Chlorocresol

Administrative data

Endpoint:

in vitro gene mutation study in bacteria

Type of information:

experimental study

Adequacy of study:

key study

Study period:

26 Feb - 18 Mar 1991

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

guideline study

Data source

Materials and methods

Test guidelineopen allclose all

GLP compliance:

yes

Type of assay:

bacterial reverse mutation assay

Test material

Method

Target gene:

his operon

Metabolic activation:

with and without

Metabolic activation system:

cofactor supplemented post-mitochondrial fraction (S9 mix), prepared from the livers of rats treated with Aroclor 1254

Test concentrations with justification for top dose:

First experiment: 8, 40, 200, 1000 and 5000 µg/plate with and without metabolic activation
Second experiment: 30, 60, 120, 240, 480 and 960 µg/plate with and without metabolic activation

The highest dose of the first experiment was chosen based on the standard protocol. Based on the bacteriotoxic effect of the test substance as determined in the first experiment 960 µg/plate was chosen as the highest concentration for the repeat test.

Vehicle / solvent:

- Vehicle/solvent used: ethanol
- Justification for choice of solvent/vehicle: The used solvent was chosen out of the following solvents, in the order given: water, methanol, ethanol, acetone, DMSO, DMF, and ethylene glycol dimethylether according to information given by the internal sponsor.

Details on test system and experimental conditions:

METHOD OF APPLICATION: in agar (plate incorporation)

DURATION
- Exposure duration: 48 h

NUMBER OF REPLICATIONS: 4 replications each in 2 independent experiments

DETERMINATION OF CYTOTOXICITY
- Method: cloning efficiency; relative total growth; other: titer

Evaluation criteria:

A reproducible and dose-related increase in mutant counts of at least one strain is considered to be a positive result. For TA 1535, TA 100 and TA 98 this increase should be about twice the amount of negative controls, whereas for TA 1537, at least a threefold increase should be reached. Otherwise, the result is evaluated as negative. However, these guidelines may be overruled by good scientific judgement. In case of questionable results, investigation should continue, possibly with modifications, until a final evaluation is possible.

Results and discussion

Test resultsopen allclose all

Additional information on results:

HISTORICAL CONTROL DATA
Summaries of historical negative and positive controls of experiments performed within 6 month each from January 1988 to December 1990 are provided. Please refer to Table 1 under "Any other informations on results incl. tables" for the summarized historical control data of July to December 1990.

Any other information on results incl. tables

Table 1: Summary of historical negative and positive controls of experiments performed from July to December 1990

Compound	S9 mix	Strain
		TA 1535		TA 100		TA 1537		TA 98
		median	semi-Q range	median	semi-Q range	median	semi-Q range	median	semi-Q range
water	-	13	2	105	16	9	1	21	4
ethanol	-	12	3	93	14	9	1	22	3
Na azide	-	882	114
NF	-			380	60
4-NPDA	-					48	9	71	15
30% water	+	18	3	143	15	11	2	29	3
30% ethanol	+	19	3	118	18	10	1	39	7
2-AA	+	175	41	800	243	84	17	485	93

Na azide = sodium azide, NF = nitrofurantoin, 4-NPDA = 4-nitro-1,2-phenylenediamine

 

Table 2: First experiment - Average revertants per plate in tester strains TA98, TA 100, TA 1535 and TA 1537 without S9-mix

Concentration [µg/plate]	Revertants/plate [mean]
	TA 1535	TA 100	TA 1535	TA 98
0	13	89	8	32
8	13	94	9	34
40	15	99	6	37
200	14	89	8	30
1000	5	18	4	7
5000	0	0	0	0
Na-azide1	603
NF2		477
4-NPDA3			70	167

Positive controls:¹Sodium-azide, 10 µg/plate (only TA 1535)

                                ²Nitrofurantoin, 0.2 µg/plate (only TA 100)

                                ³4-nitro-1,2-phenylenediamine, 10 µg/plate (only TA 1537), 0.5 µg/plate (only TA 98)

 

Table 3: First experiment - Average revertants per plate in tester strains TA98, TA 100, TA 1535 and TA 1537 with S9-mix

Concentration [µg/plate]	Revertants/plate [mean]
	TA 1535	TA 100	TA 1535	TA 98
0	20	111	9	38
8	21	124	10	46
40	20	120	10	46
200	11	100	6	51
1000	7	35	3	13
5000	0	0	0	0
2-AA4	164	1211	74	446

Positive controls:⁴2-aminoanthracene, 3 µg/plate

 

Table 4: Second experiment - Average revertants per plate in tester strains TA98, TA 100, TA 1535 and TA 1537 without S9-mix

Concentration [µg/plate]	Revertants/plate [mean]
	TA 1535	TA 100	TA 1535	TA 98
0	14	78	9	25
30	13	86	9	28
60	13	89	9	28
120	12	91	12	29
240	12	89	7	29
480	14	66	5	23
960	5	35	2	17
Na-azide1	732
NF2		364
4-NPDA3			58	67

Positive controls:¹Sodium-azide, 10 µg/plate (only TA 1535)

                                ²Nitrofurantoin, 0.2 µg/plate (only TA 100)

                                ³4-nitro-1,2-phenylenediamine, 10 µg/plate (only TA 1537), 0.5 µg/plate (only TA 98)

 

Table 5: Second experiment - Average revertants per plate in tester strains TA98, TA 100, TA 1535 and TA 1537 with S9-mix

Concentration [µg/plate]	Revertants/plate [mean]
	TA 1535	TA 100	TA 1537	TA 98
0	24	143	12	45
30	30	135	12	48
60	29	94	8	43
120	29	117	10	50
240	27	138	7	44
480	19	75	6	24
960	21	47	3	7
2-AA4	188	756	77	372

Positive controls:⁴2-aminoanthracene, 3 µg/plate

Applicant's summary and conclusion

Executive summary:

The mutagenic potential of the test substance was tested in the Salmonella/Microsome test according to OECD Guideline 471 (1983) and in compliance with GLP. Tester strains used were the Salmonella typhimurium histidine auxotrophs TA98, TA100, TA 1535 and TA 1537. Liver microsomal enzymes were prepared from at least 6 male Sprague-Dawley or male Wistar rats which had received a peritoneal injection of Aroclor 1254 at 500 mg/kg bw (S9 mix). The test substance was solved in ethanol. In a first experiment, 6 dose levels from 0 - 5000 µg/plate were plated with overnight cultures of TA 98, TA 100, TA 1535 and TA 1537 in the presence or absence of rat S9 mix. As a result, the appropriate maximum dose to be plated in the second experiment was determined to be 960 µg/plate with and without metabolic activation, respectively. In the second experiment the test substance was tested at 5 dose levels (30, 60, 120, 240, 480, 960 µg/plate) along with negative control and appropriate positive controls in the absence or presence of rat microsomal enzymes. DMSO was used as vehicle for positive controls. 0.1 mL of test-substance in ethanol or positive control in DMSO were added to 0.1 mL of bacteria solution (grown for 17 hours at 37 °C at 90 rpm) and 0.5 mL S9 mix or buffer (for non-activating tests) were added to 2.0 mL molten top-agar. After incubation for a maximum of 30 s at 45 °C in a water bath and mixing, this solution was poured onto solid agar plates. Four replicates were plated for all dose levels and controls. The plates were incubated at 37 °C for 48 h, before the colonies were counted. A result was evaluated as positive when it caused a doubling in the mean number of revertants per plate in at least one tester strain. This increase must be accompanied by a positive dose response. There was no indication of bacteriotoxic effects of the test substances at doses of up to and including 200 µg/plate. Total bacteria counts were comparable to or only slightly different from the negative controls. No inhibition of growth was noted. Doses at and above 240 µg/plate caused bacteriotoxic effects. None of the four strains tested showed a dose-related and biologically relevant increase in mutant counts over those of the negative controls, with and without metabolic activation. The respective positive controls caused an increase in the number of revertants which proved the sensitivity of the test. Therefore, under the conditions of this study, no indications of mutagenic effects of the test substance could be found at doses up to 960 µg/plate in any of the S. typhimurium strains tested.