondensation under physiological pH and temperature, polyanions might also be active in the oocyte.     

Two kinase activities are sufficient for sea urchin sperm chromatin decondensation in vitro

Decondensation of compact and inactive sperm chromatin by egg cytoplasm at fertilization is necessary to convert the male germ cell chromatin to an active somatic form. We studied decondensation of sea urchin sperm nuclei in a cell-free extract of sea urchin eggs to define conditions promoting decondensation. We find that egg cytosol specifically phosphorylates two sperm-specific (Sp) histones in vitro in the same regions as in vivo. This activity is blocked by olomoucine, an inhibitor of cdc2-like kinases, but not by chelerythrine, an inhibitor of protein kinase C (PKC). PKC phosphorylates and solubilizes the sperm nuclear lamina, one requirement for decondensation. Olomoucine, which does not inhibit lamina removal, blocks sperm nuclear decondensation in the same concentration range over which it is effective in blocking Sp histone phosphorylation. In a system free of other soluble proteins, neither PKC nor cdc2 alone elicit sperm chromatin decondensation, but the two act synergistically to decondense sperm nuclei. We conclude that two kinases activities are sufficient for sea urchin male pronuclear decondensation in vitro, a lamin kinase (PKC) and a cdc2-like Sp histone kinase.     

Development of pronuclei from human spermatozoa injected microsurgically into frog (Xenopus) eggs

Human spermatozoa were demembranated with Triton X-100 (TX) and injected into the mature eggs of Xenopus laevis. The nuclei of these spermatozoa decondensed and developed into pronuclei. Chromosomes did not appear in the eggs until the end of a 5-hr incubation period. When the demembranated human spermatozoa were further treated with dithiothreitol (DTT) before they were injected into the eggs, the sperm nuclear decondensation and pronuclear development took place considerably faster than in spermatozoa treated with the detergent alone. By the end of the 5-hr incubation period, decondensed chromatin threads or chromosome-like structures appeared, but none of the eggs cleaved. When human spermatozoa were injected into full-grown ovarian oocytes with intact germinal vesicle (GV) or oocytes which had matured without GV, the nuclei of a proportion of TX-treated and all TX-DTT-treated sperm decondensed but showed no sign of developing into pronuclei. Sperm nuclei injected into maturing oocytes formed condensed chromatin fragments as long as the oocytes were not activated, but they transformed into pronuclei when the oocytes were stimulated with electric shock. These results indicate that the cytoplasmic factors responsible for the decondensation of human sperm nuclei are present in egg cytoplasm independent of GV-materials. We also suggest that the factors controlling development of decondensed sperm nuclei into pronuclei are dependent on GV materials.     

Influence of incubation in seminal plasma on subsequent metabolic and morphological characteristics of bovine spermatozoa

Incubation of bovine spermatozoa at 25° C for up to 8 hours in seminal plasma had little influence on oxygen uptake as compared to preincubation values but increased both the number of dead spermatozoa and proportion of spermatozoa with detached acrosomes. Washing spermatozoa and resuspension in either saline or seminal plasma followed by incubation for 4 or 8 hours decreased oxygen uptake and at 8 hours decreased the proportion of cells with deteched acrosomes as compared to 8 hour control values. When spermatozoa were not washed but were extended in egg yolk citrate extender or seminal plasma, oxygen uptake was greater for cells extended with seminal plasma. Storage of spermatozoa for 14 days at ?196° C following incubation in seminal plasma showed little influence of incubation time in seminal plasma on postfreeze metabolic or morphological characteristics. These experiments indicate that incubation of spermatozoa in seminal plasma prior to storage has little beneficial effect and, on the contrary, may cause an increase in acrosomal loss.     

Stimulation of sperm motility and oxygen consumption of fowl spermatozoa by a low molecular weight fraction of seminal plasma

Washed fowl spermatozoa were incubated in a phosphate buffer containing various concentrations of fowl seminal plasma at 41 degrees C, normal body temperature, and the motility and oxygen consumption of spermatozoa were determined. Immediately after the incubation, spermatozoa showed good motility in the various diluents. However, with concentrations of seminal plasma at or below 20%, spermatozoa quickly became immotile. In contrast, at concentrations higher than 40% seminal plasma, spermatozoa were motile even after 15 min. As the concentration of seminal plasma was increased, oxygen consumption of spermatozoa also increased. A filtrate of the seminal plasma, obtained by passing the fluid through an Amicon YM-2 ultra-filtration membrane (Mr less than 1000), also stimulated the motility and oxygen consumption of spermatozoa. These results suggest that some low molecular weight factor(s) in fowl seminal plasma stimulated motility and oxygen consumption of fowl spermatozoa at 41 degrees C. A physiological role of this factor(s) may be to assist passage of spermatozoa through the vagina after natural mating.     

Quantitative assessment of chromatin stability alteration in human spermatozoa induced by freezing and thawing. A flow cytometric study.

The authors examined the effect of cryopreservation on chromatin stability in human spermatozoa from 21 ejaculates. Each ejaculate was divided into four aliquots: (1) fresh aliquot, (2) frozen and thawed aliquot, (3) fresh aliquot subjected to an in vitro decondensation method, and (4) frozen and thawed aliquot subjected to the same in vitro decondensation method; all were then fixed with an ethanol fixative agent. Chromatin stainability was quantified by flow cytometric measurement of fluorochrome uptake by DNA. Study of 21 fresh aliquots showed that 37.9% of the DNA was accessible to propidium iodide. The comparative stainability between the 21 fresh and 21 frozen-thawed, undecondensed aliquots demonstrated a low but significant increase in accessibility of DNA by propidium iodide for the thawed samples: 38.7 +/- 1.7% (mean +/- SD) versus 37.9 +/- 1.3%. The biochemical action of the nuclear decondensation solution increased the accessibility of propidium iodide, but in different ways: 57.2 +/- 12.9% versus 54.7 +/- 13.7%, respectively, for fresh and frozen-thawed aliquots. Analysis of the flow cytometric histograms revealed an intermediate population of spermatozoa adjacent to the main germinal peak. This population increased significantly: 9.6 +/- 1.9% for the fresh versus 12.3 +/- 4.9% for the frozen-thawed undecondensed aliquots and 8.6 +/- 3.5% versus 12.3 +/- 4.9%, respectively, for fresh and frozen-thawed, decondensed aliquots. Because the chromatin stability of thawed spermatozoa may be a critical factor in assisted procreation, the authors discuss the effect of thermal denaturation on the nucleoprotein structures and the origin of the intermediate population of spermatozoa.     

In vitro decondensation of the sperm chromatin in Holothuria tubulosa (sea cucumber) not affecting proteolysis of basic nuclear proteins

Sea urchin and sea star oocyte extracts contain proteolytic activities that are active against sperm basic nuclear proteins (SNBP). This SNBP degradation has been related to the decondensation of sperm chromatin as a possible model to male pronuclei formation. We have studied the presence of this proteolytic activity in Holothuria tubulosa (sea cucumber) and its possible relationship with sperm nuclei decondensation. The mature oocyte extracts from H. tubulosa contain a proteolytic activity to SNBP located in the macromolecular fraction of the egg‐jelly layer. SNBP degradation occurred both on sperm nuclei and on purified SNBP, histones being more easily degraded than protein Ø_o (sperm‐specific protein). SNBP degradation was found to be dependent on concentration, incubation time, presence of Ca²⁺, pH, and this activity could be a serine‐proteinase. Thermal denaturalization of the oocyte extracts (80°C, 10–15 min) inactivates its proteolytic activity on SNBP but does not affect sperm nuclei decondensation. These results would suggest that sperm nuclei decondensation occurs by a mechanism different from SNBP degradation. Thus, the sperm nuclei decondensation occurs by a thermostable factor(s) and the removal of linker SNBP (H1 and protein Ø_o) will be a first condition in the process of sperm chromatin remodeling.     

Cation-dependent solubilization of rat thymocyte chromatin is closely related to decondensation of the nuclei

The cation-dependent solubilization of rat thymocyte chromatin has been compared with decondensation of the nuclei as a function of sodium phosphate-mediated changes in the concentration of Mg2+ and Na+. After digestion of the nuclei with DNase I or Micrococcus nuclease for a time just sufficient to permit extraction of a maximal amount of chromatin (minimum digestion), solubilization of most of the chromatin was found to occur with the same cation dependency as decondensation of untreated nuclei, while further digestion changed the ionic requirements for solubilization. The cation-dependency of the chromatin solubility and of the nuclear decondensation also exhibited the same variations with temperature. The chromatin in the nuclei became up to 4-times more sensitive to DNase I by decondensation, which also induced a shift in the DNase I cleavage mode from a 200 bp to a 100 bp repeat pattern. In contrast, the sensitivity to Micrococcus nuclease appeared to be nearly unchanged. These results suggest that solubilization of chromatin prepared by a mild endonuclease treatment occurs as a direct consequence of structural changes in the chromatin which take place during decondensation of the nuclei.     

Motility and penetration competence of frozen-thawed miniature pig spermatozoa are substantially altered by exposure to seminal plasma before freezing

The objective was to determine if exposure of spermatozoa to seminal plasma before freezing decreases its freezability, assessed by percentage motile cells (using computer-assisted semen analysis) and in vitro penetration ability (using in vitro fertilization and chlortetracycline fluorescence assessment). Ejaculated spermatozoa from miniature pigs were washed by centrifugation within 20 min after collection, then incubated in seminal plasma or modified Hulsenberg VIII diluents (mHM). When the spermatozoa were cryopreserved, spermatozoa incubated in seminal plasma before freezing had significantly lower post-thaw motility than spermatozoa incubated in mHM. The incubation of spermatozoa in seminal plasma also significantly prevented frozen-thawed spermatozoa from penetrating the oocytes. The second experiment, using unfrozen spermatozoa, was to determine if the incubation of spermatozoa with seminal plasma reduced penetration ability before freezing, resulting in a significantly lower penetration rate after freezing (compared with spermatozoa incubated without seminal plasma). The penetration competence of unfrozen spermatozoa was significantly decreased by incubation in seminal plasma, but no difference in motility was observed between spermatozoa exposed to seminal plasma versus mHM. We concluded that ejaculated seminal plasma contained some factor(s) that modified the sperm before freezing and reduced the freezability and post-thaw penetration competence of spermatozoa.     

Real-time observation of nucleoplasmin-mediated DNA decondensation and condensation reveals its specific functions as a chaperone

Fertilization requires decondensation of promatine-condensed sperm chromatin, a dynamic process serving as an attractive system for the study of chromatin reprogramming. Nucleoplasmin is a key factor in regulating nucleosome assembly as a chaperone during fertilization process. However, knowledge on nucleoplasmin in chromatin formation remains elusive. Herein, magnetic tweezers (MT) and a chromatin assembly system were used to study the nucleoplasmin-mediated DNA decondensation/condensation at the single-molecular level in vitro. We found that protamine induces DNA condensation in a stepwise manner. Once DNA was condensed, nucleoplasmin, polyglutamic acid, and RNA could remove protamine from the DNA at different rates. The affinity binding of the different polyanions with protamine suggests chaperone-mediated chromatin decondensation activity occurs through protein–protein interactions. After decondensation, both RNA and polyglutamic acid prevented the transfer of histones onto the naked DNA. In contrast, nucleoplasmin is able to assist the histone transfer process, even though it carries the same negative charge as RNA and polyglutamic acid. These observations imply that the chaperone effects of nucleoplasmin during the decondensation/condensation process may be driven by specific spatial configuration of its acidic pentamer structure, rather than by electrostatic interaction. Our findings offer a novel molecular understanding of nucleoplasmin in sperm chromatin decondensation and subsequent developmental chromatin reprogramming at individual molecular level.