Human G0 lymphocytes were exposed to 220 kV X-radiation in the presence or absence of DMSO, an efficient selective scavenger of OH radicals. Our studies demonstrate that DMSO affects a concentration-dependent modulation of induced asymmetrical aberrations in human lymphocytes exposed to approximately 3.0 Gy, with maximum protectible fractions of approximately 70 percent at DMSO concentrations of greater than or equal to 1 M. The dose dependency for dicentrics in lymphocytes acutely exposed to X-ray doses of 0.51 to 4.98 Gy in the absence of DMSO is adequately described by the linear-quadratic dose-response function Y = alpha D + beta D2. Data from duplicate cultures exposed in the presence of 1 M DMSO produce an excellent fit to the regression function modified as follows: Y(+ DMSO) = alpha(delta D) + beta(delta D)2 where the 'dose modifying' factor delta = 0.501. We interpret these findings as providing evidence that OH radical-mediated lesions in DNA account for approximately 50 percent of the dose dependency for dicentrics resulting from either one-track or two-track events, following exposures of non-cycling cells to moderate-to-high doses of low LET radiation. These data may be used in additional calculations to derive an estimate of approximately 6 x 10(8) s-1 for the rate of reaction of OH radicals with DNA targets involved in aberration formation.
WR-1065, the free-thiol form of WR-2721, has radioprotective effects in various biological systems. We measured the efficiency of WR-1065 in modifying the induction of chromosome aberrations by X rays in human lymphocytes. G0 lymphocytes were incubated for 30 min in medium containing 1-12 mM WR-1065, exposed to 0 or 3.1 Gy 220-kV X rays, washed, and cultured for evaluations of chromosome aberrations and micronuclei (MN). Neither proliferation kinetics nor baseline frequencies of aberrations or MN were affected in nonirradiated cultures incubated in WR-1065 for up to 45 min. Radiation-induced chromosome aberrations and MN varied inversely as a logarithmic function of thiol concentration. At extracellular concentrations of 8-12 mM, WR-1065 protected against > 85% of X-ray-induced chromosome damage as measured by either cytogenetic end point. WR-1065 is more efficient in modulating X-ray-induced chromosome aberrations than dimethyl sulfoxide, which provides protection by scavenging OH radicals. Our data suggest that mechanisms in addition to OH radical scavenging are involved in radioprotection by WR-1065.
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