Extremely low priming doses of X radiation induce an adaptive response for chromosomal inversions in pKZ1 mouse prostate

An adaptive response is a response to a stress such as radiation exposure that results in a lower than expected biological response. We describe an adaptive response to X radiation in mouse prostate using the pKZ1 chromosomal inversion assay. pKZ1 mice were treated with a priming dose of 0.001, 0.01, 1 or 10 mGy followed 4 h later by a 1000-mGy challenge dose. All priming doses caused a similar reduction in inversions compared to the 1000-mGy group, supporting the hypothesis that the adaptive response is the result of an on/off mechanism. The adaptive response was induced by a priming dose of 0.001 mGy, which is three orders of magnitude lower than has been reported previously. The adaptive responses completely protected against the inversions that would have been induced by a single 1000-mGy dose as well as against a proportion of spontaneous background inversions. The distribution of inversions across prostate gland cross sections after priming plus challenge irradiation suggested that adaptive responses were predominantly due to reduced low-dose radiation-induced inversions rather than to reduced high-dose radiation-induced inversions. This study used radiation doses relevant to human exposure.     

Dose-dependent increase or decrease of somatic intrachromosomal recombination produced by etoposide

Chromosomal inversions and deletions can occur via somatic intrachromosomal recombination (SICR), a mechanism known to be important in mutagenesis and carcinogenesis. Here, we demonstrate a dose-dependent increase or decrease in SICR inversion frequency both in vivo and in vitro after treatment with etoposide, using the pKZ1 mouse mutagenesis model. pKZ1 mice received a single intraperitoneal injection of etoposide dose ranging from 0.0005 to 50mg/kg. Animals were sacrificed 3 days after treatment and the spleen was analysed for SICR. A significant 1.4-3.1-fold induction of SICR inversion events was detected in pKZ1 mice after treatment with etoposide doses ranging from 0.05 to 50 mg/kg etoposide. However, inversion frequencies after treatment with 0.0005 and 0.005 mg/kg etoposide decreased significantly to 0.67 and 0.43 of the levels observed in control animals, respectively. A pKZ1 mouse hybridoma cell line was exposed to etoposide (1-1000 nM) and a similar pattern of SICR response to that detected in vivo was observed. A significant 2.3-4.6-fold induction of SICR inversions was observed in pKZ1 cells treated with 100 and 1000 nM etoposide. Inversion frequencies after treatment with 1 and 10nM etoposide decreased significantly to 0.31 and 0.5 of the level observed in control cell lines. Our in vitro studies complement our in vivo studies and exclude a kinetic phenomenon as the responsible mechanism of reduction in SICR in response to low dose etoposide. Determination of the exact mechanism and significance of recombination suppression at low doses of etoposide treatment requires further investigation.     

Cancer-associated genes can affect somatic intrachromosomal recombination early in carcinogenesis

The pKZ1 recombination mutagenesis model has provided a sensitive assay where we study somatic intrachromosomal recombination (SICR) as a mutation end-point. SICR is associated with non-homologous end-joining repair of double-strand breaks and can result in chromosomal inversions and deletions, both of which are common chromosomal aberrations identified in cancers. It has been difficult to study the effect of cancer-associated genes on chromosomal changes prior to tumour formation in vivo because of a lack of appropriate test systems. We hypothesised that cancer-associated genes play a role in formation of chromosomal aberrations and that the pKZ1 model would provide a system in which such a role could be studied in the initial steps of carcinogenesis. Transgenic tumour model mice were bred to pKZ1 mice to produce double transgenic animals. SICR inversion events were scored in mouse tissues at an early time, prior to evident tumour formation, and compared with endogenous pKZ1 SICR levels. Over-expression of the c-myc proto-oncogene resulted in a significant 2.1-fold increase in SICR in spleen. Loss of Msh2 and expression of the SV40 T antigen resulted in a significantly reduced SICR frequency (0.3 of the endogenous frequency in pKZ1 mice) in spleen and prostate respectively. Therefore SICR was affected in the case of all three cancer-associated genes studied. We hypothesise that the increase and decrease in SICR in the presence of cancer-associated genes results from incorrect repairing of double-strand breaks. The data presented here suggest that the pKZ1 model may provide a powerful tool for studying the effect of cancer-associated genes on chromosomal changes in the early stages of carcinogenesis.     

The linear no-threshold model does not hold for low-dose ionizing radiation

Almost all of the data on the biological effects of ionizing radiation come from studies of high doses. However, the human population is unlikely to be exposed to such doses. Regulatory limits for radiation exposure are based on the linear no-threshold model, which predicts that the relationship between biological effects and radiation dose is linear, and that any dose has some effect. Chromosomal changes are an important effect of ionizing radiation because of their role in carcinogenesis. Here we exposed pKZ1 mice to single whole-body X-radiation doses as low as 1 microGy. We observed three different phases of response: (1) an induction of inversions at ultra-low doses, (2) a reduction below endogenous inversion frequency at low doses, and (3) an induction of inversions again at higher doses. These results do not fit a linear no-threshold model, and they may have implications for the way in which regulatory standards are presently set and for understanding radiation effects.     

If bystander effects for apoptosis occur in spleen after low-dose irradiation in vivo then the magnitude of the effect falls within the range of normal homeostatic apoptosis

To test whether bystander effects occur in vivo after low doses of radiation relevant to occupational and population exposure, we exposed mice to whole-body X-radiation doses (0.01 and 1 mGy) where only a proportion of cells would receive an electron track. We used a precise method to analyze the apoptosis frequency in situ in spleen tissue sections at 7 h and 1, 3 and 7 days after irradiation to determine whether an increase in apoptosis above that predicted by direct effects was observed. No significant changes in the apoptosis frequency at any time after low-dose irradiation were detected. Apoptosis was induced above endogenous levels by five- to sevenfold 7 h after 1000 mGy. Using these data, the expected increases in apoptosis 7 h after a dose of 1 mGy or 0.01 mGy were calculated based on the assumption that induction of apoptosis would decrease linearly with dose. The magnitude of potential bystander effects for apoptosis that could be detected above homeostatic levels after these low doses of radiation was determined. A substantial bystander effect for apoptosis (>50-fold above direct effects) would be required before such proposed effects would be identified using 10 animals/treatment group as studied here. These data demonstrate that amplification of apoptosis even due to a substantial bystander effect would fall within the homeostatic range.     

Adaptive response for chromosomal inversions in pKZ1 mouse prostate induced by low doses of X radiation delivered after a high dose

Adaptive responses are induced by stress such as X radiation and result in a lower than expected biological response. Two-dose adaptive response experiments typically involve a low priming dose followed by a subsequent high radiation dose. Here, we used a sensitive in vivo chromosomal inversion assay to demonstrate for the first time an adaptive response when a low dose (0.01-1 mGy) was given several hours after a high 1000-mGy radiation dose. The adaptive responses in this study were of similar magnitude to the two-dose adaptive responses previously observed in this test system when the low dose was given first. A chromosomal inversion adaptive response was also induced by two 1000-mGy doses and when a 1-mGy dose was preceded or followed by a dose of 0.01 mGy, but not by two 4000-mGy doses. This is also the first example of an adaptive response when both doses are low. Our data agree with previous reports of an on-off mechanism of adaptive response. The induction of an adaptive response by a low dose after a high damaging dose provides evidence that the mechanisms underlying radiation adaptive responses are not due to prevention of damage induced by the high dose but to modulation of the cellular response to this damage.     

Development of a pharmacodynamic model of murine malaria and antimalarial treatment with dihydroartemisinin

Antimalarial treatment strategies based on in vitro studies are limited by the paucity of pharmacodynamic information for dosage regimen design. We postulated that a murine model could be used for pre-clinical stages of drug development, especially in dose–response studies and evaluation of combination therapies. Swiss mice infected with Plasmodium berghei parasites (2–5% starting parasitaemia) were given dihydroartemisinin (0–100 mg/kg single dose). Parasite density was regularly determined from thin blood films. A parasite population growth model comprising parasite multiplication, decline in erythrocyte count with increasing parasitaemia and parasite clearance after drug administration was developed. This model described the rise in parasitaemia following inoculation, the nadir following dihydroartemisinin administration, and the subsequent resurgence of parasitaemia (analogous to ‘recrudescence’). At doses of 10, 30 and 100 mg/kg dihydroartemisinin, there was a graded response with 2.5 ± 1, 5 ± 1 and 12 ± 4-fold decreases in parasitaemia, respectively. The nadir parasitaemia (at 21–27 h) was also dose-dependent. This study demonstrates that a murine malaria pharmacodynamic model is a valuable tool for understanding how single drugs and their dosing schedules alter the time course and level of infection.     

Biological significance of DNA adducts investigated by simultaneous analysis of different endpoints of genotoxicity in L5178Y mouse lymphoma cells treated with methyl methanesulfonate

The biological significance of DNA adducts is under continuous discussion because analytical developments allow determination of adducts at ever lower levels. Central questions refer to the biological consequences of adducts and to the relationship between background DNA damage and exposure-related increments. These questions were addressed by measuring the two DNA adducts 7-methylguanine (7-mG) and O⁶-methyl-2′-deoxyguanosine (O⁶-mdGuo) by LC–MS/MS in parallel to two biological endpoints of genotoxicity (comet assay and in vitro micronucleus test), using large batches of L5178Y mouse lymphoma cells treated with methyl methanesulfonate (MMS). The background level of 7-mG was 1440 adducts per 10⁹ nucleotides while O⁶-mdGuo was almost 50-fold lower (32 adducts per 10⁹ nucleotides). In the comet assay and the micronucleus test, background was in the usual range seen with smaller batches of cells (2.1% Tail DNA and 12 micronuclei-containing cells per 1000 binucleated cells, respectively). For the comparison of the four endpoints for dose-related increments above background in the low-response region we assumed linearity at low dose and used the concept of the “doubling dose”, i.e., we estimated the concentration of MMS necessary to double the background measures. Doubling doses of 4.3 and 8.7 μM MMS were deduced for 7-mG and O⁶-mdGuo, respectively. For doubling the background measures in the comet assay and the micronucleus test, 5 to 15-fold higher concentrations of MMS were necessary (45 and 66 μM, respectively). This means that the contribution of an increase in DNA methylation to biological endpoints of genotoxicity is overestimated. For xenobiotics that generate adducts without background, the difference is even more pronounced because the dose–response curve starts at zero and the limit of detection of an increase is not affected by background variation. Consequences for the question of thresholds in dose–response relationships and for the setting of tolerable exposure levels are discussed.     

Two types of X-ray-induced radioresistance in mice: Presence of 4 dose ranges with distinct biological effects

Preirradiation with 0.05 Gy of X rays 2 months before a second exposure to a mid-lethal dose significantly enhanced the survival rate in both female and male ICR strain mice. The radioresistance was observed between 2–2.5 months after exposure to 0.05 Gy. It did not appear within 1.5 months, and disappeared after 3 months. This radioresistance was induced only by whole-body preirradiation (not by partial irradiation of the head or the trunk). On the other hand, preirradiation with 0.30 Gy as well as 0.50 Gy resulted in radioresistance 2 weeks later, but not 2 months later. The radioresistance was induced by whole-body preirradiation or partial preirradiation of the trunk. No radioresistance was evident after exposure of intermediate preirradiation doses of 0.15 and 0.20 Gy administered before 2 months and 2–5 weeks, respectively. The present and previous results show that the biological effects of ionizing radiation may be distinguished with the following four radiation dose ranges; (1) below 0.025 Gy: no radioresistance after 2 months; (2) 0.05–0.10 Gy: significant radioresistance after 2–2.5 months; (3) 0.20 Gy: no radioresistance after 2–5 weeks; and (4) 0.30–0.50 Gy or more: significant radioresistance after 2 weeks. These results conflict with previous findings of the biological effects of ionizing radiation in which the radiation hazard increases in relation to increasing accumulated doses. Some stimulation, in addition to adaptation, by low dose irradiation may have occurred.     

Does ionizing radiation induce an adaptive response in mouse L5178Y lymphoma cells?]

Growth kinetics of LY-S and LY-R cells (radiosensitive and radioresistant sublines of murine lymphoma L5178Y) has been investigated after beta-irradiation at cumulative doses of 1.5 to 20 cGy and dose rates of 0.8-10 mGy/h. It has been found that after 48 h culture in a complete medium the number of cells differed 5 times, whereas after X- and gamma-irradiation, Do values differed 1.62 times. Using the growth rate as the end point in evaluating the combined effect of beta-irradiation (10 cGy) and subsequent X-irradiation with lethal doses, we observed an increased relative cell number, in comparison to that after X-irradiation alone (an "adaptive response", using this criterion), in LY-S cells irradiated with a dose of 2 Gy. In contrast, when reproductive death of LY-S and LY-R cells the end-point analyzed, the lethal effect of consecutive beta- and X-irradiation in LY-S cells was higher than that expected for X-radiation alone (the synergistic effect).     

Blood Glutathione as an Index of Radiation-Induced Oxidative Stress in Mice and Humans

The effect of x-rays on GSH and GSSG levels in blood was studied in mice and humans. An HPLC method that we recently developed was applied to accurately determine GSSG levels in blood. The glutathione redox status (GSH/GSSG) decreases after irradiation. This effect is mainly due to an increase in GSSG levels. Mice received single fraction radiotherapy, at total doses of 1.0 to 7.0 Gy. Changes in GSSG in mouse blood can be detected 10 min after irradiation and last for 6 h within a range of 2.0–7.0 Gy. The highest levels of GSSG (20.1 ± 2.9 ), a 4.7-fold increase as compared with controls) in mouse blood are found 2 h after radiation exposure (5 Gy). Breast and lung cancer patients received fractionated radiotherapy at total doses of 50.0 or 60.0 Gy, respectively. GSH/GSSG also decreases in humans in a dose–response fashion. Two reasons may explain the radiation-induced increase in blood GSSG: (a) the reaction of GSH with radiation-induced free radicals resulting in the formation of thyl radicals that react to produce GSSG; and (b) an increase of GSSG release from different organs (e.g., the liver) into the blood. Our results indicate that the glutathione redox ratio in blood can be used as an index of radiation-induced oxidative stress. © 1997 Elsevier Science Inc.     

Chromosomal aberrations in environmentally exposed population in relation to metabolic and DNA repair genes polymorphisms

The capital city of Prague is one of the most polluted localities of the Czech Republic. Therefore, the effect of exposure to carcinogenic polycyclic aromatic hydrocarbons (c-PAHs) adsorbed onto respirable air particles (<2.5 μm) on chromosomal aberrations was studied in a group of policemen (males, aged 22–50 years) working in the downtown area of Prague and spending daily >8 h outdoors (N = 53). Age- and sex-matched healthy volunteers spending > 90% daily time indoors were chosen as controls (N = 52). Ambient air particles (PM10, PM2.5) and c-PAHs were monitored using versatile air pollution sampler (VAPS), and personal exposure was evaluated using personal samplers during working shift. Chromosomal aberrations were analyzed by conventional cytogenetic analysis and fluorescent in situ hybridization (FISH). Urinary cotinine plasma levels of vitamins A, E and C, folate, total cholesterol, HDL, LDL cholesterols and triglycerides were also analyzed as possible effect modifiers. Genotypes CYP1A1*2A, CYP1A1*2C, GSTM1, GSTP1, GSTT1, EPHX1, NAT2, hOGG1, XRCC1, XPD, p53 BstI, p53 MspI, MTHFR677, and MS2656 were determined by PCR-based RFLP assays. The following levels of air pollution were recorded during the study period (mean from HiVol sampling): PM10 62.6 μg/m³, c-PAHs 24.7 ng/m³, B[a]P 3.50 ng/m³. The conventional cytogenetic analysis did not reveal any differences between the group of policemen exposed to the ambient air pollution and the control group. The cytogenetic analysis by FISH analysis used the whole chromosome painting probes for chromosomes #1 and #4 (Cambio, UK). It detected a significant increase in all studied endpoints in the policemen compared to controls (% AB.C. = 0.33 ± 0.25 versus 0.24 ± 0.18, p < 0.05, F_G/100 = 1.72 ± 1.57 versus 1.25 ± 1.11, p < 0.05, AB/1000 (aberrations/1000 cells) = 5.58 ± 4.62 versus 3.90 ± 3.06, p < 0.05). CYP1A1*2C (Ile/Ile), XPD 23 (Lys/Lys), and XPD 6 (CC) genotypes were associated with an increase of aberrant cells by conventional method. Factors associated with an increased level of translocations by FISH included age, smoking, B[a]P-like DNA adducts (corresponding to the exposure of c-PAHs), folate, polymorphisms of CYP1A1*2C, GSTP1, EPHX1, p53 MspI and MTHFR. Ambient air exposure to c-PAHs significantly increased FISH cytogenetic parameters in nonsmoking policemen. We may conclude that FISH indicates that the city policemen in Prague represent a group of increased genotoxic risk. This is the first study that has reported a relationship between DNA adducts (biomarker of exposure) and chromosomal aberrations by FISH (biomarker of effect).     

Genetic differentiation in theAedes atropalpus complex. II. Chromosomal divergence betweenAe. atropalpus andAe. epactius

Analysis of meiotic chromosomes from hybrids betweenAedes atropalpus andAe. epactius has revealed that the two species are fixed for alternate arrangements of four inversions: a paracentric inversion of chromosome 1, two paracentric inversions of chromosome 2, and a pericentric inversion of chromosome 3. This chromosomal heterozygosity in the interspecific hybrids has resulted in extensive meiolic chromosomal asynapsis. Dicentric bridges, acentric fragments, and chromosomal breakage were also associated with the heterozygous inversions. This disruption of meiosis was sufficient to account for the partial sterility observed in interspecific hybrids. No chromosomal polymorphisms, aberrations, or reduction in fertility was observed in parental strains of intraspecific hybrids of the two species.     

The low dose and low dose rate cytogenetic effects induced by gamma-radiation in human blood lymphocytes in vitro. II. the results of cytogenetic study

The yield of chromosome aberrations induced by gamma-radiation of 60Co in human blood lymphocytes in vitro at low doses (30 divided by 600 mGy) and low dose rates (0.70, 5.05, 59.2 mGy/min) was investigated. It was found that the observed level of chromosomal aberrations induced by gamma-irradiation was unaffected by the value of the dose rate when using constant dose rate and obtaining different doses by altering the exposure time. However, a relatively enhanced level of chromatid aberrations was found at 5.05 and 59.2 mGy/min dose rates in the dose range less than 250 mGy. We have found that the observed level of the sum of chromosomal aberrations induced by gamma-irradiation at doses less than 250 mGy and a dose rate of 59.2 mGy/min was essentially larger compared with the level extrapolated from high doses (above 300 mGy) using a linear-quadratic dose curve. This complied with our previous finding in 1976, 1977 when the enhanced level of dicentrics was only found at a high dose rate approximately 500 mGy/min. Such a non-linear cytogenetic effect does not manifest itself statistically significantly at dose rates of 0.70 and 5.05 mGy/min for the sum of chromosomal aberrations and does not manifest itself at all for dicentrics at all the examined dose rates.     

Chromosomal aberrations in tire plant workers and interaction with polymorphisms of biotransformation and DNA repair genes

We evaluated chromosomal aberrations in lymphocytes of 177 workers exposed to xenobiotics in a tire plant and in 172 controls, in relation to their genetic background. Nine polymorphisms in genes encoding biotransformation enzymes and nine polymorphisms in genes involved in main DNA repair pathways were investigated for possible modulation of chromosomal damage. Chromosomal aberration frequencies were the highest among exposed smokers and the lowest in non-smoking unexposed individuals (2.5 ± 1.8% vs. 1.7 ± 1.2%, respectively). The differences between groups (ANOVA) were borderline significant (F = 2.6, P = 0.055). Chromosomal aberrations were higher in subjects with GSTT1-null (2.4 ± 1.7%) than in those with GSTT1-plus genotype (1.8 ± 1.4%; F = 7.2, P = 0.008). Considering individual groups, this association was significant in smoking exposed workers (F = 4.4, P = 0.040). Individuals with low activity EPHX1 genotype exhibited significantly higher chromosomal aberrations (2.3 ± 1.6%) in comparison with those bearing medium (1.7 ± 1.2%) and high activity genotype (1.5 ± 1.2%; F = 4.7, P = 0.010). Both chromatid- and chromosome-type aberration frequencies were mainly affected by exposure and smoking status. Binary logistic regression analysis revealed that frequencies of chromatid-type aberrations were modulated by NBS1 Glu185Gln (OR 4.26, 95%CI 1.38–13.14, P = 0.012), and to a moderate extent, by XPD Lys751Gln (OR 0.16, 95%CI 0.02–1.25, P = 0.081) polymorphisms. Chromosome-type aberrations were lowest in individuals bearing the EPHX1 genotype conferring the high activity (OR 0.38, 95%CI 0.15–0.98, P = 0.045). Present results show that exposed individuals in the tire production, who smoke, exhibit higher chromosomal aberrations frequencies, and the extent of chromosomal damage may additionally be modified by relevant polymorphisms.     

Paracentric inversions in man

Summary The Leuven cytogenetic center experience on paracentric inversions in man is discussed. From a total of 51,000 patients, referred for constitutional chromosome analysis during the period 1970–1985, paracentric inversions were found in 18 index patients. A puzzling finding is the high incidence (26%) of mental retardation and/or congenital malformation in the inversion carrier offspring of phenotypically normal parents with identical chromosomal rearrangements. There was also a high incidence of early fetal loss in the inversion carrier parents. This finding may be explained by an increase of chromosomally unbalanced gametes which result from crossing-over in the meiotic inversion loop. Finally, the possibility of an increased tendency to non-disjunction in paracentric inversion carrier parents is discussed. The most frequent paracentric inversion was inv(3)(p13p25); it was detected in seven unrelated index patients. According to the present experience and the literature data, the breakpoints in paracentric inversions seem to occur preferentially at 1p22, 1p36, 3p13, 3p25, 7q11, and 7q22 regions.     

Distinct response of adult neural stem cells to low versus high dose ionising radiation

Radiosusceptibility is the sensitivity of a biological organism to ionising radiation (IR)-induced carcinogenesis, an outcome of IR exposure relevant following low doses. The tissue response is strongly influenced by the DNA damage response (DDR) activated in stem and progenitor cells. We previously reported that in vivo exposure to 2 Gy X-rays activates apoptosis, proliferation arrest and premature differentiation in neural progenitor cells (transit amplifying cells and neuroblasts) but not in neural stem cells (NSCs) of the largest neurogenic region of the adult brain, the subventricular zone (SVZ). These responses promote adult quiescent NSC (qNSC) activation after 2 Gy. In contrast, neonatal (P5) SVZ neural progenitors continue proliferating and do not activate qNSCs. Significantly, the human and mouse neonatal brain is radiosusceptible.Here, we examine the response of stem and progenitor cells in the SVZ to low IR doses (50–500 mGy). We observe a linear dose-response for apoptosis but, in contrast, proliferation arrest and neuroblast differentiation require a threshold dose of 200 or 500 mGy, respectively. Importantly, qNSCs were not activated at doses below 500 mGy. Thus, full DDR activation in the neural stem cell compartment in vivo necessitates a threshold dose, which can be considered of significance when evaluating IR-induced cancer risk and dose extrapolation.     

Pericentric inversions in man: personal experience and review of the literature

Summary The Leuven cytogenetic centre experience on pericentric inversion in man is discussed with exclusion of the pericentric inversions of the heterochromatic blocks of chromosomes 1 and 9. In a total of 51,500 patients, referred for constitutional chromosome analysis during the period 1970–1985, pericentric inversions were found in 24 index patients. The breakpoints detected in these different pericentric inversions are summarized and compared to those found in previous reports. Bands 2p13, 2q21, 5q31, 6c21, 10q22, and 12q13 were shown to be repeatedly involved in the different studies and, furthermore, breakpoints at bands 2q11, 5p13, 5p15, 5q13, 7q11, 11q25, and 14p11 were present in this study as well as in our previous review on reciprocal autosomal translocations. In 13 familial pericentric inversions, even after exclusion of all inversion carrier probands, a 1.6:1 excess of pericentric inversion carriers versus karyotypically normal progeny was observed. While chromosomally unbalanced offspring represent 3.5% of all chromosomally investigated liveborns of the present study, 7.1% of all liveborn inversion carrier offspring presented with a mental retardation and/or multiple congenital anomalies (MR/MCA) problem. Additional chromosomal abnormalities, i.e. a 21 trisomy and an accessory small ring chromosome were observed in two pericentric inversion carriers. These data and results are discussed and compared to the data available in the literature.     

Inversions and deletions of the Salmonella chromosome generated by the translocatable tetracycline resistance element Tn10

Spontaneous tetraoyoline-sensitive derivatives of a Tn10 insertion in the hisG gene of Salmonella typhimurium were isolated and subjected to genetic analysis. All 123 of the drug-sensitive derivatives characterized have undergone stable alterations in the Tn10 element itself; over half of the derivatives have also undergone major alterations of neighboring regions of the Salmonella chromosome. These chromosomal rearrangements are of two types: inversions and deletions. Any single inversion or deletion affects a contiguous stretch of chromosomal material extending from the site of the original Tn10 element either leftward or rightward.The genetic properties of deletion and inversion derivatives suggest that these chromosomal alterations are promoted by the Tn10 element itself. The role of translocatable elements in promoting chromosomal deletions is well documented; the ability of an element to promote inversions of chromosomal material has not previously been reported. Possible analogies between the 1400-base-pair inverted repetition at the end of Tn10 and the small insertion sequence IS1 predict particular structures for Tn10-promoted deletions. A structural explanation or model for Tn10-promoted inversions is presented. The observation that Tn10 promotes the formation of inversions suggests that such elements could play a previously unanticipated role in promoting chromosomal inversions during evolution of prokaryotic organisms. Generally applicable genetic methods for the identification and characterization of chromosomal inversions are described.     

Estrone sulfate (E1S), a prognosis marker for tumor aggressiveness in prostate cancer (PCa)

Seeking insight into the possible role of estrogens in prostate cancer (PCa) evolution, we assayed serum E₂, estrone (E₁), and estrone sulfate (E₁S) in 349 PCa and 100 benign prostatic hyperplasia (BPH) patients, and in 208 control subjects in the same age range (50–74 years).

E₁ (pmol/L ± S.D.) and E₁S (nmol/L ± S.D.) in the PCa and BPH patients (respectively 126.1 ± 66.1 and 2.82 ± 1.78, and 127.8 ± 56.4 and 2.78 ± 2.12) were significantly higher than in the controls (113.8 ± 47.6 and 2.11 ± 0.96). E₂ was not significantly different among the PCa, BPH, and control groups. These assays were also carried out in PCa patients after partition by prognosis (PSA, Gleason score (GS), histological stage, and surgical margins (SM)). Significantly higher E₁S levels were found in PCa with: PSA > 10 ng/L (3.05 ± 1.92) versus PSA ≤ 10 ng/mL (2.60 ± 1.55), stage pT3-T4 (2.99 ± 1.80) versus pT2 (2.58 ± 1.58), and positive (3.26 ± 1.95) versus negative margins (2.52 ± 1.48). E₁ was higher in poor- than in better-prognosis PCa. E₂ was significantly higher in PCa with GS ≥ 4 + 3 (109.5 ± 43.8) versus GS ≤ 3 + 4 (100.6 ± 36.5) and increased significantly when GS increased from 3 + 3 to 4 + 4. Estrogens, especially E₁S appeared to be possible markers of PCa progression.

Attempting to identify potential sources of E₂ in PCa according to prognosis, as well as in BPH, we found a significant correlation coefficient between E₁S and E₂ (0.266–0.347) in poor-prognosis PCa and no correlation in BPH (0.026) and better-prognosis PCa (0.013–0.104).

It is as though during progression of PCa from good to poor prognosis there were a shift in the E₁ to E₂ metabolic pathway from predominantly oxidative to predominantly reductive.