Benzene, a common industrial chemical and a component of gasoline, is radiomimetic and exposure may lead progressively to aplastic anaemia, leukaemia, and multiple myeloma.
Chromosome analysis from peripheral blood lymphocytes of workers after an acute exposure to benzene.
ABsTRAcr A spillage of about 1200 gallons of benzene occurred during the loading of a ship, and 10 workers on a single shift were exposed to benzene. Shortly afterwards, an assay of the urine of these individuals showed that substantial amounts of phenol were being excreted. About three months after the incident samples of venous blood were taken from 10 individuals exposed to benzene and 11 men on a comparable shift who acted as controls. The lymphocytes were stimulated to divide in short term cultures. For each subject, 200 cells at metaphase were examined for chromosome damage using 48 h cultures, and sister chromatid exchanges (SCE) were analysed from about 30 cells in their second division, using 72 h cultures. The most frequent types of aberrations in all the individuals were chromatid gaps, with occasional breaks of chromatids and chromosomes. There were few exchanges within or between the arms of chromatids or chromosomes. More cells in the control than in the exposed group showed damage, an effect that was especially noticeable for chromatid gaps. All values, however, were considered to be within a normal range. There were slightly more SCE in some of the exposed individuals than in the controls and there was a trend towards a positive association between the frequency of SCE recorded for each individual and the maximum value for the excretion of phenol in the urine on the day after the incident. There is no evidence to indicate that benzene induced any type of lasting chromosome damage in the lymphocytes of the 10 exposed workers when cells were examined about three months after the incident.People exposed to benzene may be at an increased risk of developing leukaemia, pancytopaenia, and chromosomal aberrations compared with people not so exposed.' Men employed in factories where benzene had been used as a solvent had significantly more chromosome aberrations in their peripheral blood lymphocytes than those working in areas where toluene had been substituted for benzene.23 In these studies exposure to benzene took place over a long period, and it is impossible accurately to estimate details of exposure in retrospect, but exposure must be assumed to have been high.At Stanlow, Cheshire, on 8 January 1981 some 1200 gallons of benzene were accidentally released into the dock and on to the surrounding berth. TheReceived 22 December 1982 Accepted 15 March 1983 amount of phenol in the urine of some of the men had been estimated the day before, or on the day of the spillage. Shortly after the incident, assays of the urine of 10 workers on a single shift who were present on the dockside showed that substantial amounts of phenol were being excreted. These results confirmed that most of these men had been exposed briefly to a high concentration of benzene.4About three months after the incident, samples of peripheral blood were collected from these men and from 11 individuals from another shift at Stanlow and forwarded to the Shell Toxicology Laboratory. The lymphocytes were stimulated to divide in tissue cul...
Effect of iron salts, haemosiderins, and chelating agents on the lymphocytes of a thalassaemia patient without chelation therapy as measured in the comet assay
Impairment of haemoglobin synthesis occurs in the genetic diseases known as thalassaemia. The consequent chronic anaemia leads to increased dietary iron absorption which results in iron overload. Treatment through regular blood transfusions increases oxygen capacity, but also adds iron from haemoglobin. An essential treatment, in parallel with transfusions, is the use of chelating agents to remove the excess iron. Thalassaemia patients are particularly at risk of free radical damage. Human lymphocytes from normal individuals can be investigated in vitro as a model system in the presence of free radicals in the Comet assay. This assay measures DNA damage, particularly DNA strand breakage. We examined cells from an Australian thalassaemic patient (sickle/beta thal double heterozygote-sickle phenotype) who had not yet received chelation therapy to determine if the cells were more sensitive to simulated iron overload and to haemosiderins. Lymphocytes from the patient were received as frozen samples after 28 h on dry ice and then placed in liquid nitrogen. Normal lymphocytes frozen under the same conditions and normal nonfrozen lymphocytes were compared. The lymphocytes from a normal female did not respond in vitro to ferric chloride (FeCl(3)) or haemosiderin but did to ferrous chloride (FeCl(2)) and ferrous sulphate (FeSO(4)). Deferoxamine appeared to reduce the response to FeCl(2) and FeSO(4) but deferiprone did not. When the lymphocytes from the nonchelated patient were treated with FeSO(4) and hydrogen peroxide, deferoxamine and deferiprone both reduced the response. Over the same dose range of iron salt (FeSO(4)), the lymphocytes from the thalassaemic patient were more sensitive, with much higher background levels of damage and induced damage. When deferiprone and deferoxamine were compared over a nontoxic range, deferiprone appeared to produce a greater reduction of damage in lymphocytes of the thalassaemia patient. Ferritin iron appears to be more available than haemosiderin iron in reactions leading to DNA damage. Haemosiderin containing higher amounts of the goethite-like (alpha-FeOOH) iron oxide phase leads to lower levels of DNA damage.
Effects of iron salts and haemosiderin from a thalassaemia patient on oxygen radical damage as measured in the comet assay
Thalassaemia is a group of genetic diseases where haemoglobin synthesis is impaired. This chronic anaemia leads to increased dietary iron absorption, which develops into iron overload pathology. Treatment through regular transfusions increases oxygen capacity but also provides iron through the red cells' haemoglobin. An essential treatment, in parallel with transfusions, is the use of chelating agents to remove the excess iron deposited in tissues. These deposits are found in the liver, spleen, heart, and pancreas and are associated with cardiac failure and diabetes. The deposits in these tissues of patients have been isolated as haemosiderin. Thalassaemia patients are particularly at risk of free radical induced damage. Thus, the present study has investigated, as a model system, human cells in vitro in the Comet assay in the presence of free radicals. This assay measures DNA damage, particularly DNA strand breakage. The effects of iron overload on cells oxidatively stressed with hydrogen peroxide (H(2)O(2)) have been determined as well as the effect of the chelating agent, deferoxamine. Iron overload was simulated with ferric (FeCl(3)) and ferrous chloride (FeCl(2)), ferrous sulphate (FeSO(4)) and haemosiderins. Both human lymphocytes from a male and a female donor and human adenocarcinoma colonic cells showed an increase in DNA damage in the Comet assay after treatment with H(2)O(2). Ferric chloride produced an increase in DNA damage in human colonic cells, but little or no damage in human lymphocytes. Ferrous chloride also produced weak DNA damage in human lymphocytes, but ferrous sulphate produced a dose-related response. Deferoxamine produced no DNA damage. When H(2)O(2) was combined with FeCl(3), FeCl(2), or FeSO(4), the DNA damage produced was as least as great as or slightly greater than with H(2)O(2) alone. When deferoxamine was combined with H(2)O(2) and FeSO(4) there was a consistent decrease in response. There was little or no decrease in response when deferoxamine was combined with H(2)O(2) and FeCl(3) or FeCl(2), but at high (100-300microm) doses there were changes in the appearance of cellular DNA from Comet tails to dense centres surrounded by a diffuse area. This was probably as a consequence of chelation processes. Haemosiderin produced no damage. The three fractions of haemosiderin examined were of three different densities and from a Thai patient where the oxyhydroxide phase is the ferrihydrite. The colour change was similar to that for FeCl(3), but the level of the ferric ion in the haemosiderin was possibly too low in the sample to produce a response. The next stage is to examine peripheral lymphocytes from thalassaemic patients, with and without chelation therapy, whose cells may be more sensitive to simulated iron overload and to lower levels of haemosiderin. Teratogenesis Carcinog. Mutagen. 20:11-26, 2000.
Genotoxic effects in peripheral blood and urine of workers exposed to low level benzene.
Blood samples were obtained from a population of refinery workers representing different age groups. Sixty six men with low average exposure to benzene and 33 male controls were investigated. An examination of cell cycle kinetics and sister chromatid exchange was carried out on control and exposed individuals. No significant differences were found between groups of individuals varying in their drinking and smoking habits or their exposure to diagnostic x rays. Individuals with the lowest and highest phenol values were examined for urine mutagenicity, with urinary phenol used here as an indicator of benzene exposure. There was no difference in the number of revertant colonies in strains TA98 and 100 between the high and low urinary phenol groups. There were also no differences in any of the biochemical measures or haematological parameters investigated in all the individuals except that higher values for mean corpuscular volume were found in exposed than in control individuals. These values, however, were within the normal clinical range.
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