Maternal obesity enhances oocyte chromosome abnormalities associated with aging

Obesity is increasing globally, and maternal obesity has adverse effects on pregnancy outcomes and the long-term health of offspring. Maternal obesity has been associated with pregnancy failure through impaired oogenesis and embryogenesis. However, whether maternal obesity causes chromosome abnormalities in oocytes has remained unclear. Here we show that chromosome abnormalities are increased in the oocytes of obese mice fed a high-fat diet and identify weakened sister-chromatid cohesion as the likely cause. Numbers of full-grown follicles retrieved from obese mice were the same as controls and the efficiency of in vitro oocyte maturation remained high. However, chromosome abnormalities presenting in both metaphase-I and metaphase-II were elevated, most prominently the premature separation of sister chromatids. Weakened sister-chromatid cohesion in oocytes from obese mice was manifested both as the terminalization of chiasmata in metaphase-I and as increased separation of sister centromeres in metaphase II. Obesity-associated abnormalities were elevated in older mice implying that maternal obesity exacerbates the deterioration of cohesion seen with advancing age.

     

Cytogenetic studies in 30 patients with Burkitt's lymphoma or L3 acute lymphoblastic leukemia with special reference to additional chromosome abnormalities

We performed cytogenetic analysis in 23 consecutive patients with Burkitt's ALL and 7 patients with Burkitt's lymphoma. Only one patient had a normal karyotype. Twenty-seven patients had a (8;14) translocation and 2 a (2;8) translocation. No (8;22) translocation was seen. In 12 patients (41%), the t(8;14) was the only chromosome rearrangement whereas in the 18 remaining cases (59%), the t(8;14) or t(2;8) was associated with other numerical or structural abnormalities. Chromosomes 1, 7 and 6 were rearranged in 10, 8, and 5 patients, respectively, usually in translocations, duplications, deletions (chromosome 6), or isochromosome of the long arm (chromosomes 1 or 7). The incidence of these additional rearrangements is discussed with regard to previously published reports and the chromosome localization of oncogenes.     

Maternal and paternal origin of extra chromosome in trisomy 21

Summary Fluorescence markers were studied in 40 patients with Down's syndrome and their parents. In 11 cases maternal and in 5 cases paternal non-disjunction could be shown. The disjunctional event occurred in the first meiotic division in 5 maternal and in 2 paternal cases. A second division failure was found in 4 maternal and 2 paternal cases. In 3 cases the failure could either be of first or second meiotic division origin.     

Maternal age-specific rates of 47,+21 and other cytogenetic abnormalities diagnosed in the first trimester of pregnancy in chorionic villus biopsy specimens: comparison with rates expected from observations at amniocentesis.

Results are presented on chromosome analyses made on 4,481 embryos or fetuses studied through chorionic villus sampling (CVS) in whom there was no known bias to presence of a chromosome abnormality except advanced parental age. We excluded from the analysis most cases in which mosaicism was diagnosed or in which there were cytogenetic discrepancies among samples obtained from the conceptus. There remain 48 cases of 47,+21, 39 cases of other nonlethal abnormalities, and 12 lethal abnormalities diagnosed in 4,481 studied. A regression analysis (restricted to the 3,848 cases diagnosed in the 35-49-year maternal age interval) was done on rates of (1) 47,+21, (2) other abnormalities excluding lethals or (3) including them, and (4) all abnormalities excluding lethals or (5) including them. The model used was y = exp(bx + c), where y is the rate of abnormality, x is maternal age at time of CVS (the modal age of the procedure was 10 gestational weeks from the last menstrual period), and b and c were, respectively, (1) 0.288 and -15.527; (2) 0.272 and -15.173; (3) 0.253 and -14.141; (4) 0.282 and -14.753; and (5) 0.271 and -14.195. We also derived rates of abnormalities at the time of CVS that would be predicted from rates (of nonmosaics) at amniocentesis after adjustment for the difference in gestational age between the usual times that these two procedures are done. The difference between the numbers of abnormalities predicted on the basis of these adjusted amniocentesis rates and the numbers observed at CVS provides an estimate of the spontaneous loss of embryos and fetuses between the usual gestational ages of these procedures. In these data, for 47,+21 the estimated proportion lost is 21% but the result is not significant at the .05 level. For other abnormalities excluding lethals the estimated spontaneous loss is 29% (P approximately .05); including lethals it is 44%. For all abnormalities, excluding lethals, pooled together, the estimate is 24%; including lethals it is 33%. The last three values are all significant at the .05 level or lower. The observed rates of abnormalities at CVS would be approximately 10% to 15% higher if one pooled diagnosed mosaics with the nonmosaics, but the estimated proportion of spontaneous fetal loss would be lower.     

Relationship of age-specific incidence rates to immunological aspects of Hashimoto's thyroiditis

Studies of the age-specific incidence rates of the appearance of Hashimoto''s thyroiditis indicate that this disorder appears at random in a genetically preselected population. Following an initial lag in the first few years of life, the disease appears at a constant rate thereafter in this population.The age-specific incidence rates were similar to those previously reported for Graves'' disease. Moreover, there is considerable evidence implicating cell-mediated immunity in both diseases, with the likelihood of cooperating humoral antibodies as well. It may be hypothesized that the two diseases are primarily due to genetic defects in immunological surveillance, which result in an inability to destroy or control a specific forbidden clone of thymicderived lymphocytes which may arise by normal random mutation. The T-lymphocyte interacts with its complementary antigen (on a hitherto normal thyroid cell), setting up a cell-mediated immune response; in addition it may cooperate with bursa-equivalent lymphocytes, which then produce humoral antibodies. It is possible that both cell-mediated immunity and humoral antibodies are necessary for the full expression of the disease.     

Cryopreservation of bacteria with special reference to anaerobes

The author is with the DSM-Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH, Mascheroder Weg 1b, D-3300 Braunschweig, Germany.     

Restriction endonuclease and molecular analyses of three rat genomes with special reference to chromosome rearrangement and speciation problems

When differences are found between related species of organisms, it is often assumed that the differences themselves are causal factors either in speciation itself or in processes related to speciation. Two recent proposals on the functions of satellite DNA (Hatch et al., 1976 and Fry and Salser, 1977) are that (a) large amounts of satellite DNA are important in facilitating chromosome rearrangements and hence cytogenetic evolution, and (b) satellite DNA differences between homologous chromosomes lead to pairing difficulties and are important in generating infertility barriers and hence speciation. If these proposals were to have some generality, one could expect organisms with very low amounts of highly repeated DNA to exhibit few chromosome rearrangements and to be evolutionarily conservative in a cyto-genetic sense. — We have chosen two very closely related species of rat which are phenotypically almost indistinguishable and which have undergone massive genome reorganization. They differ by 11 major centric rearrangements (2n=32, 2n=50). We have characterised their genomes by restriction endonuclease digestions, thermal denaturations, analytical ultracentrifugations and reassociation techniques, and have found that they have virtually no highly repeated DNA. Thus the 11 major chromosomal rearrangements have been fixed in present day genomes with hardly any highly repeated DNA, centric or otherwise. — It appears therefore that a large amount of highly repeated DNA is not obligatory for the formation and fixation of chromosome rearrangements. In addition, the existing literature reveals that one can find almost any situation at all, from species groups with high amounts of satellite DNA and no gross chromosomal rearrangements, to ones such as those described here, with tiny amounts of highly repeated DNA and massive chromosomal reorganisation. Since direct experimental data indicates that satellite DNA differences per se between homologous chromosomes do not cause infertility, speculations concerning modes of speciation based on satellite DNA differences between otherwise homologous chromosomes would appear to be ill founded.     

A cytogenetic study of mentally retarded school children in taiwan with special reference to the fragile X chromosome

Summary A cytogenetic study was made on 341 mentally retarded children in the Provincial Nantou Rehabilitation Center for the Mentally Retarded and the St. Raphael Opportunity Center in Tainan. Of the 89 mentally retarded children with chromosomal abnormalities, 63 had Down syndrome, 13 had the fragile X [fra(X)] syndrome, and the remaining had other aneuploid constitutions. Family studies were possible for 2 of the 13 fra(X) probands. The results of this study illustrate the contribution of chromosomal abnormalities to the pathogenesis of mental retardation in children.     

New chromosome numbers inTaraxacum with reference to SAT-chromosomes

Chromosome numbers of eight agamospermousTaraxacum microspecies are reported for the first time:T hypanicum Tzvel. [sect.Dioszegia (Heuff.) Heuff.,T. neosivaschicum Tzvel. [sect.Palustria (Lindb, fil.)Dahlst.],T. pseudohoppeanum Kirschner et?těpánek (sect.Erythrocarpa Dahlst.),T. schroeterianum H.-M. (sect.Rhodocarpa Van Soest),T. marmottae C.E. Sonck,T. lambinonii Van Soest [sect.Erythrosperma (Lindb. fil.)Dahlst.],T. zermattense Dahlst, andT. magnoobliquum Van Soest (taxa of uncertain classification). All these polyploid microspecies have satellite chromosomes in their karyotypes. Advanced karyological characters were found in sect.Dioszegia, hitherto regarded as a primitive section ofTaraxacum: triploidy in agamospermousT. hypanicum Tzvel. and satellite chromosomes as in this taxon, as in two diploid sexualsT. serotinum (W. et K.)Poiret andT. haussknechtii Uechtr. The results presented are compared to the literature data.     

Maternal uniparental disomy for human chromosome 14, due to loss of a chromosome 14 from somatic cells with t(13;14) trisomy 14.

Uniparental disomy (UPD) for particular chromosomes is increasingly recognized as a cause of abnormal phenotypes in humans. We recently studied a 9-year-old female with a de novo Robertsonian translocation t(13;14), short stature, mild developmental delay, scoliosis, hyperextensible joints, hydrocephalus that resolved spontaneously during the first year of life, and hypercholesterolemia. To determine the parental origin of chromosomes 13 and 14 in the proband, we have studied the genotypes of DNA polymorphic markers due to (GT)n repeats in the patient and her parents' blood DNA. The genotypes of markers D14S43, D14S45, D14S49, and D14S54 indicated maternal UPD for chromosome 14. There was isodisomy for proximal markers and heterodisomy for distal markers, suggesting a recombination event on maternal chromosomes 14. In addition, DNA analysis first revealed--and subsequent cytogenetic analysis confirmed--that there was mosaic trisomy 14 in 5% of blood lymphocytes. There was normal (biparental) inheritance for chromosome 13, and there was no evidence of false paternity in genotypes of 11 highly polymorphic markers on human chromosome 21. Two cases of maternal UPD for chromosome 14 have previously been reported, one with a familial rob t(13;14) and the other with a t(14;14). There are several similarities among these patients, and a "maternal UPD chromosome 14 syndrome" is emerging; however, the contribution of the mosaic trisomy 14 to the phenotype cannot be evaluated. The study of de novo Robertsonian translocations of the type reported here should reveal both the extent of UPD in these events and the contribution of particular chromosomes involved in certain phenotypes.