3 resultados para MICRONUCLEI

em DigitalCommons@The Texas Medical Center


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Microcell-mediated chromosome transfer is a method of gene transfer which allows for the introduction of single or small groups of intact chromosomes into recipient host cells. Microcell transfer was first performed by Fournier and Ruddle using rodent microcells and various recipient cells. Expansion of this technology to include the transfer of normal human genetic material has been hindered because large micronucleate populations from diploid human cells have been unobtainable. This dissertation research describes, however, the methods for production of micronuclei in 40-60% of normal human fibroblasts. Once micronucleate cells were obtained, they were enucleated by centrifugation in the presence of Cytochalasin B; the microcells were then purified and fused to recipient mouse (LMTK('-)) cells using a new fusion protocol employing polyethylene glycol containing phytohemagglutinin. Microcell clones were isolated from the HAT selection system. Alkaline Giemsa staining performed on these hybrids indicated the presence of a single human chromosome in each of seven microcell clones from three separate experiments. That chromosome was further identified by G banding analysis to be human chromosome #17, which codes for thymidine kinase. The time course for production of these hybrids from fusion to karyotypic analysis was 6 weeks. The viability of the transferred human genetic material was assessed by electrophoretic isozyme analysis.^ Subsequent experiments were performed in an attempt to optimize the transfer frequency for the thymidine kinase gene using this system. Results indicated that the frequency could be increased from < 1 x 10('-6) in initial experiments to 2 x 10('-5) in the latest experiment. Analyses were also conducted to determine the number of chromosomes per isolated microcell as well as to investigate the stability of the transferred human chromosome in the mouse genome. ^

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This study has evaluated the utility of measuring effects of low level occupational exposure of nursing personnel to antineoplastic agents. The effect measured in this study is chromosomal damage in peripheral lymphocytes (chromosomal breakage and micronuclei frequency).^ Using nursing personnel in three exposure classifications (low, moderate and high) and breast cancer patients before and after treatment with antineoplastic agents, a weak but statistically significant association was found between exposure and chromosomal damage. Of special interest was the finding that consistent glove usage was negatively associated with increased chromosomal damage.^ The study also demonstrated a statistically significant association between the two measures of chromosomal damage: chromosomal breakage and micronuclei frequency. This suggests that the micronucleus method is a useful test for studying cytogenetic effects in lymphocytes. ^

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Benzene was studied in its target organ of effect, the bone marrow, with the micronucleus test and metaphase chromosomal analysis. Groups of 5 or 10, male and female CD-1 mice were treated with one or two p.o. or i.p. doses of benzene (440 mg/kg) or toluene (430, 860 or 1720 mg/kg) or both, and sacrificed 30 or 54h after the first dose. Benzene-treated animals were pretreated with phenobarbital (PB), 3-methylcholanthrene (3MC), (beta)-naphthoflavone ((beta)NF), SKF-525A, or Aroclor 1254. Toluene showed no clastogenic activity and reduced the clastogenic effect of co-administered benzene. None of the pretreatments protected against benzene clastogenicity. 3MC and (beta)NF greatly promoted benzene myeloclastogenicity. Dose response curves for benzene myeloclastogenicity were much steeper with 3MC induction than without. Micronuclei (MN) were 4-6 times higher by p.o. than i.p. benzene administration. This was not due to bacterial flora since no difference was found between germ-free and conventional males gavaged with benzene. A sensitive high-pressure liquid chromatographic method was developed and used to explore the relation between metabolic profiles of benzene in urine and MN after various pretreatments. Phenol (PH), trans-trans-muconic acid (MA) and hydroquinone (HQ) in the 48h male mouse urine accounted, respectively, for 12.8-22.8, 1.8-4.7 and 1.5-3.7% of the single oral dose of benzene (880, 440 and 220 mg/kg). Catechol (CT) was seen in trace amounts. MA was identified by ultraviolet and infrared spectroscopy and elemental analysis. Urinary metabolites--especially MA, HQ, and phenol glucuronide--correlated well with MN and were dependent on both the dose and the metabolism of benzene. Benzene metabolism was most inducible by cytochrome P-448 enzyme inducers, by p.o. > i.p., in males > females, and inhibited by toluene. Ph, CT or HQ administered p.o., 250, 150 and 250 mg/kg, respectively, or at 150 mg/kg x 2 after 3MC pretreatment, failed to reproduce the potent myeloclastogenicity of benzene. In fact, only HQ was mildly clastogenic. ^