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EC number: - | CAS number: -
Endpoint summary
Administrative data
Key value for chemical safety assessment
Genetic toxicity in vitro
Description of key information
Gene mutation in bacteria (OECD 471, Ames test): negative in S. typhimurium TA 100, TA 1535, TA 98, TA 1537 and E.coli WP2 uvra with and without metabolic activation
Gene mutation in mammalian cells (OECD 476, Mouse Lymphoma Assay):
negative in L5178Y TK +/- mouse lymphoma cells with and without
metabolic activation
Read-across from Reaction mass of 2-(3,4-dimethyl-1H-pyrazol-1-yl)succinic acid and 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinic acid (CAS 2241455 -89 -8).
Chromosome aberration in mammalian cells (OECD 473, Chromosome aberration in vitro): negative in V79 cells with and without metabolic activation
Read-across from Reaction mass of 2-(3,4-dimethyl-1H-pyrazol-1-yl)succinic acid and 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinic acid (CAS 2241455 -89 -8).
Link to relevant study records
- Endpoint:
- in vitro gene mutation study in bacteria
- Type of information:
- experimental study
- Adequacy of study:
- key study
- Study period:
- 16 May - 05 June 2019
- Reliability:
- 1 (reliable without restriction)
- Rationale for reliability incl. deficiencies:
- guideline study
- Qualifier:
- according to guideline
- Guideline:
- OECD Guideline 471 (Bacterial Reverse Mutation Assay)
- Version / remarks:
- adopted 21 July 1997
- Deviations:
- no
- Qualifier:
- according to guideline
- Guideline:
- EU Method B.13/14 (Mutagenicity - Reverse Mutation Test Using Bacteria)
- Version / remarks:
- 30 May 2008
- Deviations:
- no
- GLP compliance:
- yes (incl. QA statement)
- Remarks:
- Hess. Ministerium für Umwelt, Klimaschutz, Landwirtschaft und Verbraucherschutz, Wiesbaden, Germany
- Type of assay:
- bacterial reverse mutation assay
- Target gene:
- his operon (for S. typhimurium strains) and trp operon (for E. coli strain)
- Species / strain / cell type:
- S. typhimurium TA 1535, TA 1537, TA 98 and TA 100
- Species / strain / cell type:
- E. coli WP2 uvr A
- Metabolic activation:
- with and without
- Metabolic activation system:
- cofactor supplemented post-mitochondrial fraction (S9 mix), prepared from the livers of male rats treated with phenobarbital/beta-naphthoflavone
- Test concentrations with justification for top dose:
- First experiment: 3, 10, 33, 100, 333, 1000, 2500 and 5000 µg/plate with and without metabolic activation (tested up to the recommended maximum concentration)
Second experiment: 33, 100, 333, 1000, 2500 and 5000 µg/plate with and without metabolic activation (tested up to the recommended maximum concentration) - Vehicle / solvent:
- - Vehicle used: deionized water
- Justification for choice of vehicle: The solvent was chosen because of its solubility properties and its relative nontoxicity to the bacteria - Untreated negative controls:
- yes
- Negative solvent / vehicle controls:
- yes
- True negative controls:
- no
- Positive controls:
- yes
- Positive control substance:
- sodium azide
- methylmethanesulfonate
- other: 4-nitro-o-phenylene-diamine, (4-NOPD), 2-Aminoanthracene (2-AA)
- Details on test system and experimental conditions:
- METHOD OF APPLICATION: in agar plate incorporation (first experiment); preincubation (second experiment)
DURATION
- Preincubation period: 1 h
- Exposure duration: 48 h
NUMBER OF REPLICATIONS: triplicates each in two independent experiments
DETERMINATION OF CYTOTOXICITY
- Method: bacterial growth inhibition, reduction in the number of spontaneous revertants (below a factor of 0.5) or a clearing of the bacterial background lawn.
- Rationale for test conditions:
- In the pre-experiment the concentration range of the test item was 3 – 5000 µg/plate. The pre-experiment is reported as experiment I. Since no relevant toxic effects were observed
- Evaluation criteria:
- - A test item is considered as a mutagen if a biologically relevant increase in the number of revertants of twofold or above (strains TA 98, TA 100, and WP2 uvrA) or threefold or above (strains TA 1535 and TA 1537) the spontaneous mutation rate of the corresponding solvent control is observed.
- A dose dependent increase is considered biologically relevant if the threshold is reached or exceeded at one or more concentrations.
- An increase of revertant colonies equal or above the threshold at only one concentration is judged as biologically relevant if reproduced in an independent second experiment.
- A dose dependent increase in the number of revertant colonies below the threshold is regarded as an indication of a mutagenic potential if reproduced in an independent second experiment. However, whenever the colony counts remain within the historical range of negative and solvent controls such an increase is not considered biologically relevant - Statistics:
- Mean numbers of the revertant colonies of each concentration of each test system was calculated and compared to that of the solvent control.
- Key result
- Species / strain:
- S. typhimurium TA 1535
- Metabolic activation:
- with and without
- Genotoxicity:
- negative
- Cytotoxicity / choice of top concentrations:
- no cytotoxicity nor precipitates, but tested up to recommended limit concentrations
- Vehicle controls validity:
- valid
- Untreated negative controls validity:
- valid
- True negative controls validity:
- valid
- Positive controls validity:
- valid
- Key result
- Species / strain:
- S. typhimurium TA 1537
- Metabolic activation:
- with and without
- Genotoxicity:
- negative
- Cytotoxicity / choice of top concentrations:
- no cytotoxicity nor precipitates, but tested up to recommended limit concentrations
- Vehicle controls validity:
- valid
- Untreated negative controls validity:
- valid
- True negative controls validity:
- valid
- Positive controls validity:
- valid
- Key result
- Species / strain:
- S. typhimurium TA 98
- Metabolic activation:
- with and without
- Genotoxicity:
- negative
- Cytotoxicity / choice of top concentrations:
- no cytotoxicity nor precipitates, but tested up to recommended limit concentrations
- Vehicle controls validity:
- valid
- Untreated negative controls validity:
- valid
- True negative controls validity:
- valid
- Positive controls validity:
- valid
- Key result
- Species / strain:
- S. typhimurium TA 100
- Metabolic activation:
- with and without
- Genotoxicity:
- negative
- Cytotoxicity / choice of top concentrations:
- no cytotoxicity nor precipitates, but tested up to recommended limit concentrations
- Vehicle controls validity:
- valid
- Untreated negative controls validity:
- valid
- True negative controls validity:
- valid
- Positive controls validity:
- valid
- Key result
- Species / strain:
- E. coli WP2 uvr A
- Metabolic activation:
- with and without
- Genotoxicity:
- negative
- Cytotoxicity / choice of top concentrations:
- no cytotoxicity nor precipitates, but tested up to recommended limit concentrations
- Vehicle controls validity:
- valid
- Untreated negative controls validity:
- valid
- True negative controls validity:
- valid
- Positive controls validity:
- valid
- Additional information on results:
- ADDITIONAL INFORMATION ON CYTOTOXICITY:
No relevant effect on bacterial growth was observed in any strain at any test concentration. - Conclusions:
- Under the conditions of the conducted test the substance was not mutagenic in any of the five tester strains (TA 98, TA 100, TA 1535, TA 1537 and WP2 uvrA) tested with and without metabolic activation up to 5000 µg/plate.
- Endpoint:
- in vitro cytogenicity / chromosome aberration study in mammalian cells
- Type of information:
- read-across from supporting substance (structural analogue or surrogate)
- Adequacy of study:
- key study
- Justification for type of information:
- Refer to analogue justification provided in IUCLID section 13.
- Reason / purpose for cross-reference:
- read-across source
- Key result
- Species / strain:
- Chinese hamster lung fibroblasts (V79)
- Metabolic activation:
- with and without
- Genotoxicity:
- negative
- Cytotoxicity / choice of top concentrations:
- no cytotoxicity
- Vehicle controls validity:
- not applicable
- Untreated negative controls validity:
- valid
- Positive controls validity:
- valid
- Remarks on result:
- other:
- Remarks:
- source CAS 2241455-89-8
- Conclusions:
- The read-across approach is detailed in the analogue justification. The target and source substances are considered unlikely to differ in their in vitro genetic toxicity potential. Based on the results of the available chromosome aberration assay, the source substance (CAS 2241455-89-8) was not considered to induce chromosomal abrrations in Chinese hamster lung fibroblasts (V79). Applying the read-across approach, the target substance reaction mass of dipotassium 2-(3,4-dimethyl-1H-pyrazol-1-yl) succinate and dipotassium 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinate (EC 950-225-1) is expected to be non-clastogenic in the chromosome aberration assay.
- Endpoint:
- in vitro gene mutation study in mammalian cells
- Type of information:
- read-across from supporting substance (structural analogue or surrogate)
- Adequacy of study:
- key study
- Justification for type of information:
- refer to analogue justification provided in IUCLID section 13
- Reason / purpose for cross-reference:
- read-across source
- Key result
- Species / strain:
- mouse lymphoma L5178Y cells
- Metabolic activation:
- with
- Genotoxicity:
- negative
- Cytotoxicity / choice of top concentrations:
- no cytotoxicity nor precipitates, but tested up to recommended limit concentrations
- Vehicle controls validity:
- valid
- Untreated negative controls validity:
- not applicable
- Positive controls validity:
- valid
- Key result
- Species / strain:
- mouse lymphoma L5178Y cells
- Metabolic activation:
- without
- Genotoxicity:
- negative
- Cytotoxicity / choice of top concentrations:
- no cytotoxicity nor precipitates, but tested up to recommended limit concentrations
- Vehicle controls validity:
- valid
- Untreated negative controls validity:
- not applicable
- Positive controls validity:
- valid
- Remarks on result:
- other:
- Remarks:
- source CAS 2241455-89-8
- Conclusions:
- The read-across approach is detailed in the analogue justification. The target and source substances are considered unlikely to differ in their in vitro genetic toxicity potential. Based on the results of the available mouse lymphoma assay, the source substance, CAS 2241455-89-8 was not considered to be mutagenic. Applying the read-across approach, the target substance reaction mass of dipotassium 2-(3,4-dimethyl-1H-pyrazol-1-yl) succinate and dipotassium 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinate (EC 950-225-1) is not expected to be mutagenic in mouse lymphoma cells.
Referenceopen allclose all
Table 1: Summary Results Experiment I (plate incorporation)
|
Test Group |
Dose Level (per plate) |
Revertant Colony Counts (Mean ±SD) |
||||||
|
|
|
|
|
|
|
|
||
|
|
|
TA 1535 |
TA 1537 |
TA 98 |
TA 100 |
WP2 uvrA |
||
|
|
|
|
|
|
|
|
||
Without Activation |
Deionised water |
|
16 ± 4 |
10 ± 3 |
28 ± 2 |
106 ± 9 |
50 ± 3 |
||
Untreated |
|
11 ± 4 |
11 ± 1 |
33 ± 6 |
100 ± 8 |
55 ± 7 |
|||
Test item |
3 µg |
13 ± 4 |
12 ± 2 |
29 ± 12 |
94 ± 13 |
47 ± 18 |
|||
|
10 µg |
16 ± 2 |
11 ± 3 |
34 ± 10 |
104 ± 19 |
49 ± 10 |
|||
|
33 µg |
16 ± 4 |
10 ± 1 |
34 ± 8 |
93 ± 16 |
52 ± 3 |
|||
|
100 µg |
15 ± 5 |
10 ± 3 |
30 ± 3 |
99 ± 8 |
52 ± 15 |
|||
|
333 µg |
12 ± 2 |
6 ± 2 |
34 ± 5 |
92 ± 11 |
58 ± 10 |
|||
|
1000 µg |
11 ± 1 |
12 ± 4 |
32 ± 3 |
98 ± 12 |
53 ± 10 |
|||
|
2500 µg |
10 ± 1 |
11 ± 2 |
34 ± 11 |
93 ± 14 |
49 ± 9 |
|||
|
5000 µg |
16 ± 3 |
11 ± 1 |
37 ± 10 |
88 ± 3 |
57 ± 17 |
|||
NaN3 |
10 µg |
1119 ± 35 |
|
|
1542 ± 75 |
|
|||
4-NOPD |
10 µg |
|
|
405 ± 30 |
|
|
|||
4-NOPD |
50 µg |
|
73 ± 10 |
|
|
|
|||
MMS |
2.0 µL |
|
|
|
|
963 ± 28 |
|||
|
|
|
|
|
|
|
|
||
With Activation |
Deionised water |
|
11 ± 5 |
16 ± 4 |
35 ± 6 |
114 ± 12 |
55 ± 10 |
||
Untreated |
|
16 ± 4 |
16 ± 1 |
40 ± 12 |
116 ± 14 |
62 ± 1 |
|||
Test item |
3 µg |
9 ± 5 |
15 ± 4 |
45 ± 6 |
98 ± 13 |
51 ± 6 |
|||
|
10 µg |
11 ± 3 |
17 ± 7 |
36 ± 8 |
118 ± 16 |
54 ± 6 |
|||
|
33 µg |
11 ± 4 |
16 ± 4 |
40 ± 12 |
115 ± 10 |
56 ± 11 |
|||
|
100 µg |
10 ± 5 |
16 ± 1 |
40 ± 6 |
110 ± 6 |
56 ± 16 |
|||
|
333 µg |
13 ± 4 |
15 ± 2 |
43 ± 9 |
94 ± 12 |
58 ± 8 |
|||
|
1000 µg |
9 ± 3 |
20 ± 6 |
38 ± 3 |
96 ± 14 |
59 ± 7 |
|||
|
2500 µg |
10 ± 1 |
14 ± 6 |
41 ± 15 |
105 ± 26 |
61 ± 4 |
|||
|
5000 µg |
10 ± 4 |
18 ± 4 |
40 ± 7 |
85 ± 5 |
53 ± 5 |
|||
2-AA |
2.5 µg |
325 ± 24 |
417 ± 10 |
3168 ± 188 |
2727 ± 207 |
|
|||
2-AA |
10.0 µg |
|
|
|
|
306 ± 12 |
|||
|
|
|
|
|
|
|
|
||
NaN3 2-AA 4-NOPD MMS |
sodium azide 2-aminoanthracene 4-nitro-o-phenylene-diamine methyl methane sulfonate |
|
|||||||
Table 2: Summary Results Experiment II (pre incubation)
Metabolic Activation |
Test Group |
Dose Level (per plate) |
Revertant Colony Counts (Mean ±SD) |
||||||
|
|
|
|
|
|
|
|
||
|
|
|
TA 1535 |
TA 1537 |
TA 98 |
TA 100 |
WP2 uvrA |
||
|
|
|
|
|
|
|
|
||
Without Activation |
Deionionised water |
|
17 ± 6 |
15 ± 6 |
30 ± 4 |
102 ± 16 |
52 ± 9 |
||
Untreated |
|
15 ± 3 |
18 ± 1 |
36 ± 3 |
113 ± 16 |
55 ± 4 |
|||
Test item |
33 µg |
13 ± 3 |
14 ± 4 |
34 ± 9 |
122 ± 14 |
60 ± 7 |
|||
|
100 µg |
15 ± 4 |
16 ± 7 |
41 ± 2 |
108 ± 11 |
56 ± 10 |
|||
|
333 µg |
15 ± 0 |
15 ± 6 |
32 ± 8 |
106 ± 17 |
64 ± 5 |
|||
|
1000 µg |
14 ± 6 |
16 ± 3 |
31 ± 10 |
113 ± 9 |
61 ± 4 |
|||
|
2500 µg |
13 ± 4 |
17 ± 3 |
33 ± 2 |
116 ± 5 |
58 ± 9 |
|||
|
5000 µg |
16 ± 6 |
13 ± 3 |
33 ± 9 |
103 ± 11 |
56 ± 7 |
|||
NaN3 |
10 µg |
1290 ± 5 |
|
|
1603 ± 111 |
|
|||
4-NOPD |
10 µg |
|
|
447 ± 10 |
|
|
|||
4-NOPD |
50 µg |
|
86 ± 4 |
|
|
|
|||
MMS |
2.0 µL |
|
|
|
|
760 ± 31 |
|||
|
|
|
|
|
|
|
|
||
With Activation |
Deionionised water |
|
16 ± 4 |
17 ± 6 |
44 ± 8 |
110 ± 9 |
61 ± 4 |
||
Untreated |
|
10 ± 2 |
15 ± 2 |
46 ± 6 |
112 ± 3 |
63 ± 9 |
|||
Test item |
33 µg |
13 ± 1 |
16 ± 4 |
41 ± 14 |
108 ± 2 |
64 ± 17 |
|||
|
100 µg |
15 ± 7 |
16 ± 5 |
47 ± 6 |
103 ± 6 |
68 ± 9 |
|||
|
333 µg |
15 ± 6 |
15 ± 4 |
44 ± 5 |
110 ± 9 |
60 ± 3 |
|||
|
1000 µg |
12 ± 3 |
19 ± 4 |
48 ± 4 |
102 ± 1 |
61 ± 1 |
|||
|
2500 µg |
14 ± 2 |
16 ± 6 |
45 ± 3 |
95 ± 11 |
54 ± 6 |
|||
|
5000 µg |
13 ± 4 |
16 ± 4 |
47 ± 8 |
110 ± 3 |
59 ± 7 |
|||
2-AA |
2.5 µg |
308 ± 13 |
265 ± 6 |
2865 ± 116 |
3148 ± 186 |
|
|||
2-AA |
10.0 µg |
|
|
|
|
366 ± 1 |
|||
|
|
|
|
|
|
|
|
||
NaN3 2-AA 4-NOPD MMS |
sodium azide 2-aminoanthracene 4-nitro-o-phenylene-diamine methyl methane sulfonate |
|
|||||||
Table 3: Individual Results of Experiment I (Without metabolic activation)
Strain |
Compound |
Dose level per plate |
Mean revertants per plate |
Standard Deviation |
Ratio treated / solvent |
Individual revertant colony counts |
||
TA 1535 |
Test item |
3 µg |
13.3 |
3.8 |
0.8 |
15, 16, 9 |
||
|
|
10 µg |
15.7 |
1.5 |
1.0 |
16, 14, 17 |
||
|
|
33 µg |
15.7 |
4.2 |
1.0 |
19, 17, 11 |
||
|
|
100 µg |
14.7 |
5.1 |
0.9 |
9, 19, 16 |
||
|
|
333 µg |
12.0 |
2.0 |
0.7 |
12, 14, 10 |
||
|
|
1000 µg |
10.7 |
0.6 |
0.7 |
11, 11, 10 |
||
|
|
2500 µg |
10.3 |
0.6 |
0.6 |
10, 11, 10 |
||
|
|
5000 µg |
16.3 |
3.2 |
1.0 |
15, 20, 14 |
||
|
Deionised water |
|
16.3 |
4.0 |
|
14, 21, 14 |
||
|
Untreated Control |
|
11.0 |
4.0 |
|
7, 15, 11 |
||
|
|
|
|
|
|
|
||
TA 1537 |
Test item |
3 µg |
12.3 |
1.5 |
1.3 |
14, 12, 11 |
||
|
|
10 µg |
11.0 |
2.6 |
1.1 |
10, 9, 14 |
||
|
|
33 µg |
9.7 |
1.2 |
1.0 |
9, 11, 9 |
||
|
|
100 µg |
9.7 |
2.5 |
1.0 |
12, 7, 10 |
||
|
|
333 µg |
6.3 |
2.3 |
0.7 |
5, 9, 5 |
||
|
|
1000 µg |
12.0 |
4.4 |
1.2 |
7, 14, 15 |
||
|
|
2500 µg |
11.3 |
2.3 |
1.2 |
10, 10, 14 |
||
|
|
5000 µg |
10.7 |
0.6 |
1.1 |
11, 11, 10 |
||
|
Deionised water |
|
9.7 |
2.5 |
|
7, 12, 10 |
||
|
Untreated Control |
|
10.7 |
1.2 |
|
10, 12, 10 |
||
|
|
|
|
|
|
|
||
TA 98 |
Test item |
3 µg |
29.0 |
12.1 |
1.0 |
22, 22, 43 |
||
|
|
10 µg |
34.0 |
10.1 |
1.2 |
32, 25, 45 |
||
|
|
33 µg |
34.3 |
8.3 |
1.2 |
37, 25, 41 |
||
|
|
100 µg |
30.3 |
3.1 |
1.1 |
31, 27, 33 |
||
|
|
333 µg |
34.3 |
5.1 |
1.2 |
30, 33, 40 |
||
|
|
1000 µg |
31.7 |
2.9 |
1.1 |
30, 35, 30 |
||
|
|
2500 µg |
34.3 |
10.7 |
1.2 |
32, 46, 25 |
||
|
|
5000 µg |
37.3 |
10.0 |
1.3 |
26, 41, 45 |
||
|
Deionised water |
|
28.0 |
2.0 |
|
26, 30, 28 |
||
|
Untreated Control |
|
33.0 |
6.1 |
|
36, 26, 37 |
||
|
|
|
|
|
|
|
||
TA 100 |
Test item |
3 µg |
93.7 |
12.9 |
0.9 |
99, 79, 103 |
||
|
|
10 µg |
104.0 |
19.2 |
1.0 |
113, 117, 82 |
||
|
|
33 µg |
92.7 |
15.6 |
0.9 |
91, 109, 78 |
||
|
|
100 µg |
99.3 |
7.6 |
0.9 |
96, 108, 94 |
||
|
|
333 µg |
91.7 |
10.6 |
0.9 |
82, 103, 90 |
||
|
|
1000 µg |
98.0 |
12.2 |
0.9 |
106, 84, 104 |
||
|
|
2500 µg |
92.7 |
14.2 |
0.9 |
108, 80, 90 |
||
|
|
5000 µg |
87.7 |
2.5 |
0.8 |
88, 85, 90 |
||
|
Deionised water |
|
105.7 |
9.0 |
|
101, 116, 100 |
||
|
Untreated Control |
|
100.3 |
7.8 |
|
94, 98, 109 |
||
|
|
|
|
|
|
|
||
WP2 |
Test item |
3 µg |
47.0 |
18.2 |
0.9 |
68, 37, 36 |
||
uvrA |
|
10 µg |
49.3 |
10.0 |
1.0 |
38, 53, 57 |
||
|
|
33 µg |
52.0 |
2.6 |
1.0 |
49, 53, 54 |
||
|
|
100 µg |
52.0 |
15.1 |
1.0 |
69, 47, 40 |
||
|
|
333 µg |
57.7 |
10.1 |
1.2 |
47, 59, 67 |
||
|
|
1000 µg |
53.3 |
10.0 |
1.1 |
57, 42, 61 |
||
|
|
2500 µg |
49.0 |
8.5 |
1.0 |
41, 58, 48 |
||
|
|
5000 µg |
56.7 |
16.8 |
1.1 |
53, 75, 42 |
||
|
Deionised water |
|
50.0 |
2.6 |
|
47, 52, 51 |
||
|
Untreated Control |
|
54.7 |
7.0 |
|
48, 54, 62 |
||
|
|
|
|
|
|
|
||
TA 1535 |
NaN3 |
10 µg |
1119.3 |
35.2 |
68.5 |
1152, 1124, 1082 |
||
TA 1537 |
4-NOPD |
50 µg |
73.0 |
10.1 |
7.6 |
82, 62, 75 |
||
TA 98 |
4-NOPD |
10 µg |
405.3 |
29.8 |
14.5 |
425, 420, 371 |
||
TA 100 |
NaN3 |
10 µg |
1542.0 |
75.4 |
14.6 |
1629, 1500, 1497 |
||
WP2 uvrA |
MMS |
2.0 µL |
962.7 |
28.2 |
19.3 |
985, 972, 931 |
||
NaN3 4-NOPD MMS |
sodium azide 4-nitro-o-phenylene-diamine methyl methane sulfonate |
|||||||
Table 4: Individual Results of Experiment I (With metabolic activation)
Strain |
Compound |
Dose level per plate |
Mean revertants per plate |
Standard Deviation |
Ratio treated / solvent |
Individual revertant colony counts |
||||
TA 1535 |
Test item |
3 µg |
9.3 |
4.9 |
0.8 |
15, 6, 7 |
||||
|
|
10 µg |
11.3 |
2.5 |
1.0 |
11, 14, 9 |
||||
|
|
33 µg |
11.0 |
3.6 |
1.0 |
7, 14, 12 |
||||
|
|
100 µg |
9.7 |
4.6 |
0.9 |
7, 15, 7 |
||||
|
|
333 µg |
13.0 |
3.6 |
1.1 |
17, 10, 12 |
||||
|
|
1000 µg |
9.0 |
3.0 |
0.8 |
12, 6, 9 |
||||
|
|
2500 µg |
9.7 |
0.6 |
0.9 |
9, 10, 10 |
||||
|
|
5000 µg |
10.0 |
4.0 |
0.9 |
10, 14, 6 |
||||
|
Deionised water |
|
11.3 |
5.1 |
|
17, 10, 7 |
||||
|
Untreated Control |
|
15.7 |
4.2 |
|
17, 11, 19 |
||||
|
|
|
|
|
|
|
||||
TA 1537 |
Test item |
3 µg |
15.3 |
4.0 |
1.0 |
19, 16, 11 |
||||
|
|
10 µg |
17.0 |
7.0 |
1.1 |
9, 22, 20 |
||||
|
|
33 µg |
16.3 |
4.0 |
1.0 |
14, 21, 14 |
||||
|
|
100 µg |
16.0 |
1.0 |
1.0 |
17, 16, 15 |
||||
|
|
333 µg |
15.3 |
1.5 |
1.0 |
15, 14, 17 |
||||
|
|
1000 µg |
19.7 |
5.5 |
1.3 |
14, 25, 20 |
||||
|
|
2500 µg |
13.7 |
6.4 |
0.9 |
10, 10, 21 |
||||
|
|
5000 µg |
18.0 |
3.6 |
1.1 |
14, 19, 21 |
||||
|
Deionised water |
|
15.7 |
4.0 |
|
12, 20, 15 |
||||
|
Untreated Control |
|
15.7 |
1.2 |
|
17, 15, 15 |
||||
|
|
|
|
|
|
|
||||
TA 98 |
Test item |
3 µg |
45.0 |
6.1 |
1.3 |
41, 42, 52 |
||||
|
|
10 µg |
36.3 |
7.6 |
1.0 |
43, 38, 28 |
||||
|
|
33 µg |
39.7 |
12.4 |
1.1 |
32, 33, 54 |
||||
|
|
100 µg |
40.3 |
6.4 |
1.1 |
43, 45, 33 |
||||
|
|
333 µg |
42.7 |
9.3 |
1.2 |
47, 49, 32 |
||||
|
|
1000 µg |
37.7 |
2.5 |
1.1 |
38, 35, 40 |
||||
|
|
2500 µg |
41.0 |
14.7 |
1.2 |
58, 32, 33 |
||||
|
|
5000 µg |
40.0 |
7.0 |
1.1 |
47, 40, 33 |
||||
|
Deionised water |
|
35.3 |
5.9 |
|
31, 33, 42 |
||||
|
Untreated Control |
|
40.0 |
11.5 |
|
51, 28, 41 |
||||
|
|
|
|
|
|
|
||||
TA 100 |
Test item |
3 µg |
97.7 |
13.1 |
0.9 |
84, 99, 110 |
||||
|
|
10 µg |
117.7 |
15.6 |
1.0 |
134, 103, 116 |
||||
|
|
33 µg |
115.0 |
9.5 |
1.0 |
125, 106, 114 |
||||
|
|
100 µg |
109.7 |
5.5 |
1.0 |
110, 115, 104 |
||||
|
|
333 µg |
94.3 |
12.1 |
0.8 |
90, 85, 108 |
||||
|
|
1000 µg |
96.0 |
14.4 |
0.8 |
100, 108, 80 |
||||
|
|
2500 µg |
105.0 |
26.0 |
0.9 |
75, 121, 119 |
||||
|
|
5000 µg |
85.3 |
4.9 |
0.7 |
82, 91, 83 |
||||
|
Deionised water |
|
114.3 |
11.6 |
|
122, 120, 101 |
||||
|
Untreated Control |
|
116.0 |
13.7 |
|
113, 104, 131 |
||||
|
|
|
|
|
|
|
||||
WP2 |
Test item |
3 µg |
50.7 |
5.5 |
0.9 |
56, 51, 45 |
||||
uvrA |
|
10 µg |
53.7 |
5.9 |
1.0 |
56, 47, 58 |
||||
|
|
33 µg |
56.0 |
11.4 |
1.0 |
64, 61, 43 |
||||
|
|
100 µg |
55.7 |
15.9 |
1.0 |
74, 46, 47 |
||||
|
|
333 µg |
58.0 |
7.5 |
1.1 |
51, 66, 57 |
||||
|
|
1000 µg |
58.7 |
6.7 |
1.1 |
53, 66, 57 |
||||
|
|
2500 µg |
60.7 |
3.5 |
1.1 |
64, 57, 61 |
||||
|
|
5000 µg |
53.0 |
5.0 |
1.0 |
48, 58, 53 |
||||
|
Deionised water |
|
54.7 |
9.8 |
|
49, 66, 49 |
||||
|
Untreated Control |
|
62.3 |
0.6 |
|
63, 62, 62 |
||||
|
|
|
|
|
|
|
||||
TA 1535 |
2-AA |
2.5 µg |
325.0 |
23.6 |
28.7 |
345, 299, 331 |
||||
TA 1537 |
2-AA |
2.5 µg |
416.7 |
9.7 |
26.6 |
406, 419, 425 |
||||
TA 98 |
2-AA |
2.5 µg |
3168.3 |
188.3 |
89.7 |
3143, 2994, 3368 |
||||
TA 100 |
2-AA |
2.5 µg |
2726.7 |
207.1 |
23.8 |
2910, 2768, 2502 |
||||
WP2 uvrA |
2-AA |
10.0 µg |
306.3 |
11.6 |
5.6 |
312, 293, 314 |
||||
2-AA |
2-aminoanthracene |
|
||||||||
Table 5: Individual Results of Experiment II (Without metabolic activation)
Strain |
Compound |
Dose level per plate |
Mean revertants per plate |
Standard Deviation |
Ratio treated / solvent |
Individual revertant colony counts |
||
TA 1535 |
Test item |
33 µg |
12.7 |
3.2 |
0.7 |
14, 9, 15 |
||
|
|
100 µg |
15.0 |
4.0 |
0.9 |
11, 15, 19 |
||
|
|
333 µg |
15.0 |
0.0 |
0.9 |
15, 15, 15 |
||
|
|
1000 µg |
13.7 |
5.5 |
0.8 |
10, 20, 11 |
||
|
|
2500 µg |
13.0 |
3.6 |
0.8 |
12, 17, 10 |
||
|
|
5000 µg |
15.7 |
6.0 |
0.9 |
15, 22, 10 |
||
|
Deionised water |
|
17.0 |
6.2 |
|
22, 19, 10 |
||
|
Untreated Control |
|
14.7 |
2.5 |
|
12, 15, 17 |
||
|
|
|
|
|
|
|
||
TA 1537 |
Test item |
33 µg |
14.0 |
3.6 |
1.0 |
10, 15, 17 |
||
|
|
100 µg |
16.0 |
6.6 |
1.1 |
9, 22, 17 |
||
|
|
333 µg |
14.7 |
5.5 |
1.0 |
9, 15, 20 |
||
|
|
1000 µg |
16.3 |
2.5 |
1.1 |
19, 16, 14 |
||
|
|
2500 µg |
17.3 |
2.9 |
1.2 |
14, 19, 19 |
||
|
|
5000 µg |
12.7 |
3.2 |
0.9 |
9, 15, 14 |
||
|
Deionised water |
|
14.7 |
6.0 |
|
14, 9, 21 |
||
|
Untreated Control |
|
17.7 |
1.2 |
|
17, 19, 17 |
||
|
|
|
|
|
|
|
||
TA 98 |
Test item |
33 µg |
34.0 |
8.5 |
1.1 |
25, 42, 35 |
||
|
|
100 µg |
41.3 |
1.5 |
1.4 |
40, 43, 41 |
||
|
|
333 µg |
31.7 |
8.1 |
1.0 |
41, 26, 28 |
||
|
|
1000 µg |
31.3 |
9.8 |
1.0 |
20, 37, 37 |
||
|
|
2500 µg |
33.3 |
1.5 |
1.1 |
33, 32, 35 |
||
|
|
5000 µg |
33.3 |
9.3 |
1.1 |
36, 41, 23 |
||
|
Deionised water |
|
30.3 |
4.0 |
|
28, 35, 28 |
||
|
Untreated Control |
|
35.7 |
2.5 |
|
36, 33, 38 |
||
|
|
|
|
|
|
|
||
TA 100 |
Test item |
33 µg |
122.0 |
13.9 |
1.2 |
115, 138, 113 |
||
|
|
100 µg |
107.7 |
11.0 |
1.1 |
114, 114, 95 |
||
|
|
333 µg |
105.7 |
16.7 |
1.0 |
119, 87, 111 |
||
|
|
1000 µg |
113.3 |
8.6 |
1.1 |
104, 121, 115 |
||
|
|
2500 µg |
116.3 |
5.0 |
1.1 |
121, 111, 117 |
||
|
|
5000 µg |
103.3 |
11.2 |
1.0 |
113, 106, 91 |
||
|
Deionised water |
|
102.0 |
16.1 |
|
85, 104, 117 |
||
|
Untreated Control |
|
113.3 |
16.2 |
|
132, 104, 104 |
||
|
|
|
|
|
|
|
||
WP2 |
Test item |
33 µg |
60.3 |
7.0 |
1.2 |
53, 67, 61 |
||
uvrA |
|
100 µg |
56.0 |
10.0 |
1.1 |
66, 46, 56 |
||
|
|
333 µg |
64.0 |
5.0 |
1.2 |
59, 64, 69 |
||
|
|
1000 µg |
60.7 |
4.2 |
1.2 |
64, 56, 62 |
||
|
|
2500 µg |
57.7 |
9.3 |
1.1 |
62, 64, 47 |
||
|
|
5000 µg |
55.7 |
6.5 |
1.1 |
62, 56, 49 |
||
|
Deionised water |
|
51.7 |
9.1 |
|
45, 48, 62 |
||
|
Untreated Control |
|
54.7 |
4.0 |
|
59, 54, 51 |
||
|
|
|
|
|
|
|
||
TA 1535 |
NaN3 |
10 µg |
1290.0 |
5.2 |
75.9 |
1287, 1296, 1287 |
||
TA 1537 |
4-NOPD |
50 µg |
86.0 |
3.6 |
5.9 |
87, 89, 82 |
||
TA 98 |
4-NOPD |
10 µg |
447.3 |
10.2 |
14.7 |
443, 440, 459 |
||
TA 100 |
NaN3 |
10 µg |
1603.0 |
110.7 |
15.7 |
1710, 1489, 1610 |
||
WP2 uvrA |
MMS |
2.0 µL |
760.3 |
30.7 |
14.7 |
785, 726, 770 |
||
NaN3 4-NOPD MMS |
sodium azide 4-nitro-o-phenylene-diamine methyl methane sulfonate |
|||||||
Table 6: Individual Results of Experiment II (With metabolic activation)
Strain |
Compound |
Dose level per plate |
Mean revertants per plate |
Standard Deviation |
Ratio treated / solvent |
Individual revertant colony counts |
|||
TA 1535 |
Test item |
33 µg |
12.7 |
1.2 |
0.8 |
12, 14, 12 |
|||
|
|
100 µg |
15.3 |
6.5 |
1.0 |
9, 15, 22 |
|||
|
|
333 µg |
15.3 |
5.5 |
1.0 |
10, 15, 21 |
|||
|
|
1000 µg |
11.7 |
3.1 |
0.7 |
9, 15, 11 |
|||
|
|
2500 µg |
14.0 |
2.0 |
0.9 |
16, 12, 14 |
|||
|
|
5000 µg |
13.0 |
3.6 |
0.8 |
17, 10, 12 |
|||
|
Deionised water |
|
16.0 |
3.6 |
|
19, 12, 17 |
|||
|
Untreated Control |
|
10.3 |
1.5 |
|
9, 12, 10 |
|||
|
|
|
|
|
|
|
|||
TA 1537 |
Test item |
33 µg |
15.7 |
4.0 |
0.9 |
20, 12, 15 |
|||
|
|
100 µg |
16.3 |
4.5 |
1.0 |
16, 21, 12 |
|||
|
|
333 µg |
14.7 |
4.0 |
0.9 |
11, 19, 14 |
|||
|
|
1000 µg |
19.0 |
3.6 |
1.1 |
20, 15, 22 |
|||
|
|
2500 µg |
15.7 |
6.0 |
0.9 |
22, 10, 15 |
|||
|
|
5000 µg |
15.7 |
4.2 |
0.9 |
11, 19, 17 |
|||
|
Deionised water |
|
17.0 |
6.0 |
|
17, 23, 11 |
|||
|
Untreated Control |
|
15.3 |
1.5 |
|
15, 17, 14 |
|||
|
|
|
|
|
|
|
|||
TA 98 |
Test item |
33 µg |
41.3 |
13.6 |
0.9 |
43, 27, 54 |
|||
|
|
100 µg |
47.3 |
6.0 |
1.1 |
48, 53, 41 |
|||
|
|
333 µg |
43.7 |
4.9 |
1.0 |
47, 38, 46 |
|||
|
|
1000 µg |
48.3 |
4.2 |
1.1 |
45, 47, 53 |
|||
|
|
2500 µg |
45.3 |
2.5 |
1.0 |
48, 45, 43 |
|||
|
|
5000 µg |
46.7 |
7.8 |
1.1 |
38, 53, 49 |
|||
|
Deionised water |
|
43.7 |
8.1 |
|
51, 45, 35 |
|||
|
Untreated Control |
|
46.0 |
6.1 |
|
42, 53, 43 |
|||
|
|
|
|
|
|
|
|||
TA 100 |
Test item |
33 µg |
108.3 |
2.1 |
1.0 |
110, 106, 109 |
|||
|
|
100 µg |
103.3 |
5.8 |
0.9 |
100, 100, 110 |
|||
|
|
333 µg |
109.7 |
9.1 |
1.0 |
120, 103, 106 |
|||
|
|
1000 µg |
101.7 |
1.2 |
0.9 |
103, 101, 101 |
|||
|
|
2500 µg |
95.3 |
11.0 |
0.9 |
104, 99, 83 |
|||
|
|
5000 µg |
110.0 |
2.6 |
1.0 |
113, 108, 109 |
|||
|
Deionised water |
|
110.0 |
8.9 |
|
113, 100, 117 |
|||
|
Untreated Control |
|
112.0 |
2.6 |
|
110, 111, 115 |
|||
|
|
|
|
|
|
|
|||
WP2 |
Test item |
33 µg |
64.3 |
16.6 |
1.1 |
66, 47, 80 |
|||
uvrA |
|
100 µg |
68.0 |
8.7 |
1.1 |
78, 63, 63 |
|||
|
|
333 µg |
59.7 |
3.2 |
1.0 |
62, 61, 56 |
|||
|
|
1000 µg |
61.3 |
0.6 |
1.0 |
62, 61, 61 |
|||
|
|
2500 µg |
54.3 |
6.1 |
0.9 |
49, 53, 61 |
|||
|
|
5000 µg |
58.7 |
6.7 |
1.0 |
53, 66, 57 |
|||
|
Deionised water |
|
60.7 |
3.5 |
|
61, 64, 57 |
|||
|
Untreated Control |
|
63.3 |
8.7 |
|
61, 73, 56 |
|||
|
|
|
|
|
|
|
|||
TA 1535 |
2-AA |
2.5 µg |
307.7 |
13.4 |
19.2 |
323, 302, 298 |
|||
TA 1537 |
2-AA |
2.5 µg |
264.7 |
5.8 |
15.6 |
268, 268, 258 |
|||
TA 98 |
2-AA |
2.5 µg |
2864.7 |
116.5 |
65.6 |
2994, 2768, 2832 |
|||
TA 100 |
2-AA |
2.5 µg |
3147.7 |
186.5 |
28.6 |
3039, 3363, 3041 |
|||
WP2 uvrA |
2-AA |
10.0 µg |
366.3 |
1.2 |
6.0 |
365, 367, 367 |
|||
2-AA |
2-aminoanthracene |
||||||||
Endpoint conclusion
- Endpoint conclusion:
- no adverse effect observed (negative)
Genetic toxicity in vivo
Endpoint conclusion
- Endpoint conclusion:
- no study available
Additional information
Mutagenicity in bacteria
The in-vitro genetic toxicity of the Reaction mass of dipotassium 2-(3,4-dimethyl-1H-pyrazol-1-yl) succinate and dipotassium 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinate (EC 950-225-1) was assessed in a bacterial reverse mutation assay (Ames test) according to OECD TGuideline 471 and GLP criteria ( 2019). The mutagenic potential of the test substance was assessed in S. typhimurium tester strains TA 98, 100, 1535, 1537 and E.coli WP2uvra at concentrations up to 5000 µg/plate in 2 independent experiments (plate incorporation and pre-incubation method). The test substance did not induce an increase in reversions in any of the tested strains with or without metabolic activation. Cytotoxicity was not observed. The vehicle and positive controls proved the validity of the experiment. Thus the test substance Reaction mass of dipotassium 2-(3,4-dimethyl-1H-pyrazol-1-yl) succinate and dipotassium 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinate was not considered mutagenic in bacteria.
Justification for read-across
There are no experimental data available regarding the mutagenicity and cytogenicity in mammalian cells for Reaction mass of dipotassium 2-(3,4-dimethyl-1H-pyrazol-1-yl) succinate and dipotassium 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinate (EC 950-225-1). Thus, read-across from an appropriate analogue substance Reaction mass of 2-(3,4-dimethyl-1H-pyrazol-1-yl)succinic acid and 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinic acid (CAS 2241455-89-8) is conducted in accordance with Regulation (EC) No 1907/2006, Annex XI, 1.5 in order to fulfill the standard information requirements defined in Regulation (EC) No 1907/2006, Annex VIII, 8.4. . The read-across is based on common (bio)transformation compounds of source and target substance.A detailed justification for the analogue read-across approach is provided in the technical dossier (see IUCLID Section 13).
Mutagenicity in mammalian cells
The potential mutagenicity of the analogue substance Reaction mass of 2-(3,4-dimethyl-1H-pyrazol-1-yl)succinic acid and 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinic acid on the thymidine kinase, TK +/-, locus of the L5178Y mouse lymphoma cell line was assessed in a GLP-compliant study conducted according to OECD Guideline 476 (2013). No cytotoxicity was observed with or without S9-mix after treatment with up to 10 mM test substance for 4 h in a range-finding assay. In the main experiment L5178Y TK +/- mouse lymphoma cells were treated with the test material with and without metabolic activation system (S9 mix) in two independent experiments. Vehicle (RPMI medium + horse serum) and positive controls were included. In the first experiment, cells were exposed to the test material for 4 h in the presence and absence of S9 mix at concentrations of 0.1, 0.2, 0.5, 1.0, 2.5, 5.0, 7.5, and 10 mM. In the second experiment, cells were treated for 4 h with metabolic activation and for 24 h without metabolic activation at concentrations of 0.8, 2, 4, 6, 7, 8, 9, and 10 mM.
No cytotoxic effects were noted in the presence and absence of S9-mix. The test material did not induce any toxicologically significant concentration-related increases in the mutant frequency at any concentration, either with or without metabolic activation. No precipitation was observed up to the maximum concentration of 10 mM. The vehicle controls had acceptable mutant frequency values that were within the normal range for the L5178Y cell line at the TK +/- locus. The positive control items induced marked increases in the mutant frequency, demonstrating the sensitivity of the test system and the efficacy of the metabolic activation system.
The test material was thus considered to be non-mutagenic to L5178Y cells under the conditions of the test.
The target and source substances are considered unlikely to differ in their mutagenic potential in mammalian cells. Therefore, Reaction mass of dipotassium 2-(3,4-dimethyl-1H-pyrazol-1-yl) succinate and dipotassium 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinate (EC 950-225-1) was considered non-mutagenic to L5178Y cells.
Clastogenicity in vitro
Clastogenic effects of the analogue substance Reaction mass of 2-(3,4-dimethyl-1H-pyrazol-1-yl)succinic acid and 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinic acid were assessed in a chromosome aberration test in V79 cells conducted according to OECD Guideline 473 (2013). Chinese hamster fibroblasts (V79) were exposed to 0.16 - 10 mM or 0.31 - 10 mM test substance in the presence and in the absence of metabolic activation, respectively. For microscopic analysis 2.5, 5, and 10 mM (Experiment I and II without S9; Experiment I with S9) and 3, 6, and 10 mM (Experiment 2 with S9) were chosen.Positive and negative (medium) control cultures were included in each assay and historical control data were provided. No precipitation and no cytotoxicity was observed at any concentration.
In experiment I without metabolic activation the aberration rate of the negative control (1.5%) and all dose groups treated with the test item (2.5 mM and 10 mM 1% and 5 mM 2%) were within the historical control data of the testing facility (0.0% – 4.0%).
With metabolic activation, the aberration rates of the negative control (3.5%) and the treated dose groups 4 and 6 at 2.5 mM and 10 mM (2.0%) were within the historical controls. An increase of aberrant cells was noted at a concentration of 5.0 mM (5% chromosome aberration). Based on the increased single value in experiment I a clear assessment was not possible. To verify the observed effects an independent repetition of the experiment was performed (second experiment with and without metabolic activation).
In experiment II without metabolic activation the aberration rate of the negative control (1.5%) and all dose groups treated with the test item (2.5 mM (1.0%), 5.0 mM (0.0%) and 10 mM (2.5%)) were within the historical control data of the testing facility (0.0% – 4.0%). The number of aberrant cells found in the dose groups treated with the test item did not show a biologically relevant increase compared to the corresponding negative control. Herewith the increase of the aberration rate in experiment I was not confirmed in experiment II.
With metabolic activation the aberration rates of the negative control (2.5%) and all dose groups treated with the test item (3.0 mM and 6.0 mM (1.5%), and 10.0 mM (2.5%)) were within the historical control data of the testing facility (0.0% – 4.0%). The number of aberrant cells found in the dose groups treated with the test item did not show a biologically relevant increase compared to the corresponding negative control. In addition, no dose-response relationship was observed. Herewith the increase of the aberration rate in experiment I was not confirmed in experiment II.
EMS (400 and 900 µg/mL) and CPA (0.83 µg/mL) were used as positive controls and induced distinct and biologically relevant increases in cells with structural chromosomal aberrations, thus proving the ability of the test system to indicate potential clastogenic effects.
In conclusion, the test item is considered to be non-clastogenic under the conditions of the experiment.
The target and source substances are considered unlikely to differ in their clastogenic potential in mammalian cells. Therefore, Reaction mass of dipotassium 2-(3,4-dimethyl-1H-pyrazol-1-yl) succinate and dipotassium 2-(4,5-dimethyl-1H-pyrazol-1-yl)succinate (EC 950-225-1) was considered to be non-clastogenic.
Justification for classification or non-classification
The available and read-across data on genetic toxicity do not meet the criteria for classification according to Regulation (EC) 1272/2008, and are therefore conclusive but not sufficient for classification.
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