Tolperisone--a novel modulator of ionic currents in myelinated axons

The actions of tolperisone on single intact Ranvier nodes of the toad Xenopus were investigated by means of the Hodgkin-Huxley formalism. Adding tolperisone to the bathing medium (100 micromol/l) caused the following fully reversible effects: 1. The sodium permeability P'Na was decreased by about 50% in a nearly potential-independent manner while the so-called sodium inactivation curve was shifted in the negative direction by about 3 mV. 2. The remaining parameters of the sodium system, i.e. m, taum and tauh, did not change. 3. The potassium permeability P'K decreased at strong depolarizing potentials (V > 60 mV); hence the permeability constant P(K) decreased by about 8%. However, weak depolarizations (V < 60 mV) caused P'K to increase by about 7%. 4. The potassium activation curve was shifted in the positive direction by about 9 mV and the exponent of n, b, was reduced from about 3.5 to about 1.5. Concentration-response relations for reduction of the sodium permeability constant PNa and of the potassium permeability constant P(K) yielded apparent dissociation constants of about 0.06 mmol/l and 0.32 mmol/l, respectively. The increase of P'K at V = 40 mV, however, was largely concentration-independent. Our findings show that, in contrast to the prevailing view, tolperisone cannot be said to have a so-called lidocaine-like activity, because its effect on potassium permeability in the threshold region is fundamentally different from that of other known local anaesthetics. We infer that this effect, in combination with the decrease in sodium permeability, is responsible for the tendency of tolperisone to reduce excitability and hence for the antispastic action of tolperisone documented by clinical observations.     

Effects of silperisone on the excitation process in Ranvier nodes

The effect of silperisone on single intact Ranvier nodes of the toad Xenopus was investigated by adding it to the bathing medium. At 100 micromol/l the following fully reversible effects were observed: 1. The spike amplitude decreased in a frequency-dependent manner. 2. Both the sodium activation and the inactivation curves as well as the potential dependence of taum were slightly shifted in the negative direction, while tauh did not change. 3. The sodium permeability constant PNa decreased by 50%. 4. The potassium currents acquired a phasic time course previously described for certain psoralens. They reached a relative maximum and then approached a lower steady state value, kappa(infinity) with a time constant of about 5 ms. Concentration-related responses of PNa, PK and of k(infinity), yielded: 5. The apparent dissociation constant of block of PNa was 110 micromol/l. 6. PK proved not to be changed by silperisone in the concentration range tested, while the variable kappa(infinity) yielded a relation similar to that of PNa except that the apparent dissociation constant was 24 micromol/l. The phasic course of the potassium currents in the presence of silperisone may be due to an open channel blockade. In view of the similarities between the actions of silperisone and 5-methoxypsoralen, it is entirely conceivable that silperisone has potential for an antispastic drug, e.g., in demyelinating diseases like multiple sclerosis.     

Relationship between lesions photoinduced by mono- and bi-functional furocoumarins in DNA and genotoxic effects in diploid yeast

The induction of genetic effects was studied in a diploid strain of Saccharomyces cerevisiae (D7) after treatments with the monofunctional furocoumarins 7-methylpyrido[3,4-c]psoralen (MePyPs), pyrido[3,4-c]psoralen (PyPs) and 3-carbethoxypsoralen (3-CPs) and the bifunctional furocoumarins 5-methoxypsoralen (5-MOP) and 8-methoxypsoralen (8-MOP) in the presence of 365-nm radiation. The DNA photobinding of radioactively labelled MePyPs, 3-CPs, 5-MOP and 8-MOP was determined in parallel. The DNA-photobinding capacity was highest for MePyPs followed in decreasing order by 5-MOP, 3-CPs and 8-MOP. At a concentration of 5 microM and 4.2 kJ/m2 of 365-nm radiation approximately 160, 66, 60 and 16 adducts per 10(6) base pairs were formed by MePyPs, 5-MOP, 3-CPs and 8-MOP, respectively. The activity of MePyPs and PyPs for the induction of lethal effects lay in the same range as that of 5-MOP whereas 8-MOP was 3 times less active and 3-CPs showed very little activity. For the induction of mitotic gene conversion and genetically altered colonies including mitotic crossing-over the order of activity was about the same as that observed for the induction of lethal effects: MePyPs greater than 5-MOP greater than PyPs greater than 8-MOP much greater than 3-CPs. Nuclear reversions were induced most effectively by 5-MOP, 8-MOP being about 3 times less effective. Up to 4 and 6 kJ/m2 of 365-nm radiation, MePyPs and PyPs, respectively, were less mutagenic than 8-MOP but became more mutagenic at higher doses. At equal survival, the pyridopsoralens were, however, clearly less mutagenic than the bifunctional furocoumarins 8-MOP and 5-MOP. By plotting the genetic data versus the number of lesions induced in DNA, it was shown that the monoadducts induced by the monofunctional furocoumarins MePyPs and 3-CPs exert a relatively low potential for the induction of lethal and nuclear genetic events as compared to photoadditions induced by the bifunctional furocoumarins 8-MOP and 5-MOP. However, at a very high density, the monoadducts induced by MePyPs became as lethal and as mutagenic as the mixture of mono- and biadducts induced by 8-MOP and 5-MOP probably due to overloading of cellular repair capacities.(ABSTRACT TRUNCATED AT 400 WORDS)     

Mutagenic effects photoinduced in normal human lymphoblasts by a monofunctional pyridopsoralen in comparison to 8-methoxypsoralen

The photobiological effects induced by the monofuctional 7-methylpyrido[3,4-c]psoralen (MePyPs) in comparison to the bifunctional furocoumarin 8-methoxypsoralen (8-MOP) have been studied in a human lymphoblast cell line TK6. We report that, in human lymphoblasts, the cytotoxic effect of MePyPs plus UVA (365 nm) is much higher than that of 8-MOP plus 365-nm irradiation. The dose-modifying factor at the 37% survival level between the 2 compounds equals 120. Mutation induction by photoactivated MePyPs and 8-MOP has been studied in 2 genetic loci, hypoxanthine phosphoribosyl transferase (HPRT) and Na+/K+ ATPase. For equal UVA doses, the mutagenic effectiveness of MePyPs was higher than that of 8-MOP. However at equal survival levels, the mononfuctional psoralen MePyPs was less efficient than the bifunctional 8-MOP. In other words, compared to 8-MOP, the monofunctional agent MePyPs is more cytotoxic than mutagenic. This higher phototoxic and mutagenic efficiency of MePyPs in comparison to 8-MOP is likely to be related to the chemical nature of MePyPs-induced lesions which may be responsible for a reduced recognition and/or accessibility of the repair enzymes to damaged DNA.     

Frameshift mutagenicity in Salmonella typhimurium of furocoumarins in the dark

The dark mutagenicity of 4,5',8-trimethylpsoralen (4,5',8-TMP), 5-methoxypsoralen (5-MOP), 8-methoxypsoralen (8-MOP), 3-carbethoxypsoralen (3-CPs) and two new pyridopsoralens (PyPs and MePyPs) was tested using the Ames Salmonella plating assay in the absence of metabolic activation. 4,5',8-TMP, 8-MOP and the two pyridopsoralens were found to be weak frameshift mutagens in strain TA1537 whereas 5-MOP and 3-CPs did not demonstrate any significant mutagenic activity. These findings support the notion that the genetic risks of these psoralens in the dark may be considered to be negligible.     

Real-time fluorescence-based detection of furanocoumarin photoadducts of DNA

Real-time fluorescence detection systems were adapted to identify DNA adducts formed by photogenotoxic phytochemicals. Two assays were developed: the first was based on quantitative polymerase chain reaction (qPCR) while the second used thermal denaturation and renaturation (D-R). Both assays employed yeast DNA, the fluorescent dye SYBR Green and a real-time PCR thermocycler. The furanocoumarins 8-methoxypsoralen (8-MOP), 5-methoxypsoralen (5-MOP), psoralen, angelicin and imperatorin, and the furanochrome khellin, were tested for adduct forming ability with up to 2 h of UVA light exposure (lambda = 320-400 nm). The known bifunctional compounds, 8-MOP, 5-MOP and psoralen, were inferred to form biadducts here based on both D-R and qPCR assays, as expected from previous research. The known monofunctional compound angelicin was used as a negative control and did not form biadducts based on either assay. Two compounds of unknown functional specificity, imperatorin and khellin, were determined to be positive and negative for biadduct activity, respectively. Detection of biadducts with 8-MOP, 5-MOP, psoralen and imperatorin, but not angelicin or khellin, was further verified by temperature gradient gel electrophoresis. The fluorescence methods improve and expand upon existing assays to monitor DNA adducts.     

Evidence for uptake of 8-methoxypsoralen and 5-methoxypsoralen by cellular nuclei

The fluorescent appearance of oral mucosa cells treated with 8-methoxypsoralen (8-MOP) and 5-methoxypsoralen (5-MOP) was observed by means of fluorescence microscopy. Fluorescence at the nuclei was weakened in 8-MOP-treated cells, while it was intensified in 5-MOP-treated cells. These findings were consistent with changes in the fluorescence intensities on association of the psoralen derivatives with DNA in aqueous solution. This intensity change of fluorescence and also the blue shift of the fluorescence maximum of the derivatives on association suggested that the environment around the psoralen molecules is as little polar as methanol. From the results of these fluorescence microscopic observations and spectroscopic analysis of fluorescence of derivatives interacting with DNA during equilibrium dialysis, we concluded that 8-MOP, as well as 5-MOP, is incorporated by nuclei of human cells.     

Chromosome damage induced in human lymphocytes by 5-methoxypsoralen and 8-methoxypsoralen plus UV-A

The induction of structural chromosome aberrations and sister chromatid exchanges (SCE) was studied in human lymphocytes in vitro after treatment with the two bifunctional furocoumarins 5-methoxypsoralen (5-MOP) and 8-methoxypsoralen (8-MOP) in the presence of UV-A. The results show that both psoralens induce a dose-dependent increase in the SCE rate as well as in structural chromosome aberrations. 5-MOP was 2.0-2.5 times more effective for the induction of chromosome breaks and had a slightly stronger effect with respect to SCE induction. A significant influence on proliferation kinetics could be observed only with 5-MOP plus UV-A.     

Gallamine triethiodide selectively blocks voltage-gated potassium channels in Ranvier nodes

The effects of gallamine on ionic currents in single intact Ranvier nodes of the toad Xenopus were investigated. The following fully reversible effects were observed: 1. With a test concentration of 1 mmol/l the current-voltage relation of steady-state potassium currents, IK ss exhibited a complete block of IK ss up to about V = 110 mV; with stronger depolarisations the block was incomplete. The peak sodium currents, in contrast, were not affected. 2. At the same test concentration the potassium permeability constant PK was reduced by 92% from its normal value, while the sodium permeability constant PNa decreased by only 8%. 3. Concentration-response relations of the block of PK yielded an apparent dissociation constant of 30 micromol/l and a steepness parameter of unity. Patch-clamp experiments on cloned Kv1.1, Kv1.2, Kv1.3 and Kv3.1 channels yielded apparent dissociation constants of 86, 19, >100 and 121 micromol/l, respectively. Our findings show that gallamine is particularly well suited for separating potassium and sodium currents in axonal current ensembles. They also strongly suggest that potassium currents in Ranvier nodes of Xenopus are mainly carried by an ensemble of Kv1.1 and 1.2 channels.     

Photochemistry of the furan-side 8-methoxypsoralen-thymidine monoadduct inside the DNA helix. Conversion to diadduct and to pyrone-side monoadduct

We have studied the photochemical reactions of 8-methoxypsoralen (8-MOP) with calf thymus DNA. Analysis of the photoproducts formed was carried out by enzymatic digestion of the 8-MOP-modified DNA, followed by HPLC separation of photoadducts by high-pressure liquid chromatography (HPLC). The 4',5' (furan-side) monoadduct of 8-MOP bound to thymidine is converted to cross-linked thymidine-8-MOP-thymidine diadduct by 341.5 nm light with a quantum yield of 0.028 +/- 0.004. This is 4 times greater than the quantum yield for initial adduct formation (0.0065 +/- 0.0004). When low levels of 8-MOP are covalently bound to DNA by using 397.9 nm light, less than 10% of the adducts formed are diadducts yet nearly 70% are in 5'-TpA cross-linkable sites. The furan-side monoadducts in these sites can subsequently be converted to diadduct or to a lesser extent 3,4 (pyrone-side) monoadduct.     

Monoclonal antibodies to DNA modified by 8-methoxypsoralen and ultraviolet A light.

A panel of monoclonal antibodies have been developed which specifically recognize DNA modified by 8-methoxypsoralen (8-MOP) and ultraviolet A light (320-400 nm) (UVA). These antibodies have been characterized as to sensitivity and specificity by an enzyme linked immunosorbent assay (ELISA). In a competitive ELISA with the most sensitive antibody, 50% inhibition of antibody binding occurred at 17 fmole 8-MOP-DNA photo adducts. One adduct per 10(7) bases could be reliably detected. There was also some antibody cross-reactivity with DNAs modified by 4' aminomethyl-4, 5, 8-trimethylpsoralen and 4', 5-dimethylangelicin as well as DNA isolated from cells treated with 8-MOP and UVA. The primary specificity of one of the antibodies was shown to be the 4', 5' thymine monoadduct by competitive inhibition studies using HPLC fractions of an enzymatic digest of 8-MOP poly(dA-dT) . poly(dA-dT). These antibodies should allow the quantitation of adduct levels in various in vitro systems as well as humans exposed clinically to 8-MOP and UVA.     

DNA photobinding of 7-methylpyrido[3,4-c]psoralen and 8-methoxypsoralen. Effects on macromolecular synthesis, repair and survival in cultured human cells

The photobinding to DNA of tritiated 7-methylpyrido[3,4-c]psoralen (MPP), a recently synthesized monofunctional compound of therapeutical interest, and of 8-methoxypsoralen (8-MOP) was determined in cultured normal human fibroblasts. Employing compounds at 10(-6) M, MPP photobinds approximately 11 times more efficiently than 8-MOP: one molecule is fixed respectively per 7.5 X 10(4) or 8.1 X 10(5) base pairs/kJ . m-2 of 365-nm radiation (UVA). Removal of bound material from DNA is slow and limited in 48-72 h of post-treatment incubation to 30-40% of initial adducts formed by MPP and to 50-60% of those of 8-MOP. For equivalent photobinding MPP and 8-MOP induce similar inhibitions of DNA synthesis. However, the recovery of DNA synthesis during post-treatment incubation is lower after photoaddition of MPP than after that of 8-MOP. MPP also exerts a much higher lethal effect than 8-MOP: one lethal hit corresponds to about 4400 and to 19,900 adducts per cell respectively. Alkaline elution experiments confirmed the monofunctional nature of MPP and indicated that in MPP-damaged cells DNA breaks accumulate with time of post-treatment incubation. In contrast, after photoaddition of 3-carbethoxypsoralen (3-CPs), another monofunctional furocoumarin, or irradiation with 254-nm UV, DNA breaks are induced only transiently. In 8-MOP-treated cells, DNA cross-links appear to be partially repaired. In conclusion, MPP monoadducts turn out to constitute more cytotoxic lesions than 8-MOP mono- and bi-adducts.     

Mutagenicity of 8-methoxypsoralen and long-wave ultraviolet irradiation in V-79 Chinese hamster cells : A first approach to a risk estimate in photochemotheraphy

The effect of 8-methoxypsoralen (8-MOP) and long-wave ultraviolet irradiation (UVA) on cell killing and mutation induction was studied in V-79 Chinese hamster cells. No effect was observed after treatment with 8-MOP alone (50 μg/ml, 4 h), UVA alone (9000 J/m²), or 8-MOP metabolized by rat-livermicrosomes. Combined treatment with 8-MOP and UVA induced both cell killing and mutation. This was also observed under conditions approaching patient treatment with PUVA photochemotherapy with respect to the concentration of 8-MOP in the skin and the amount of UVA received by the epidermal cells. A simple relation proved to apply for mutation induction under different treatment conditions: 5.5 × 10⁻⁸ per J/m² per μg 8-MOP/ml. On this basis the mutation induction in dividing cells per session of PUVA-photochemotherapy amounts to 12.4 × 10⁻⁵, which is probably an over-estimation.     

Mutagenicity of 8-methoxypsoralen and long-wave ultraviolet irradiation in diploid human skin fibroblasts: an improved risk estimate in photochemotherapy

Cell killing and the induction of mutation were studied in dividing and non-dividing human skin fibroblasts as a result of treatment by 8-methoxypsoralen (8-MOP) and long-wave UV irradiation (UVA). The cytotoxic effect was highly dependent upon the duration of the UVA exposure. The frequency of mutations increased linearly with the UVA dose at concentrations of 10 and 0.25 microliter 8-MOP/ml, the latter representing the concentration in the skin during PUVA treatment. The number of mutations induced per unit dose (= per microgram 8-MOP/ml per joule UVA/m2) was calculated: for dividing cells this value was 3.3 X 10(-8) per cell and for non-dividing cells 0.6 X 10.8(-8) per cell. On the basis of these values the expected number of induced mutants in the human skin per session of photochemotherapy is 1.2 X 10(-5), and per 30 years of maintenance therapy 1.3 X 10(-2) per cell. A comparison was made between this frequency and the frequency to be expected from spontaneous mutation. In addition the significance of absence in patients of SCE induction by photochemotherapy is discussed.     

Genetic control of mitotic crossing-over in yeasts. III. Induction by 8-methoxypsoralen and long-wave UV irradiation (lambda=365 nm)

The lethal effect of 8-methoxypsoralen (8-MOP) plus 365 nm light has been studied in haploid radiosensitive strains of Saccharomyces cerevisiae. The diploid of wild type and the diploid homozygous for the rad2 mutation (this mutation blocks the excision of UV-induced pyrimidine dimers) were more resistant to the lethal effect of 8-MOP plus 365 nm light than the haploid of wild type and rad2 haploid, respectively. The diploid homozygous for rad54 mutation (the mutation blocks the repair of double-strand breaks in DNA) was more sensitive than haploid rad54. The method of repeated irradiation allowed to study the capacity of radiosensitive diploids to remove monoadducts induced by 8-MOP in DNA. This process was very effective in diploids of wild type and in the rad54 rad54 diploid, while the rad2 rad2 diploid was characterized by nearly complete absence of monoadduct excision. The study of mitotic crossing over and mitotic segregation in yeast diploids, containing a pair of complementing alleles of the ade2 gene (red/pink) has shown a very high recombinogenic effect of 8-MOP plus 365 nm light. The rad2 mutation slightly increased the frequency of mitotic segregation and mitotic crossing over. The rad54 mutation decreased the frequency of mitotic segregation and entirely suppressed mitotic crossing over. The method of repeated irradiation showed that the cross-links, but not monoadducts, are the main cause of high recombinogenic effect of 8-MOP plus 365 nm light. The possible participation of different repair systems in recombinational processes induced by 8-MOP in yeast cells is discussed.     

Comparison of the sensitivity of Fanconi's anemia and normal fibroblasts to the induction of sister-chromatid exchanges by photoaddition of mono- and bi-functional psoralens

The induction of sister-chromatid exchanges (SCE) by photoaddition of a monofunctional furocoumarin (pyrido[3,4-c]psoralen, PyPs) and a bifunctional furocoumarin (8-methoxypsoralen, 8-MOP) in a normal and three Fanconi anemia (FA) fibroblastic cell lines was investigated. When compared to normal cells, the three FA cell lines demonstrated: a higher sensitivity to 8-MOP photoaddition; an equal or reduced sensitivity to PyPs photoaddition in the low dose range. Normal cells demonstrated a higher sensitivity to photoaddition of PyPs than to 8-MOP in the range of doses used; this is likely to be related to the higher amount of lesions induced by PyPs in DNA. Since FA cells were almost equally sensitive to 8-MOP and PyPs photoaddition and demonstrated a higher sensitivity to SCE induction by 8-MOP than normal cells, it can be concluded that this latter difference is mainly due to cross-links.     

Chromatographic determination of the association constant between 8-methoxypsoralen and modified beta-cyclodextrin: protective effect of hydroxypropyl-beta-cyclodextrin on 8-methoxypsoralen toxicity in human keratinocytes

The retention of 8-methoxypsoralen (8-MOP) on an immobilised hydroxypropyl-beta-cyclodextrin (HP-beta-CD) column was analysed in HPLC by the determination of its Langmuir distribution isotherm. A such method was used to confirm the potential drug complexing role of this cyclodextrin. The 8-MOP/HP-beta-CD association constant (K) was equal to 29.5 and 18.7 M-1, respectively, at a temperature equal to 5 and 25 degrees C, respectively. These association constant values were used to determine the cytotoxicity profile of human keratinocyte cell line (HaCaT) in relation to the complex concentration. It was showed through these data that HP-beta-CD had a cytoprotective since a reverse effect of HP-beta-CD on 8-MOP cytotoxicity was observed.     

Apamin-sensitive nitric oxide- and ATP-mediated motor effects on the guinea pig small intestine

The involvement of nitric oxide and ATP in both spontaneous and electrically-induced nonadrenergic noncholinergic (NANC) motor activity with special interest in the apamin-sensitive mechanisms was studied in a guinea pig ileum model. Depending on the concentration (0.1 or 1 micromol/l), apamin, a blocker of the calcium-activated potassium channels and antagonist of ATP action, induced either TTX (0.1 micromol/l)-resistant increase in tone or contractions. SNP, a nitric oxide donor, applied cumulatively (0.1-100 micromol/l) evoked a concentration-dependent relaxation, the EC50 value being 0.39 +/- 0.12 micromol/l. At concentrations of 0.1 or 1 micromol/l, apamin decreased the SNP effects and shifted the concentration-response curves for SNP to the right. The EC50 value for SNP in the presence of apamin at a concentration of 0.1 micromol/l increased to 59.34 +/- 36.53 micromol/l. ATP (1 or 50 micromol/l) induced TTX-resistant contractions. The effects of ATP were reduced by apamin (1 micromol/l). The contractile effect of ATP occurred in the presence of SNP. SNP provoked relaxation on the background of ATP. The NANC responses to electrical stimulation (0.8 ms, 40 V, 2 or 20 Hz, 20 s) consisted of an initial relaxation phase followed by a phase of contractions, twitch-like and tonic. L-NNA (0.5 mmol/l), an inhibitor of nitric oxide syntheses, abolished the relaxation phase. L-arginine (0.5 mmol/l) restored it. Apamin (0.1 or 1 micromol/l) completely eliminated the relaxation phase and concentration-dependently inhibited the tonic contraction of the phase of contractions. The present findings indicate that the apamin-sensitive nitric oxide-evoked relaxation could be realized by calcium-activated potassium channels and that the apamin-sensitive ATP-induced contraction is mediated via contraction-producing P2 purinoceptors.     

Psoralen activity and binding sites in melanotic and amelanotic human melanoma cells

The biological activity and specific binding sites of 8-methoxypsoralen (8-MOP) are assayed using two human melanoma cell lines, melanotic SK-Mel 28 and amelanotic C32TG. Long-term (72 hr) treatment with 8-MOP at a concentration of 10(-4)M results in an increase in melanogenesis and a decrease in proliferation, similar in both cell lines. Daily exposure of these cells to ultraviolet A (UVA) irradiation (1.28 mJ/cm(2)) does not enhance the response to the compound. Daily pulse application (30 min daily) of 8-MOP does not promote any response. However, in combination with UVA, 8-MOP pulse treatment becomes as effective as the long-term treatment. A decrease in cell proliferation in the constant presence of 8-MOP is not coupled with apoptosis, since no increase in the number of apoptotic nuclei was observed after the treatment. The flow cytometry indicates that 8-MOP arrests the cells at the G0/G1 phase, irrespective of the presence or absence of UVA light. In view of the lack of epidermal growth factor (EGF) receptors in both cell lines, it is not likely that such an arrest is associated with the down-regulation of EGF receptors by 8-MOP. It is noted that this compound elicits a biphasic cell response, since cell proliferation increases after the first 24-hr treatment, whereas it decreases in the subsequent 48 hr and thereafter. Competition binding assays using 3H-8-MOP disclosed: 1) the specific binding of the compound in both cell lines occurs in the presence or absence of UVA light, and 2) a higher binding rate at low concentrations of the compound is in SK-Mel 28 (72%) rather than C32TG (58%) cells. The competition assays in the presence of UVA suggest a possible occurrence of covalent bindings between psoralen and receptor, as DNA covalent binding accounted to only 3-5% of the total binding in both cell lines.     

Frameshift mutagenesis in bacteria by 8-methoxypsoralen (methoxalen) in the dark.

We confirm that 8-methoxypsoralen (8-MOP) in the dark induces frameshift mutations in both Escherichia coli and Salmonella typhimurium when present in adequate concentration under growth conditions. The dose response is sigmoidal with a threshold or quasi-threshold at concentrations below about 10 microgram/ml. Frameshift mutagenesis by 8-MOP in the dark is unaffected by mutations at the uvrA or uvrB genes, in contrast to base pair substitution mutagenesis by 8-MOP plus near UV light. RecA (but not recB) bacteria are hypersensitive to the growth-inhibiting action of 8-MOP in the dark and are not detectably mutagenized. The characteristics of 8-MOP dark mutagenesis are consistent with the chemical interacting in a non-covalent manner with DNA and affecting the rate of occurrence of base deletions or insertions during DNA replication. The question of extrapolation of the genetic effect of 8-MOP to man is discussed.