In vitro developmental competence of ICSI-derived activated ovine embryos

The present study was conducted to determine the necessity for activation after intracytoplasmic sperm injection (ICSI) in sheep. The effect of chemical stimulation with either 5 μM ionomycin (I) for 5 min or ionomycin + 2 mM 6-dimethylaminopurine (6-DMAP) for 3 h on the efficiency of ICSI, was compared in six experimental groups: (1) ICSI, (2) ICSI + I, (3) ICSI + I + 6DMAP, (4) Sham, (5) Sham + I, and (6) parthenogenetics (Sham and parthenogenetic groups were used as controls). In the present study, ovine oocytes needed additional chemical stimulation, after conventional ICSI, to activate (female pronucleous formation) and to form zygotes with male and female pronuclei (2PN). The percentage of cleaved embryos obtained and developed to blastocyst stage was higher (P < 0.001) for ICSI-derived zygotes, followed by activation (I and I + 6DMAP; 18.2 and 22.5%, respectively) than ICSI and Sham injection without activation (3.0 and 0.0%, respectively). There was, however, no significant difference between activation protocols I or I + 6DMAP. Furthermore, there was no significant difference among chemically activated, ICSI-derived zygotes in term of hatchability rate; however, the percentage was significantly higher in parthenogenetic and IVF groups than ICSI and Sham injection. In conclusion, neither sperm alone nor mechanical activation was sufficient for ovine oocyte activation and pronuclei formation. Therefore, in our study conditions for in vitro embryo development, chemical activation of oocytes must be considered an essential part of the ICSI procedure in sheep.     

Mouse Zygotes Respond to Severe Sperm DNA Damage by Delaying Paternal DNA Replication and Embryonic Development

Mouse zygotes do not activate apoptosis in response to DNA damage. We previously reported a unique form of inducible sperm DNA damage termed sperm chromatin fragmentation (SCF). SCF mirrors some aspects of somatic cell apoptosis in that the DNA degradation is mediated by reversible double strand breaks caused by topoisomerase 2B (TOP2B) followed by irreversible DNA degradation by a nuclease(s). Here, we created zygotes using spermatozoa induced to undergo SCF (SCF zygotes) and tested how they responded to moderate and severe paternal DNA damage during the first cell cycle. We found that the TUNEL assay was not sensitive enough to identify the breaks caused by SCF in zygotes in either case. However, paternal pronuclei in both groups stained positively for γH2AX, a marker for DNA damage, at 5 hrs after fertilization, just before DNA synthesis, while the maternal pronuclei were negative. We also found that both pronuclei in SCF zygotes with moderate DNA damage replicated normally, but paternal pronuclei in the SCF zygotes with severe DNA damage delayed the initiation of DNA replication by up to 12 hrs even though the maternal pronuclei had no discernable delay. Chromosomal analysis of both groups confirmed that the paternal DNA was degraded after S-phase while the maternal pronuclei formed normal chromosomes. The DNA replication delay caused a marked retardation in progression to the 2-cell stage, and a large portion of the embryos arrested at the G2/M border, suggesting that this is an important checkpoint in zygotic development. Those embryos that progressed through the G2/M border died at later stages and none developed to the blastocyst stage. Our data demonstrate that the zygote responds to sperm DNA damage through a non-apoptotic mechanism that acts by slowing paternal DNA replication and ultimately leads to arrest in embryonic development.     

Asynchronous DNA replication and origin licensing in the mouse one‐cell embryo

To prevent duplicate DNA synthesis, metazoan replication origins are licensed during G1. Only licensed origins can initiate replication, and the cytoplasm interacts with the nucleus to inhibit new licensing during S phase. DNA replication in the mammalian one‐cell embryo is unique because it occurs in two separate pronuclei within the same cytoplasm. Here, we first tested how long after activation the oocyte can continue to support licensing. Because sperm chromatin is licensed de novo after fertilization, the timing of sperm injection can be used to assay licensing initiation. To experimentally skip some of the steps of sperm decondensation, we injected mouse sperm halos into parthenogenetically activated oocytes. We found that de novo licensing was possible for up to 3 h after oocyte activation, and as early as 4 h before DNA replication began. We also found that the oocyte cytoplasm could support asynchronous initiation of DNA synthesis in the two pronuclei with a difference of at least 2 h. We next tested how tightly the oocyte cytoplasm regulates DNA synthesis by transferring paternal pronuclei from zygotes generated by intracytoplasmic sperm injection (ICSI) into parthenogenetically activated oocytes. The pronuclei from G1 phase zygotes transferred into S phase ooplasm were not induced to prematurely replicate and paternal pronuclei from S phase zygotes transferred into G phase ooplasm continued replication. These data suggest that the one‐cell embryo can be an important model for understanding the regulation of DNA synthesis. J. Cell. Biochem. 107: 214–223, 2009. © 2009 Wiley‐Liss, Inc.     

Effects of low temperatures on in vitro produced bovine zygotes

The objective of this research was to investigate the effects of cooling on the development of bovine zygotes. One-cell bovine embryos were maintained at 39°C (control), 20°C, 10°C, or 0°C for 5, 10, or 20 minutes, then cultured in vitro for 7 days and the proportion of embryos developing to the compact morula or blastocyst stage compared between different treatments. Duration of exposure time had no effect on development. Development rates to the compact morula or blastocyst stage were 3.9%, 11.4%, 17.4%, and 24.4% for zygotes maintained at 0°C, 10°C, 20°C, and 39°C, respectively, with differences in embryo yield between every treatment (P < 0.05). In a second experiment, bovine pronuclei (karyoplasts) and cytoplasts were cooled at 0°C or maintained at 39°C for 5 minutes. Pronuclear transplantation was then utilized to create 4 types of reconstructed embryos, those with: 1) non-cooled pronuclei and non-cooled cytoplasm, 2) non-cooled pronuclei and cooled cytoplasm, 3) cooled pronuclei and non-cooled cytoplasm, and 4) cooled pronuclei and cooled cytoplasm. The proportion of embryos developing to the blastocyst stage was highest when non-cooled pronuclei were transferred into non-cooled cytoplasm (18.9%), and similar to that of non-cooled, non-manipulated control zygotes (13.2%, P > 0.05). No embryos developed to the blastocyst stage when pronuclei (cooled or non-cooled) were transferred into cooled cytoplasm. However, zygotes with cooled pronuclei transferred into non-cooled cytoplasm yielded 4.5% blastocysts (P < 0.05). More embryos developed to the compact morula or blastocyst stage when non-cooled vs. cooled cytoplasm was utilized, regardless of whether the pronuclei were cooled (P < 0.05). These data demonstrate that pronuclei are more tolerant to low temperature exposure than is ovum cytoplasm. Mol. Reprod. Dev. 47:435–439, 1997. © 1997 Wiley-Liss, Inc.     

Effect of different denaturing agents on the detectability of specific DNA sequences of various base compositions by in situ hybridisation

In situ hybridisation of certain AT rich and GC rich satellite DNA complementary RNAs (cRNAs) to their homologous chromosomes at their respective optimal rate temperatures (T_OPTS) after denaturation with various reagents (0.2 N HCl, 0.07 N NaOH, 90% formamide and heat) led to the following conclusions. — Heat denaturation of chromosomal DNA in 0.1×SSC at 100° C gives significantly higher grain counts regardless of DNA base composition, HCl denaturation discriminates markedly against GC rich DNA. Chromosome morphology is best preserved after HCl and heat denaturation.     

Pronuclear visibility, development and transgene expression in IVM/IVF-derived porcine embryos

A total of 1550 zygotes was used to assess the timing of pronuclear visibility, embryo development following DNA microinjection, and transgene expression in IVM/IVF-generated porcine embryos. After centrifugation, pronuclei could be seen in 61.6% of zygotes. In 55.3% of these only 1 pronucleus was visible. Pronuclear visibility was highest at 20 h post-insemination. Zygotes were microinjected with 1 of 2 LacZ gene constructs driven by either the SV40 early promoter (pSVON) or the human cytoplasmic beta actin promoter (pbActinLacZ). Development and transgene expression were assessed after either 48 h or 7 d in culture. After 48 h, significantly more zygotes with a single visible pronucleus developed to the 8-cell stage than zygotes in which no pronucleus had been seen (43.0 vs 24.8%), while those with 2 pronuclei were intermediate (31.4%). After 7 d, no difference in development to the morula stage was observed between noninjected control embryos (25.5%) and embryos with 1 (21.0%) or 2 pronuclei (22.5%); however, the proportion of embryos reaching the morula stage in the nonpronuclear group was significantly reduced (9.1%). After 48 h in culture, transgene expression was significantly higher in embryos with 2 pronuclei at the time of injection than in those with 1 (36.4 vs 17.9%). After 7 d in culture, 41.5% of morulae derived from zygotes with 2 pronuclei and 29.97% of thsoe derived from zygotes with 1 pronucleus showed signs of transgene expression. At this stage, significantly more morulae expressed the pbActinLacZ than the pSVON transgene (43.8 vs 25.8%). More than 80% of putative transgenic morulae or blastocysts showed evidence of mosaicism. These results demonstrate that IVM/IVF porcine embryos are able to develop in culture and express a microinjected transgene.     

Pronuclear synthesis of DNA in fertilized and parthenogenetically activated mouse eggs : A cytophotometric study

Mouse one-cell embryos were taken 1, 1.5, 2, 3, 4, 6, 8, 10, 13 and 18 h after insemination. One-cell parthenogenones were induced by treatment of mouse eggs obtained 20 h after HCG injection with hyaluronidase and cultured for 0.5, 1, 3, 4.5, 6, 8, 10, 12 and 24 h. Some parthenogenones were pulse-labelled with tritiated thymidine, cut and autoradiographed. Both the embryos and parthenogenones were Feulgen-stained, and integrated relative optical absorption of either pronuclei or nuclei of polar bodies was measured with a cytophotometer. In some fertilized eggs and parthenogenones the DNA synthesis sets in 4–6 h after either insemination or parthenogenetic stimulus. Between the 8th and 13th hour after insemination the fraction of DNA synthesizing embryonic pronuclei remained at the level 30–40%. Most parthenogenones duplicated their DNA content between the 8th and 12th hour after hyaluronidase treatment. The DNA synthesis time in pronuclei of embryos was determined to be 3.5–4.0 h and that of pronuclei of parthenogenones approx. 4 h. The minimal time of the G2 phase was estimated to be 3–5 h. The first labelled pronuclei of parthenogenones were detected 6 h after stimulus. Male pronuclei started and ended DNA synthesis earlier than female pronuclei. Differences in the DNA content between pronuclei of the parthenogenones (when there are two in one parthenogenone) were observed beginning with the 10th h after hyaluronidase treatment.The DNA content in the nuclei of the second polar bodies (PB) of embryos increased slowly between the 8th and 22nd hour after insemination, up to an overall value of 1.4 C. That of the nuclei of the polar bodies of parthenogenones accompanied the synthesis of DNA in pronuclei to the 10th hour after hyaluronidase treatment, up to an overall value of 1.4 C.     

Sperm aster in rabbit zygotes: its structure and function

Microscope observations of rabbit zygotes demonstrate that a sperm aster forms in association with the male pronucleus approximately 1 h postinsemination and consists of two regions. One, the centrosphere, contains a dense aggregation of cisternae of smooth endoplasmic reticulum and microtubules. The second consists of fascicles of microtubules which emanate from the centrosphere. Fertilized rabbit eggs were cultured in medium containing colcemid in order to determine its effects on various events of fertilization, such as movements of the male and female pronuclei and DNA synthesis. No evidence was obtained to indicate that a sperm aster is formed in colcemid-treated zygotes. In addition, migration and close apposition of the pronuclei do not take place. Breakdown of the pronuclear envelopes and condensation of the maternally and paternally derived chromosomes occur even though the pronuclei fail to migrate centrad. Autoradiographic analysis of the synthesis of DNA by both pronuclei demonstrates that their migration into close apposition to one another is not required for the incorporation of tritiated thymidine.     

The mechanism of C-banding: depurination and β-elimination

C-banding of chromosomes involves the differential solubilization of fragmented DNA from euchromatin by three sequential treatments: 1. Acid, 2. Mild base, 3. Hot salt. The data indicate solubilization is effected by 1) depurination, 2) DNA denaturation, 3) chain breakage of the depurinated sites respectively in the three treatments. Conditions were found wherein each treatment in proper sequence was necessary for C-banding and the appropriate chemical reactions were measured in these treatment conditions. The acid treatment (0.2 N HCl) depurinates chromosomal DNA at the rate of 0.26×10^–6 purines/dalton min to an alkaline molecular weight of 10⁵ daltons but does not break the depurinated sites. Bleomycin can substitute for acid as a base removing agent. Sodium borohydride, by reducing the depurinated sugar's aldehyde thereby preventing chain breakage by the -elimination reaction, reversibly inhibits DNA-extraction. Chain breakage at the DNA's apurinic sites occurs not in the 2 min mild alkali treatment where the half-life for breakage is 26 min but in the 18 h hot salt treatment where the half-life for chain breakage is 1–2 h. Most of the DNA extraction occurs in the hot salt as 10⁵ dalton fragments as measured in formamide gradients. Bleomycin is introduced as a substitute for HCl; it removes nitrogenous bases from DNA in situ while better preserving the morphology of the final C-banded chromosomes.     

Relación entre el rendimiento en la prueba de estación unipodal y la velocidad del centro de presión en adultos mayores

Introduction

Frequent falls are one of the most important health problems in the elderly population. The unipedal stance test (UPST), asses postural stability and is used in fall risk measures. Despite this, there is little information about its relationship with posturographic parameters (PP) that characterizes postural stability. Center of pressure velocity (CoPV) is one of the best PP that describes postural stability. The aim of this study was to analyze the relation between UST score and CoPV in elderly population.

Materials and methods

A sample of 38 healthy elderly subjects where divided in two groups according to their UPST score, low performance (LP, n = 11) and high performance (HP, n = 27). The correlation between UPST score and COP mean velocity (CoPmV), recorded from a posturographic test, was analyzed between both groups.

Results

An inverse correlation between UPST score and CoPmV was found in both groups. However, this was higher in the LP group (r = −0.69, P = .02) compared to the HP (r = −0.39, P = .04).

Conclusions

Based on the results of this investigation, it may be concluded that the achievement on UPST has an inverse relationship with CoPmV, especially in subjects with low performance in the UPST.     

Paternal pronuclear DNA degradation is functionally linked to DNA replication in mouse oocytes

We recently demonstrated that mouse spermatozoa contain a mechanism to degrade their DNA into loop-sized fragments of about 50 kb, mediated by topoisomerase IIB, termed sperm chromatin fragmentation (SCF). SCF is often followed by a more complete digestion of the DNA with a sperm nuclease. When SCF-induced spermatozoa are injected into oocytes, the paternal pronuclei degrade their DNA after the initiation of DNA synthesis, but the maternal pronuclei are unaffected and replicate normally. Here, we tested whether the nuclease activity changes in spermatozoa of different maturation stages, and whether there is a functional relationship between the initiation of DNA synthesis and paternal DNA degradation induced by SCF in the zygote. We found that spermatozoa from the vas deferens have a much higher level of SCF activity than those from the cauda epididymis, suggesting that spermatozoa may acquire this activity in the vas deferens. Furthermore, paternal pronuclei formed in zygotes from injecting oocytes with SCF-induced vas deferens spermatozoa degraded their DNA, but this degradation could be inhibited by the DNA synthesis inhibitor, aphidicolin. Upon release from a 4 h aphidicolin-induced arrest, DNA synthesis was initiated in maternal pronuclei, while the paternal pronuclei degraded their DNA. Longer aphidicolin arrest resulted in the paternal pronuclei replicating their DNA, suggesting that delaying the initiation of DNA synthesis allowed the paternal pronuclei to overcome the SCF-induced DNA degradation pathway. These results suggest that the paternal DNA degradation, in oocytes fertilized with SCF-induced spermatozoa, is coupled to the initiation of DNA synthesis in newly fertilized zygotes.     

Cryopreservation of human ovarian tissue: Comparison of novel direct cover vitrification and conventional vitrification

Objective

To compare the effect of novel direct cover vitrification (DCV) and conventional vitrification (CV) for human ovarian tissue.

Study design

Ovarian biopsy specimens obtained from 12 patients were randomly allocated into five groups: Fresh, DCV1, DCV2, DCV3 and CV. Three concentrations of cryoprotectants were used in DCV group. The equilibration solution of DCV1, DCV2, DCV3 was 5% EG + 5% DMSO + DPBS, 7.5% EG + 7.5%DMSO + DPBS, 10% EG + 10% DMSO + DPBS, respectively. And the vitrification solution of DCV1, DCV2, DCV3 was 10% EG + 10% DMSO + DPBS, 15%EG+15% DMSO + DPBS, 20% EG + 20% DMSO + DPBS, respectively. The equilibration solution and the vitrification solution of CV group was same as DCV3 group. The effects of cryopreserved procedure on human ovarian tissue were studied by histology, TUNEL assay, transmission electron microscopy (TEM) and heterotopic allograft.

Results

The percentages of morphologically normal and viable follicles of DCV2 were significantly higher than DCV1, DCV3 and CV groups (P < 0.05). TUNEL assay demonstrated that the incidence of apoptotic cell in vitrification ovarian tissue was significantly higher than fresh tissue (P < 0.05), but there were no difference in various groups with cryopreservation. TEM showed that less damage was detected in DCV2 group. After grafting, the follicle density of DCV2 was greater than DCV1, DCV3 and CV groups (P < 0.05).

Conclusions

The novel cover vitrification with optimal concentration of cryoprotectants is superior to conventional vitrification. It is suitable for human ovarian tissue fragments with high efficiency and facility.     

Clinical significance of plasma CD146 and P-selectin in patients with type 2 diabetic nephropathy

Objective

To investigate the levels of plasma CD146 and P-selectin in patients with type 2 diabetic nephropathy at different stages.

Methods

A total of 80 patients with type 2 diabetes mellitus were enrolled in the present study. According to 24 h urinary albumin excretion ratio and renal function, they were further divided into group of diabetes without microalbuminuria (DN0, n = 20), microalbuminuria group (DN1, n = 20), macroalbuminuria group (DN2, n = 20) and renal insufficiency group (DN3, n = 20). Another 20 healthy subjects were enrolled as control group (non-DM). Plasma CD146 and P-selectin were measured by ELISA.

Results

Plasma CD146 and P-selectin were significantly increased in patients with type 2 diabetes with microalbuminuria (DN1) compared with health control (CD146: 415.3 ± 29.0 vs. 243.5 ± 14.7 ng/ml, P < 0.05; P-selectin: 66.8 ± 3.4 vs. 45.3 ± 2.7 ng/ml, P < 0.001). With the development of diabetic nephropathy, both plasma CD146 and P-selectin level progressively rise, with the highest levels in patients with significant renal insufficiency (DN3: 515.9 ± 36.9 and 81.5 ± 5.1 ng/ml respectively, P < 0.001). Moreover, the increase in CD146 is positively co-related to the rise of P-selectin in patients with type 2 diabetes.

Conclusion

Expression of CD146 and P-selectin in patients with type 2 diabetes is elevated, and they are positively correlated with severity of diabetic nephropathy.     

Establishing a model for assessing DNA damage in murine brain cells as a molecular marker of chemotherapy-associated cognitive impairment

Aims

Chemotherapy-associated cognitive impairment often follows cancer chemotherapy. We explored chemotherapy-induced DNA damage in the brain cells of mice treated with 5-fluorouracil (5FU), an antineoplastic agent, to correlate the extent of DNA damage to behavioral functioning in an autoshaping-operant mouse model of chemotherapy-induced learning and memory deficits (Foley et al., 2008).

Main methods

Male, Swiss-Webster mice were injected once with saline or 75 mg/kg 5FU at 0, 12, and 24 h and weighed every 24 h. Twenty-four h after the last injection, the mice were tested in a two-day acquisition and the retention of a novel response task for food reinforcement. Murine brain cells were analyzed for the presence of single- and double-strand DNA breaks by the single cell gel electrophoresis assay (the Comet assay).

Key findings

We detected significant differences (p < 0.0001) for all DNA damage characteristics (DNA “comet” tail shape, migration pattern, tail moment and olive moments) between control mice cohort and 5FU-treated mice cohort: tail length – 119 vs. 153; tail moment – 101 vs. 136; olive moment – 60 vs. 82, correspondingly. We found a positive correlation between increased response rates (r = 0.52, p < 0.05) and increased rate of errors (r = 0.51, p < 0.05), and DNA damage on day 1. For all 15 mice (saline-treated and 5FU-treated mice), we found negative correlations between DNA damage and weight (r = − 0.75, p < 0.02).

Significance

Our results indicate that chemotherapy-induced DNA damage changes the physiological status of the brain cells and may provide insights to the mechanisms for cognitive impairment after cancer chemotherapy.     

Nucleic acid binding properties of allicin: Spectroscopic analysis and estimation of anti-tumor potential

Background

Allicin has received much attention due to its anti-proliferative activity and not-well elucidated underlying mechanism of action. This work focuses towards determining the cellular toxicity of allicin and understanding its interaction with nucleic acid at molecular level.

Methods

MTT assay was used to assess the cell viability of A549 lung cancer cells against allicin. Fourier transform infrared (FTIR) and UV-visible spectroscopy were used to study the binding parameters of nucleic acid-allicin interaction.

Results

Allicin inhibits the proliferation of cancer cells in a concentration dependent manner. FTIR spectroscopy exhibited that allicin binds preferentially to minor groove of DNA via thymine base. Analysis of tRNA allicin complex has also revealed that allicin binds primarily through nitrogenous bases. Some amount of external binding with phosphate backbone was also observed for both DNA and RNA. UV visible spectra of both DNA allicin and RNA allicin complexes showed hypochromic shift with an estimated binding constant of 1.2 × 10⁴ M^- 1 for DNA and 1.06 × 10³ M^− 1for RNA binding. No major transition from the B-form of DNA and A-form of RNA is observed after their interaction with allicin.

Conclusions

The results demonstrated that allicin treatment inhibited the proliferation of A549 cells in a dose-dependent manner. Biophysical outcomes are suggestive of base binding and helix contraction of nucleic acid structure upon binding with allicin.

General significance

The results describe cytotoxic potential of allicin and its binding properties with cellular nucleic acid, which could be helpful in deciphering the complete mechanism of cell death exerted by allicin.     

Rhodamine 123 as a cytoplasmic stain for mammalian zygotes

A mitochondrion-specific fluorescent dye, rhodamine 123, stains the cytoplasm of ova from mice, rabbits, sheep, cattle and pigs. Mouse zygotes stained with rhodamine 123 are often observed with areas of negative stain where the pronuclei are located. However, such areas of negative staining are not observed in zygotes from rabbits, sheep or cattle. In vitro viability of mouse zygotes stained with rhodamine 123 is high if observed with fluorescent microscopy for 5 min or less. Observation for more than 5 min results in a significant effect on embryo developmental potential in vitro.     

WT1 CpG islands methylation in human lung cancer: A pilot study

Background

CpG island hypermethylation of gene promoters and regulatory regions is a well-known mechanism of epigenetic silencing of tumor suppressors and is directly linked to carcinogenesis. Wilm’s tumor gene (WT1) is a tumor suppressor protein involved in the regulation of human cell growth and differentiation and a modulator of oncogenic K Ras signaling in lung cancer. Changes in the pattern of methylation of the WT1 gene have not yet been studied in detail in human lung cancer. In this study we compared the methylation profile of WT1 gene in samples of neoplastic and non-neoplastic lung tissue taken from the same patients.

Methods

DNA was extracted from neoplastic and normal lung tissue obtained from 16 patients with non small cell lung cancer (NSCLC). The methylation status of 29 CpG islands in the 5′ region of WT1 was determined by pyrosequencing. Statistical analysis was carried out by T test and Mann Whitney test.

Results

The mean percentage of methylation, considering all CpG islands of WT1 in the neoplastic tissues of the 16 NSCLC patients, was 16.2 ± 3.4, whereas in the normal lung tissue from the same patients it was 5.6 ± 1.7 (p < 0.001). Adenocarcinomas presented higher methylation levels than squamous cell carcinomas (p < 0,001).

Conclusions

Methylation of WT1 gene is significantly increased in NSCLC. Both histotype and exposure to cigarette smoke heavily influence the pattern of CpG islands which undergo hypermethylation.     

Dual effects of estrogen on vascular smooth muscle cells: receptor-mediated proliferative vs. metabolite-induced pro-senescent actions

Objective

To investigate the mechanism for the dual effects of estrogen on vascular smooth muscle cells (VSMCs).

Methods

Cultured rat VSMCs were exposed to gradient concentrations (10⁻⁹-10⁻⁵ M) of 17β-estradiol (E₂) with or without pre-administration of a broad-spectrum CYP450 inhibitor 1-aminobenzotriazole (ABT) (10 × 10⁻⁶ M) and an estrogen receptor (ER) antagonist ICI 182,780 (10⁻⁶ M), respectively. The growth, cell cycle progression, premature senescence, estrogen metabolites, reactive oxygen species (ROS) and DNA damage of the cells were analyzed with cell counting assay, flow cytometry, Western blot, liquid chromatography-mass spectrometry and comet assay, respectively.

Results

E₂ in its physiological levels from 10⁻⁹ M to 10⁻⁸ M had a concentration-dependent promoting effect on growth of VSMCs. However, when the concentration increased over 10⁻⁸ M, the growth-promoting effect gradually reversed to a growth-inhibiting action. When the activity of CYP450s was blocked by ABT, the growth-promoting effect of E₂ increased and did not reverse at high concentrations. Whereas when the ERs were blocked by ICI 182,780, E₂ showed a pure growth-inhibiting effect. The E₂ metabolites 2- and 4-hydroxyestradiols accumulated with the increase of E₂ over 10⁻⁸ M, which accompanied by increased ROS, DNA damage and cellular senescence. All of these changes were eliminated by block of CYP450s, indicating that the VSMC growth inhibition by E₂ is due to an increased production of ROS from accumulated E₂ metabolites which induces DNA damage, leading to VSMC premature senescence.

Conclusion

The complex effect of E₂ is due to two opposite actions: one ER-mediated and proliferative, and the other estrogen metabolite-induced and pro-senescent.     

DNA–DNA cross-linking mediated by bifunctional [SalenAl] complex

The aluminum (III) complex [SalenAl^III]Cl (1), (Salen = (R,R)-N,N′-bis[5-methyl-3-(4-methylpiperazinyl)-salicylidene]-1,2-diphenylethanediamine) has been synthesized and characterized by elemental analysis, FT-IR, ¹H and ¹³C NMR measurements. The interaction of complex (1) with calf thymus (CT) DNA has been studied extensively by experimental techniques. Thermal denaturation study of DNA with (1) revealed the ΔT_m of 5 ± 0.2 °C. Viscosity and steady-state fluorescence measurements showed that the complex cross-links DNA and the metal center is interacting with DNA during the cross-linking. Also, the phenyl ring in the complex may intercalate between the base pairs of the DNA during the cross-linking. Competitive binding study shows that the enhanced emission intensity of ethidium bromide (EB) in the presence of DNA was quenched by the addition of the metal complex indicating that it displaces EB from its binding site in DNA and the apparent binding constant has been estimated to be (2.8 ± 0.2) × 10⁵ M^− 1. Further, time-resolved fluorescence experiments confirm the binding of (1) with DNA and its cross-linking nature. Aluminum ions shown to precipitate DNA completely above the pH 6.0, but no such precipitation was observed with complex (1). The DNA–DNA cross-linking mediated by (1) is further confirmed by gel electrophoresis.     

人二倍体化合子的DNA 甲基化变化模式

目的:探讨人类三原核合子及二倍体化合子中DNA甲基化模式的变化情况。方法:我们采用显微操作技术去除三原核合子中两个雄原核中的一个,观察恢复了二倍体状态的胚胎的发育情况,并检测了三原核和二倍体化的合子及早期胚胎中DNA甲基化模式的动态变化。结果:二倍体化的合子的囊胚形成率与三原核合子的囊胚形成率无显著性差异;在人三原核合子中两个雄原核发生主动地DNA去甲基化而雌原核在受精后的20h后仍保持甲基化。三原核与二倍体化合子中,DNA甲基化模式没有差别。结论:去除一个雄原核不会影响合子和胚胎的DNA甲基化模式。去除多余雄原核并不能改善胚胎的发育。