Persistence of Breakage in Specific Chromosome Bands 6 Years after Acute Exposure to Oil.

BACKGROUND: The identification of breakpoints involved in chromosomal damage could help to detect genes involved in genetic disorders, most notably cancer. Until now, only one published study, carried out by our group, has identified chromosome bands affected by exposure to oil from an oil spill. In that study, which was performed two years after the initial oil exposure in individuals who had participated in clean-up tasks following the wreck of the Prestige, three chromosomal bands (2q21, 3q27, 5q31) were found to be especially prone to breakage. A recent follow-up study, performed on the same individuals, revealed that the genotoxic damage had persisted six years after oil exposure. OBJECTIVES: To determine whether there exist chromosome bands which are especially prone to breakages and to know if there is some correlation with those detected in the previous study. In addition, to investigate if the DNA repair problems detected previously persist in the present study. DESIGN: Follow-up study performed six years after the Prestige oil spill. SETTING: Fishermen cooperatives in coastal villages. PARTICIPANTS: Fishermen highly exposed to oil spill who participated in previous genotoxic study six years after the oil. MEASUREMENTS: Chromosome damage in peripheral lymphocytes. For accurate identification of the breakpoints involved in chromosome damage of circulating lymphocytes, a sequential stain/G-banding technique was employed. To determine the most break-prone chromosome bands, two statistical methods, the Fragile Site Multinomial and the chi-square tests (where the bands were corrected by their length) were used. To compare the chromosome lesions, structural chromosome alterations and gaps/breaks between two groups of individuals we used the GEE test which takes into account a possible within-individual correlation. Dysfunctions in DNA repair mechanisms, expressed as chromosome damage, were assessed in cultures with aphidicolin by the GEE test. RESULTS: Cytogenetic analyses were performed in 47 exposed individuals. A total of 251 breakpoints in exposed individuals) were identified, showing a non-uniform distribution in the human ideogram. Ten chromosome bands were found to be especially prone to breakage through both statistical methods. By comparing these bands with those observed in certain exposed individuals who had already participated the previous study, it was found in both studies that four bands (2q21, 3q27, 5q31 and 17p11.2) are particularly sensitive to breakage. Additionally, the dysfunction in DNA repair mechanisms was not significantly higher in oil-exposed individuals than in non-exposed individuals. LIMITATIONS: The sample size and the possibility of some kind of selection bias should be considered. Genotoxic results cannot be extrapolated to the high number of individuals who participated occasionally in clean-up tasks. CONCLUSION: Our findings show the existence of at least four target bands (2q21, 3q27, 5q31 and 17p11.2) with a greater propensity to break over time after an acute exposure to oil. The breaks in these bands, which are commonly involved in hematological cancer, may explain the increase of cancer risk reported in chronically benzene-exposed individuals. In addition, a more efficiency of the DNA repair mechanisms has been detected six years after in fishermen who were highly exposed to the oil spill. To date, only this study, performed by our group on the previous and present genotoxic effects, has analyzed the chromosomal regions affected by breakage after an acute oil exposure.

Paternal Age and Numerical Chromosome Abnormalities in Human Spermatozoa.

This study explores the relationship between numerical chromosome abnormalities in sperm and age in healthy men. We performed FISH in the spermatozoa of 10 donors from the general population: 5 men younger than 40 years of age and 5 fertile men older than 60 years of age. For each chromosome, 1,000 sperm nuclei were analyzed, with a total of 15,000 sperm nuclei for each donor. We used a single sperm sample per donor, thus minimizing intra-donor variability and optimizing consistent analysis. FISH with a TelVysion assay, which provides data on aneuploidy of 19 chromosomes, was used in order to gain a more genome-wide perspective of the level of aneuploidy. Aneuploidy and diploidy rates observed in the younger and older groups were compared. There were no significant differences in the incidence of autosomal disomy, sex chromosome disomy, total chromosome disomy, diploidy, nor total numerical abnormalities between younger and older men. This work confirms that aneuploidy of the sex chromosomes is more common than that of autosomes and that this does not change with age. Our results suggest that some probe combinations have a tendency to indicate higher levels of diploidy, thus potentially affecting FISH results and highlighting the limitations of FISH.

Follow-Up Genotoxic Study: Chromosome Damage Two and Six Years after Exposure to the Prestige Oil Spill.

BACKGROUND: The north-west coast of Spain was heavily contaminated by the Prestige oil spill, in 2002. Individuals who participated in the clean-up tasks showed increased chromosome damage two years after exposure. Long-term clinical implications of chromosome damage are still unknown. OBJECTIVE: To realize a follow-up genotoxic study to detect whether the chromosome damage persisted six years after exposure to the oil. DESIGN: Follow-up study. SETTING: Fishermen cooperatives in coastal villages. PARTICIPANTS: Local fishermen who were highly exposed (n = 52) and non-exposed (n = 23) to oil seven years after the spill. MEASUREMENTS: Chromosome damage in circulating lymphocytes. RESULTS: Chromosome damage in exposed individuals persists six years after oil exposure, with a similar incidence than those previously detected four years before. A surprising increase in chromosome damage in non-exposed individual was found six years after Prestige spill vs. those detected two years after the exposure. LIMITATIONS: The sample size and the possibility of some kind of selection bias should be considered. Genotoxic results cannot be extrapolated to the approximately 300,000 individuals who participated occasionally in clean-up tasks. CONCLUSION: The persistence of chromosome damage detected in exposed individuals six years after oil exposure seems to indicate that the cells of the bone marrow are affected. A surprising increase in chromosome damage in non-exposed individuals detected in the follow-up study suggests an indirect exposition of these individuals to some oil compounds or to other toxic agents during the last four years. More long-term studies are needed to confirm the presence of chromosome damage in exposed and non-exposed fishermen due to the association between increased chromosomal damage and increased risk of cancer. Understanding and detecting chromosome damage is important for detecting cancer in its early stages. The present work is the first follow-up cytogenetic study carried out in lymphocytes to determine genotoxic damage evolution between two and six years after oil exposure in same individuals.

Meiotic chromosome abnormalities in fertile men: are they increasing?

OBJECTIVE: To determine the basal frequencies of meiotic chromosome abnormalities in fertile men. DESIGN: Descriptive design. SETTING: Research university laboratory and clinical andrology service. PATIENT(S): Seventeen fertile donors undergoing vasectomy. INTERVENTION(S): Analysis of testicular biopsies. MAIN OUTCOME MEASURE(S): Meiotic chromosome abnormalities in metaphase I spermatocytes. RESULT(S): A total of 1,407 spermatocytes I was analyzed. The main meiotic abnormality was absence or low chiasma number of individual bivalents (23.4%), followed by structural (3.3%) and numerical (0.7%) abnormalities. Sex chromosomes and G-group chromosomes were the most commonly found as univalents at metaphase I. Statistically significant heterogeneity was found for meiotic abnormalities among fertile men, caused by interindividual variation in the level of dissociated sex chromosomes (ranging from 3.2% to 43.7%). The mean total percentage of meiotic abnormalities in spermatocytes I from fertile men was 27.4%, 1.7 times higher than those described a few decades ago in fertile and even in infertile men. CONCLUSION(S): Fertile men are a heterogeneous group for meiotic errors, with individuals showing percentages of meiotic abnormalities as high as 50%. From these findings, caution is recommended when using meiotic studies to diagnose and provide genetic counselling to patients consulting for infertility.

Advanced age increases chromosome structural abnormalities in human spermatozoa.

This study explores the relationship between sperm structural aberrations and age by using a multicolor multichromosome FISH strategy that provides information on the incidence of duplications and deletions on all the autosomes. ToTelvysion kit (Abbott Molecular, Abbott Park, IL, USA) with telomere-specific probes was used. We investigated the sperm of 10 male donors aged from 23 to 74 years old. The donors were divided into two groups according to age, a cohort of five individuals younger than 40 and a cohort of five individuals older than 60 years. The goal of this study was to determine (1) the relationship between donor age and frequency and type of chromosome structural abnormalities and (2) chromosomes more frequently involved in sperm structural aberrations. We found that the older patients had a higher rate of structural abnormalities (6.6%) compared with the younger cohort (4.9%). Although both duplications and deletions were seen more frequently in older men, our findings demonstrate the presence of an excess of duplications versus deletions in both groups at a ratio of 2 to 1. We demonstrate that the distribution of duplications and deletions was not linear along the chromosomes, although a trend toward a higher rate of abnormalities in larger chromosomes was observed. This work is the first study addressing the frequencies of sperm chromosome structural aberrations of all autosomes in a single assay thus making a contribution to the clarification of the amount and origin of damage present in human spermatozoa and in relation to age.

Baseline expression profile of meiotic-specific genes in healthy fertile males.

OBJECTIVE: To establish the quantitative gene-expression profile of nine meiotic genes involved in synapsis and chromosome cohesion (SYCP1, SPO11, MSH4, MSH5, MLH1, MLH3, PMS2, STAG3, and REC8) in healthy fertile males. DESIGN: Prospective study. SETTING: Research university laboratory and clinical andrology service. PATIENT(S): Twenty healthy males of proven fertility underwent a vasectomy procedure and four infertile patients with Sertoli cell-only syndrome (SCOS). INTERVENTION(S): Analysis of testicular biopsies from 20 fertile males and four SCOS patients. MAIN OUTCOME MEASURE(S): Quantitative gene expression by real-time polymerase chain reaction in testicular biopsies. RESULT(S): Four of the nine genes under study (PMS2, MLH3, MLH1, and REC8) are expressed in both fertile males and SCOS patients. The remaining five genes are only (SYCP1, SPO11, MSH4, and MSH5) or mainly (STAG3) expressed in fertile males, and thus they could be considered meiotic-specific genes. All genes analyzed are expressed at similar levels among fertile individuals CONCLUSION(S): Gene expression levels reported in this study could be considered the gene expression profile of fertile population, and could be used to compare with the expression pattern of infertile patients. Expression of meiotic-specific genes could be used as a clinical diagnosis tool to ascertain the origin of some cases of idiopathic male infertility and sterility.

Premature separation of sister chromatids in human male meiosis.

BACKGROUND: Meiotic disorders result in meiotic arrest and aneuploid spermatozoa, leading to male infertility, spontaneous abortions or affected offspring. We carried out meiotic studies in an infertile male to detect meiotic nondisjunction mechanisms leading to aneuploidy in spermatogenesis. METHODS AND RESULTS: Meiotic studies were performed in testicular and semen samples from a 38-year-old teratozoospermic male with normal somatic karyotype and a history of spontaneous abortions. We analysed 262 spermatocytes (69 pachytene cells, 106 metaphases I (MI), 87 metaphases II (MII)) by multiplex-fluorescence in situ hybridization and 20,193 spermatozoa by multicolour-FISH with probes for chromosomes 9, 10, 15, 21, X and Y. The results indicate high increase of 21 and XY disomies, as well as diploidy in both spermatocytes at MII and spermatozoa (P < 0.0001). Achiasmate segregation of sex chromosomes was found in 3.4% of spermatocytes II, preceded by early-dissociated XY bivalent at MI (41.5% of cells). We also detected premature separation of sister chromatids (PSSC) in 4.6% of MII. CONCLUSIONS: This individual presents high levels of numerical abnormalities in germ cells, caused by two different nondisjunction mechanisms during meiosis I. To our knowledge, this work represents the first time that PSSC has been demonstrated in human male germ cells.

Sperm aneuploidy in fathers of Klinefelter's syndrome offspring assessed by multicolour fluorescent in situ hybridization using probes for chromosomes 6, 13, 18, 21, 22, X and Y.

BACKGROUND: It is still unclear if a recurrence risk would exist in fathers of an aneuploid offspring of paternal origin. We have studied disomy frequencies in spermatozoa from fathers having Klinefelter syndrome (KS) offspring or miscarriages. The effect of paternal age on sperm disomy percentages is also analysed. METHODS: Parental origin of 17 KS patients was carried out by amplification of X chromosome polymorphisms. Spermatozoa from their fathers were studied by multicolour fluorescent in situ hybridisation (FISH) using probes for chromosomes 6, 13, 18, 21, 22, X and Y. RESULTS: In 53% of KS cases studied the additional X chromosome was of paternal origin. The paternally transmitted KS group of fathers showed significantly higher frequencies for XY disomy sperm as compared to fathers of the maternal-origin group. A correlation between paternal age and XY disomy frequencies was only found in the paternally derived cases. In contrast, similar disomy frequencies for all autosomes analysed were found in both groups of fathers. CONCLUSIONS: XY disomy frequencies increase with advancing paternal age only in fathers with paternally inherited KS offspring.

Mitotic and meiotic behaviour of a naturally transmitted ring Y chromosome: reproductive risk evaluation.

BACKGROUND: The mitotic and meiotic behaviour of a transmitted ring Y [r(Y)] chromosome from a father to his Klinefelter syndrome (KS) son, and the mechanism of ring formation are analysed herein. To our knowledge, this is the first reported case of natural transmission of an r(Y). METHODS AND RESULTS: Amplification of X chromosome polymorphisms by PCR showed that the KS was of paternal origin. G-banding and fluorescence in situ hybridization (FISH) studies revealed a similar percentage of mosaicism in father and son by mitotic loss of r(Y). SRY gene and Y marker amplification by PCR, FISH with subtelomeric probes for Xp/Yp and Xq/Yq, and comparative genomic hybridization (CGH) analyses indicated the intactness of the Y chromosome from SRY to subtelomere Yq. FISH analysis of sperm from the father showed significantly higher frequencies (P<0.005) for diploidy and for 6, 13, 18, 21, 22, XX, XY disomies than those observed in control donors. CONCLUSIONS: An r(Y) with low material loss can be naturally transmitted, showing similar mitotic behaviour in the offspring. The presence of an r(Y) chromosome in germinal cells increased the risk of fathering offspring with numerical abnormalities, even for chromosomes not involved in the arrangement.

Linear increase of structural and numerical chromosome 9 abnormalities in human sperm regarding age.

A simultaneous four-colour fluorescence in situ hybridisation (FISH) assay was used in human sperm in order to search for a paternal age effect on: (1) the incidence of structural aberrations and aneuploidy of chromosome 9, and (2) the sex ratio in both normal spermatozoa and spermatozoa with a numerical or structural abnormality of chromosome 9. The sperm samples were collected from 18 healthy donors, aged 24-74 years (mean 48.8 years old). Specific probes for the subtelomeric 9q region (9qter), centromeric regions of chromosomes 6 and 9, and the satellite III region of the Y chromosome were used for FISH analysis. A total of 190,117 sperms were evaluated with a minimum of 10,000 sperm scored from each donor. A significant linear increase in the overall level of duplications and deletions for the centromeric and subtelomeric regions of chromosome 9 (P

Aneuploid spermatozoa in infertile men: teratozoospermia.

We and others have demonstrated that infertile men who are candidates for intracytoplasmic sperm injection (ICSI) have an increased frequency of chromosomal abnormalities in their sperm. Reports based on prenatal diagnosis of ICSI pregnancies have confirmed the increased frequency of chromosomal abnormalities in offspring. Most studies to date have lumped various types of infertility together. However, it is quite likely that some subsets of infertility have an increased risk of sperm chromosomal abnormalities whereas others do not. We have studied nine men with severe teratozoospermia (WHO, 1992 criteria, 0-13% morphologically normal forms) by multicolour fluorescence in situ hybridisation (FISH) analysis to determine if they have an increased frequency of disomy for chromosomes 13, 21, XX, YY, and XY, as well as diploidy. All of the men also had aesthenozoospermia (< 50% forward progression) but none of the men had oligozoospermia (<20 x 10(6) sperm/ml). The patients ranged in age from 20 to 49 years (mean 33.2 years) in comparison to 18 normal control donors who were 23 to 58 years (mean 35.6 years). The control donors had normal semen parameters and no history of infertility. A total of 180,566 sperm were scored in the teratozoospermic men with a minimum of 10,000 sperm analyzed/donor/chromosome probe. There was a significant increase in the frequency of disomy in teratozoospermic men compared to controls for chromosomes 13 (.23 vs.13%), XX (.13 vs.05%), and XY (.50 vs.30%) (P <.0001, 2-tailed Z statistic). This study indicates that men with teratozoospermia and aesthenozoospermia but with normal concentrations of sperm have a significantly increased frequency of sperm chromosomal abnormalities.

The crhomosomal constitution of spermatozoa from eight normal, healthy brazilian men

Apresenta-se a análise citogenética de cromossomos de espermatozóides de oito homens brasileiros normais, utilizando-se a técnica de fertilizaçäo heteróloga homem-hamster. Os resultados obtidos säo semelhantes aos descritos em outros laboratórios que dominam esta técnica. Obteve-se freqüência de 5,4 por cento (variaçäo de 1.0-13.5 por cento) de aberraçöes cromossômicas, sendo 1.4 por cento de aberraçöes estruturais (variaçäo de 0.0-3.3 por cento), freqüência de hiper-haploidia de 2.0 por cento (variaçäo entre 0.0-5.1 por cento) e freqüência de hipo-haploidia de 5.6 por cento (variaçäo de 0.0-11.3 por cento). A diferença entre as proporçöes de espermatozóides X (54.1 por cento) e Y (45.9 por cento) foi significativa, ao nível de 5 por cento.