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Vol. 30, Issue 8, 875-882, August 2002
Syracuse University, Department of Chemistry, Syracuse, New York
(K.A.T., J.C.D., J.G.); and State University of New York, Upstate
Medical University, Departments of Pediatrics, Syracuse, New York
(A.-K.S.)
The kinetics of the reactions of glutathione (GSH) with
4-hydroperoxycyclophosphamide (4OOH-CP) and acrolein, a metabolite of
4OOH-CP, were investigated in a cell-free medium (pH ~7.5) and
peripheral blood mononuclear cells. The ability of the thiol drugs, sodium 2-mercaptoethane sulfonate (mesna) and
S-2-(3-aminopropylamino)ethanethiol (WR-1065), to affect
the reactions of cellular GSH with the alkyalting agents was also
studied. The amount of unreacted thiols in the various reactions was
determined by derivatization with monobromobimane, followed by
separation of fluorescent-labeled thioether adducts using high-pressure
liquid chromatography. The second-order rate constants
(k2) for reactions of GSH, mesna, and
WR-1065 with 4OOH-CP in solution were 38 ± 5, 25 ± 5, and
880 ± 50 M
1s1, respectively. The
corresponding k2 for reactions of GSH,
mesna, and WR-1065 with acrolein were 490 ± 100, 700 ± 150, and >2000 M1s1, respectively. The apparent
rate constants for reactions of cellular GSH with acrolein and 4OOH-CP
were smaller than those obtained in solution. Assuming that the
k2 is the same inside and outside cells, we
estimate the first-order rate constant (k1)
for transfer of 4OOH-CP and acrolein across the cell membrane as
~0.01 and ~0.04 s1, respectively. WR-1065 was more
effective than mesna in blocking depletion of cellular GSH (because it
passes into the cell more quickly and has higher reaction rates with
the alkylators than the latter compound). When WR-1065 and mesna were
used together, the protection against cellular depletion of GSH was
additive. Our results are relevant to the administration of thiol drugs with high-dose alkylating agents.
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