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Diss Factsheets

Administrative data

Endpoint:
skin sensitisation: in chemico
Type of information:
experimental study
Adequacy of study:
key study
Study period:
12.3.2018 - 16.3.2018
Reliability:
1 (reliable without restriction)
Rationale for reliability incl. deficiencies:
guideline study

Data source

Reference
Reference Type:
study report
Title:
Unnamed
Year:
2018
Report date:
2018

Materials and methods

Test guideline
Qualifier:
according to guideline
Guideline:
OECD Guideline 442C (In Chemico Skin Sensitisation: Direct Peptide Reactivity Assay (DPRA))
Deviations:
no
GLP compliance:
yes (incl. QA statement)
Type of study:
direct peptide reactivity assay (DPRA)
Justification for non-LLNA method:
non-animal test

Test material

Constituent 1
Chemical structure
Reference substance name:
2,4-dihydroxybenzoic acid
EC Number:
201-946-9
EC Name:
2,4-dihydroxybenzoic acid
Cas Number:
89-86-1
Molecular formula:
C7H6O4
IUPAC Name:
2,4-dihydroxybenzoic acid
Test material form:
solid

In chemico test system

Details on the study design:
HPLC conditions
Column: Agilent Zorbax SB-C18, 100x2.1 mm, 3.5µm
Precolumn: Phenomex security guard C18, 4.0 x 2.0 mm
Mobile phase A: 0.1% Trifluoracetic acid in water
Mobile phase B: 0.085% Trifluoracetic acid in acetonitrile
Time programmer: 0 min 10 % B
10 min 25 % B
11 min 90 % B
13 min 90 % B
13.5-20 min 10 % B
Column temperature: 30 °C
Sample temperature: 25°C
Flow rate: 0.35 mL/min
Injection volume: 10 μL
Detection: 220 nm (258 nm)

Results and discussion

In vitro / in chemico

Resultsopen allclose all
Key result
Run / experiment:
other: Replicate 1
Parameter:
other: % cystein depletion
Value:
1.4
Negative controls validity:
valid
Positive controls validity:
valid
Key result
Run / experiment:
other: Replicate 2
Parameter:
other: % cystein depletion
Value:
8.3
Negative controls validity:
valid
Positive controls validity:
valid
Key result
Run / experiment:
other: Replicate 3
Parameter:
other: % cystein depletion
Value:
13.5
Negative controls validity:
valid
Positive controls validity:
valid
Key result
Run / experiment:
other: Replicate 1
Parameter:
other: % lysine depletion
Value:
0
Negative controls validity:
valid
Positive controls validity:
valid
Key result
Run / experiment:
other: Replicate 2
Parameter:
other: % lysine depletion
Value:
0.6
Negative controls validity:
valid
Positive controls validity:
valid
Key result
Run / experiment:
other: Replicate 3
Parameter:
other: % lysine depletion
Value:
0.5
Negative controls validity:
valid
Positive controls validity:
valid
Other effects / acceptance of results:
System Suitability
A standard calibration curve was generated for both the Cysteine and the Lysine peptides.
Linearity was determined by mathematical treatment of results obtained by analysis of calibration solutions. These solutions were prepared from series dilution. The concentration interval of the calibration solutions was 0.534 – 0.01669 mM for each peptide.
Each prepared calibration solution was injected and analysed by HPLC with DAD detection.

Any other information on results incl. tables

Using 1 ml autosampler vials as container, was prepare the sample by adding the reagents in the quantity and order listed in Table No.1 and Table No.2.:

 

Table No.1: Cystein peptide, 1:10 Ratio

1:10 ratio, Cysteine peptide (0.5 mM Peptide, 5 mM test chemical)

750 µL Cysteine peptide solution (or 750 µL Phosphate buffer, pH= 7.5 for co-elution controls)

200 µL Acetonitrile

50 µL test chemical solution

or 50µL solvent (ACN) for reference controls

or 50 µL positive (negative) control solution for positive (negative) controls

 

Table No.2: Lysine peptide, 1:50 Ratio

1:50 ratio, Lysine peptide (0.5 mM Peptide, 25 mM test chemical)

750 µL Lysine peptide solution (or 750 µL Ammonium acetate buffer, pH= 10.2 for co-elution controls)

250 µL test chemical solution

or 250µL solvent (ACN) for reference controls

or 250 µL positive (negative) control solution for positive (negative) controls

 

The vials were closed, mixed and placed in the HPLC autosampler (dark) at 25 °C for 24 hours. Then, samples were visually inspected prior to HPLC analysis. Each test chemical was analysed in triplicate for both peptides.

Table No.4: Measured data of Reference control A

Reference control A

 

Cysteine peptide peak area at 220 nm

Cysteine peptideconcentration(mM)

Lysine peptide peak area at 220 nm

Lysine peptideconcentration(mM)

Replicate1

2784163

0.495

2940878

0.513

Replicate2

2905381

0.516

2993258

0.522

Replicate3

2897757

0.514

2979549

0.520

Mean

2862434

0.508

2971228

0.518

SD

67891

0.012

27163

0.005

CV

2.37

2.280

0.91

0.912

 

As a negative control, 1-butanolat a concentration of 100 mM in acetonitrilewas used. It was evaluated by peptide peak area at 220 nm of each control, peptide concentration (mM) and mean peptide concentration, SD and CV. The mean Percent peptide depletion value of three replicates for Cinnamic aldehyd and 1-butanol was calculated.

 

Table No.5: Measured data of Positive control

Positive control – Cynnamic aldehyd

 

Cysteine peptide peak area at 220 nm

Percent Cystein depletion %

Lysine peptide peak area at 220 nm

Percent Lysine depletion %

Replicate 1

810317

69.4

1070054

63.6

Replicate 2

700955

73.5

1048930

64.3

Replicate 3

717294

72.9

995839

66.1

Mean

742855

71.9

1038274

64.7

SD

58992

2.23

38238

1.30

CV

7.94

3.10

3.68

2.01

 

 Table No.6: Measured data of Negative control

Negative control – 1-butanol

 

Cysteine peptide peak area at 220 nm

Percent Cystein depletion %

Lysine peptide peak area at 220 nm

Percent Lysine depletion %

Replicate 1

2684674

0.00

2924106

0.48

Replicate 2

2672111

0.00

2930251

0.28

Replicate 3

2506260

5.20

2897810

1.38

Mean

2621015

1.73

2917389

0.71

SD

99579

3.00

17232

0.59

CV

3.80

173.21

0.59

82.22

 

Reference control B was made with acetonitrile and its replicates was injected in the beginning and in the end of experimental run to verify the stability of the peptide over analysis time.

Reference control C was made with acetonitrile (test item and positive, negative control were soluble in acetonitrile). Reference control C was used to calculate Percent peptide depletion to according formula.

It was evaluated by peptide peak area at 220 nm of each Reference control B and C in replicate, mean peptide peak area of the nine (in sum) reference controls B and C in acetonitrile, SD and CV, peptide concentration (mM) and mean peptide concentration, SD and CV.

Reference control C was made with mixture of acetonitrile and ultra pure water (1:1) (for test item; was soluble in this mixture). Reference control C was used to calculated Percent peptide depletion to according formula. It was evaluated by peptide peak area at 220 nm of each Reference C in replicate, mean peptide peak area, SD and CV, peptide concentration (mM) and mean peptide concentration, SD and CV.

 

Table No.7: Measured data of Reference control B

Reference control B

 

Cysteine peptide peak area at 220 nm

Cysteine peptideconcentration(mM)

Lysine peptide peak area at 220 nm

Lysine peptideconcentration(mM)

Replicate 1

2803587

0.498

2907195

0.507

Replicate 2

2741476

0.488

2980060

0.520

Replicate 3

2770753

0.493

2924438

0.510

Replicate 4

2611516

0.466

2938420

0.512

Replicate 5

2554622

0.456

2939514

0.513

Replicate 6

2629747

0.469

2978208

0.519

Mean

2685284

0.478

2944639

0.514

SD

100057

0.017

29177

0.005

CV

3.73

3.54

0.99

0.99

 

 Table No.8: Measured data of Reference control C with Acetonitrile

Reference control C

 

Cysteine peptide peak area at 220 nm

Cysteine peptideconcentration(mM)

Lysine peptide peak area at 220 nm

Lysine peptideconcentration(mM)

Replicate 1

2676251

0.477

2935475

0.512

Replicate 2

2670553

0.476

2957180

0.516

Replicate 3

2584788

0.461

2922384

0.510

Mean

2643864

0.471

2938346

0.513

SD

51241

0.009

17575

0.003

CV

1.94

1.90

0.60

0.60

 

CV of Cysteine peptide peak areas for nine Reference control B and C in acetonitrile is 3.21. CV of Lysine peptide peak areas for nine Reference control B and C in acetonitrile is 0.85.

 

Table No.9: Measured data of Reference control C with mixture of Acetonitrile and Ultra pure water (1:1)

Reference control C - Mixture

 

Cysteine peptide peak area at 220 nm

Cysteine peptideconcentration(mM)

Lysine peptide peak area at 220 nm

Lysine peptideconcentration(mM)

Replicate 1

2726192

0.485

2912707

0.508

Replicate 2

2617440

0.467

2924706

0.510

Replicate 3

2612946

0.466

2872484

0.501

Mean

2652193

0.473

2903299

0.506

SD

64125

0.011

27353

0.005

CV

2.42

2.26

0.94

0.93

 

  Table No.10: Measured data of peak purity indicator: area ratio 220/258

Reference control C - Mixture

2.4-Dihydroxybenzoic acid

Peak Area at 220 nm

Peak Area at 258 nm

Area ratio of 220/258

Peak Area at 220 nm

Peak Area at 258 nm

Area ratio of 220/258

Replicate 1

2726192

76913

35.4

2615626

129256

20.2

Replicate 2

2617440

73915

35.4

2430831

123488

19.7

Replicate 3

2612946

72583

36.0

2294237

113882

20.1

Mean

35.6

20.0

 

As can be seen from the above results of the co-elution between the test item and the Cysteine peptide, it has been demonstrated. 

Table No.12: Measured data of test item 2.4-Dihydroxybenzoic acid

2.4-Dihydroxybenzoic acid

 

Cysteine peptide peak area at 220 nm

Percent Cystein  depletionestimated%

Lysine peptide peak area at 220 nm

Percent Lysine depletion %

Replicate 1

2615626

1.4

2910999

0.0

Replicate 2

2430831

8.3

2886768

0.6

Replicate 3

2294237

13.5

2888139

0.5

Mean

2446898

7.7*

2895302

0.4

SD

161296

6.08

13611

0.32

CV

6.59

78.57

0.47

86.85

* Co-elution – Mean percent depletion estimated

Applicant's summary and conclusion

Interpretation of results:
study cannot be used for classification
Conclusions:
Test item 2.4-Dihydroxybenzoic acid coelutes with cysteine peptide. Data from the testing are inconclusive, DPRA prediction cannot be made.
Executive summary:

In a Direct Peptide Reactivity Assay (DPRA) according to OECD TG 442C all study acceptance criteria have not been successfully met.

 

The result of the assay is affected by the co-elution between the test item and Cysteine peptide.

Co-elution of chemical and peptide was explored by looking at the UV spectrum at 258 nm and was calculated the area ratio of 220/258. This value should be consistent over all samples and standards for pure peptide peak and thus gives a measure of peak purity. In this case, the value disables the possible co-elution. In cases where the test chemical co-elutes with the cysteine peptide and percent depletion can not be estimated, a determination of reactivity can not be made based on the percent depletion data from the lysine reaction alone. The data should be reported as "inconclusive". The lysine reactivity alone does not carry enough weight to drive a lysine-only prediction model.