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EC number: 213-149-3 | CAS number: 927-20-8
- Life Cycle description
- Uses advised against
- Endpoint summary
- Appearance / physical state / colour
- Melting point / freezing point
- Boiling point
- Density
- Particle size distribution (Granulometry)
- Vapour pressure
- Partition coefficient
- Water solubility
- Solubility in organic solvents / fat solubility
- Surface tension
- Flash point
- Auto flammability
- Flammability
- Explosiveness
- Oxidising properties
- Oxidation reduction potential
- Stability in organic solvents and identity of relevant degradation products
- Storage stability and reactivity towards container material
- Stability: thermal, sunlight, metals
- pH
- Dissociation constant
- Viscosity
- Additional physico-chemical information
- Additional physico-chemical properties of nanomaterials
- Nanomaterial agglomeration / aggregation
- Nanomaterial crystalline phase
- Nanomaterial crystallite and grain size
- Nanomaterial aspect ratio / shape
- Nanomaterial specific surface area
- Nanomaterial Zeta potential
- Nanomaterial surface chemistry
- Nanomaterial dustiness
- Nanomaterial porosity
- Nanomaterial pour density
- Nanomaterial photocatalytic activity
- Nanomaterial radical formation potential
- Nanomaterial catalytic activity
- Endpoint summary
- Stability
- Biodegradation
- Bioaccumulation
- Transport and distribution
- Environmental data
- Additional information on environmental fate and behaviour
- Ecotoxicological Summary
- Aquatic toxicity
- Endpoint summary
- Short-term toxicity to fish
- Long-term toxicity to fish
- Short-term toxicity to aquatic invertebrates
- Long-term toxicity to aquatic invertebrates
- Toxicity to aquatic algae and cyanobacteria
- Toxicity to aquatic plants other than algae
- Toxicity to microorganisms
- Endocrine disrupter testing in aquatic vertebrates – in vivo
- Toxicity to other aquatic organisms
- Sediment toxicity
- Terrestrial toxicity
- Biological effects monitoring
- Biotransformation and kinetics
- Additional ecotoxological information
- Toxicological Summary
- Toxicokinetics, metabolism and distribution
- Acute Toxicity
- Irritation / corrosion
- Sensitisation
- Repeated dose toxicity
- Genetic toxicity
- Carcinogenicity
- Toxicity to reproduction
- Specific investigations
- Exposure related observations in humans
- Toxic effects on livestock and pets
- Additional toxicological data
Skin sensitisation
Administrative data
- Endpoint:
- skin sensitisation: in vitro
- Remarks:
- Human Cell Line Activation Test (h-CLAT)
- Type of information:
- experimental study
- Adequacy of study:
- key study
- Study period:
- 2017
- Reliability:
- 1 (reliable without restriction)
- Rationale for reliability incl. deficiencies:
- other: Guideline-conform study under GLP without deviations
Data source
Reference
- Reference Type:
- study report
- Title:
- Unnamed
- Year:
- 2 017
- Report date:
- 2017
Materials and methods
Test guideline
- Qualifier:
- according to guideline
- Guideline:
- other: OECD Guideline 442E (In Vitro Skin Sensitisation: human Cell Line Activation Test (h-CLAT))
- Deviations:
- no
- GLP compliance:
- yes
- Type of study:
- activation of dendritic cells
Test material
- Reference substance name:
- Magnesium glycerophosphate
- EC Number:
- 213-149-3
- EC Name:
- Magnesium glycerophosphate
- Cas Number:
- 927-20-8
- Molecular formula:
- C3H9O6P.Mg
- IUPAC Name:
- magnesium glycerophosphate
- Test material form:
- solid: particulate/powder
- Details on test material:
- Batch: INVG003917
Constituent 1
- Specific details on test material used for the study:
- The test item was supplied by or on behalf of the Sponsor including the following information:
Identification: Magnesium glycerophosphate
Trade Name: Magna-C
Batch: INVG003917
CAS No.: 927-20-8
EC No.: 213-149-3
Purity: 96.5% (w/w) (calculated)*
Partition coefficient
(n-octanol/water):
log Pow: < -1.7
Water solubility: 79 g/L (20 °C)
Appearance: White powder
Expiry Date: 10 June 2021
Storage Conditions: At room temperature, light protected, protected from moisture
Stability in Solvent: Stable in water (not quantified)
Purpose of Use: Industrial chemical
* Dose calculation was not adjusted to purity.
In vitro test system
- Details on the study design:
- TEST ITEM PREPARATION
On the day of the experiment (immediately prior to start) Magnesium glycerophosphate was stable suspended/dispersed in culture medium.
The maximum concentration of test item was a stable suspension/dispersion of 100 mg/mL in culture medium, as tested by a solubility test.
For the XTT test (dose finding assay) eight concentrations of the test item were analysed. For this, dilutions were prepared by 1:2 serial dilutions from 5000 µg/mL culture medium.
TEST SYSTEM AND SUPPORTING INFORMATION
Reasons for the Choice of THP-1 Cells
THP-1 cells (Human monocytic leukemia cell line) were purchased from ATCC, #TIB-202. THP-1 cells are used as surrogate for human myeloid dendritic cells and show enhanced CD86 and/or CD54 expression when treated with sensitisers.
THP-1 Cell Cultures
Stocks of the THP-1 cell line are stored in liquid nitrogen in the cell bank of Envigo CRS GmbH (aliquots of cells in freezing medium at 1 106 to 2 106 cells/mL) allowing the repeated use of the same cell culture batch in experiments. Therefore, the parameters of the experiments remain similar, because of the reproducible characteristics of the cells. Thawed stock cultures are propagated at 37 ± 1.5 °C in plastic flasks. The cells are sub-cultured twice weekly. The cell density should not exceed 1 106 cells/mL. The THP-1 cell suspension is incubated at 37 ± 1.5 °C and 5.0 ± 0.5 % carbon dioxide atmosphere. Cells can be used up to two months after thawing (passage number should not exceed 30).
The passage numbers of the used THP-1 cells were 20 and 8 in the XTT assay and 10 and 15 in the h CLAT for runs 1 and 2, respectively.
Culture Medium
RPMI-1640 supplemented with 10 % FBS (v/v), 0.05 mM 2 mercaptoethanol, 4.5 g/L glucose, 1% (v/v) sodium pyruvate, 1% (v/v) L-glutamine and appropriate antibiotics (100 U/mL of penicillin and 100 µg/mL of streptomycin) is used to culture the cells during the assay. Medium with supplements has to be stored at 2 – 8 °C and used within one month. The culture medium has to be warmed to room temperature just before use.
Preparation and Seeding of THP-1 Cells
On the day of the cytotoxicity experiment (XTT) directly before the application of the test item, solvent and medium control, a volume of 100 µL with a cell density of 0.9 - 1 106 THP-1 cells/mL was seeded in each well of a 96-well flat bottom plate.
For the main experiment (h-CLAT) 0.9 - 1 106 cells/well in a volume of 500 µL were seeded in a 24-well plate before the treatment.
Experimental Design and Procedures of XTT
Dose Finding Assay (XTT Test)
The test item concentrations investigated in the main experiment (h-CLAT) were determined with two XTT tests.
The XTT test is based on the cleavage of the yellow tetrazolium salt XTT [= (sodium 3'-(1-phenylaminocarbonyl) - (3,4 - tetrazolium) – bis - (4 – methoxy – 6 - nitro) - benzenesulfonic acid hydrate)] to form an orange water soluble formazan dye by dehydrogenase activity in active mitochondria. This method was first described 1988 by SCUDIERO et al. and improved in subsequent years by several other investigators.
Two independent cytotoxicity experiments were performed with different cell cultures to obtain a reliable CV75. The CV75 could not be determined therefore the highest stable suspended/dispersed test item concentration was used to calculate the dose-range for the main experiment (h-CLAT).
XTT Labelling Mixture
The XTT labelling mixture consists of two components, a XTT buffer solution and the substrate solution. Both components were mixed right before application at a ratio of 1:100.
Treatment
After the cell seeding, 100 µL of the test item dilutions, the medium and solvent controls, respectively, were added to the cells. All dose groups were tested in 7 replicates for each XTT test. At the end of the incubation period of 24 ± 0.5 hours, the cell cultures were microscopically evaluated for morphological alterations.
XTT Labelling and Measurement
At the end of the incubation period, 50 µL of the XTT labelling mixture were added to each well. The cells were incubated and subsequently transferred to a microplate reader (Versamax® Molecular Devices). The absorbance was measured at 450 nm (reference wavelength 690 nm). The absorbance values were determined using the software SoftMax Pro Enterprise (version 4.7.1).
Evaluation of the XTT results
A decrease in number of living cells results in a decrease in the overall activity of mitochondrial dehydrogenases in the sample. This decrease directly correlates to the amount of orange formazan formed, as monitored by the absorbance. The relative absorbance (= viability in [%]) as compared to the solvent control is calculated.
Calculation of the h-CLAT Test Item Concentrations
Two independent cytotoxicity experiments were performed with different cell cultures to obtain a reliable CV75.
Since the CV75 could not be determined, a stock solution of the highest stable suspended/dispersed test item concentration was prepared and seven further concentrations of the test item were prepared by serial 1:1.2 dilution.
Acceptability of the Assay
The XTT test is considered to be acceptable if it meets the following criteria:
•mean absorbance of the medium control is ≥ 0.5
•mean viability of the solvent control is ≥ 90% in comparison to the medium control
Experimental Design and Procedures of h-CLAT
The test item was tested in two independent runs.
Treatment of the Cells
For the test item exposure the highest concentration of the XTT test was used instead of 1.2 × CV75, since no CV75 could be determined. Further 7 dilutions were prepared by serial 1:1.2 dilution. The dilutions were prepared freshly before each experiment.
Each volume (500 µL) of the dilutions of the test item, medium control, positive and DMSO control was added to the cells. The treated THP-1 cells were incubated for 24 ± 0.5 hours.
Each concentration of the test item, medium control, positive and DMSO control was prepared in triplicates for the different staining (with FITC-labelled anti-CD86, CD54 antibody or mouse IgG1).
Staining of the Cells
The triplicates of each test item-treated and not test item-treated cells were pooled and equally distributed into three sample tubes, collected by centrifugation (approx. 250 g, 5 min) and then washed twice with approx. 2 mL of FACS buffer (PBS with 0.1% (w/v) BSA). Thereafter, the cells were centrifuged, re-suspended and blocked with 600 µL of blocking solution at 2 8 °C (on ice) for approx. 15 min. After blocking, the cells were centrifuged and the cell pellets were re-suspended in 100 µL FACS buffer. The cells were stained with FITC-labelled anti-CD86, CD54 antibody or mouse IgG1 (isotype control).
All solutions were kept light protected at 2 - 8 °C or on ice during the staining and analysis procedures.
The cells with the different antibodies or the IgG1 were mixed and incubated light protected for 30 ± 5 min. at 2 - 8 °C (on ice).
Sample Preparation for Measurement
After staining with the antibodies, the cells were washed twice (2 8 °C) with 2 mL FACS buffer and re-suspended in a final volume of 2 mL/tube FACS buffer. At least 10 minutes before the flow cytometry acquisition, 5 µL of a 7-AAD solution were added.
Flow Cytometry Acquisition
Before using the flow cytometer (FACSCalibur, Becton Dickinson GmbH), the device was calibrated with appropriate beads in accordance with the manufacturer’s instructions.
The expression of cell surface antigens (CD54, CD86) was analysed by flow cytometry using the software Cellquest Pro 6.0. The FITC acquisition channel (FL-1) was set for the optimal detection of the FITC fluorescence signal, and the 7-AAD acquisition channel (FL-3) was set for the optimal detection of DNA-bound 7 AAD fluorescence signal.
Preparation of the acquisition
The following acquisition plots were prepared:
•2D plot consisting of FSC (Forward Scatter) versus SSC (Side Scatter)
•Histogram plot of each channel (FL-1 and FL-3, respectively)
The voltage of FSC and SSC was set with untreated cells to appropriate levels. FSC and SSC are not needed for the analysis, but the FSC/SSC plot was checked to make sure that a single population appears without contamination or excessive debris. The FL-1 and FL-3 voltage were set and compensate to appropriate position. The FL-1 voltage was set using the FITC labelled-mouse IgG1 medium-treated cells tube, as such that the MFI of control cells was set in the range between 1.0 and 4.0 (Geo Mean) and in the range between 3.0 and 4.0 (Geo Mean) with the FITC labelled CD54 medium-treated cells (FACSCalibur, Becton Dickinson GmbH).
The maintenance of the flow cytometer was in accordance with the manufacturer’s instructions. The process of washing was conducted very carefully since insoluble chemicals could flow into the flow line.
Acquisition
Dead cells were determined by staining with 7-AAD. Gating by FSC (forward scatter) and SSC (side scatter) was not done. A total of 10,000 living cells were analysed. Mean fluorescence intensity (MFI) of viable cells and viability for each sample were used for analysis. The other tubes were acquired without changing the settings of the cytometer. The MFI was recorded for each condition. The relative fluorescence intensity (RFI) was not calculated, if the cell viability was less than 50% (due to diffuse labelling of cytoplasmic structures that could be generated due to cell membrane destruction).
Data Analysis and Interpretation
Flow Cytometry Analysis
The RFI is used as an indicator of CD86 and CD54 expression, and is calculated as follows for each concentration of every chemical.
The cell viability of the h-CLAT experiment is calculated for each concentration of every chemical.
Acceptance Criteria
The following acceptance criteria should be met when using the h-CLAT method:
•Cell viability of medium control is adjusted to 100% and the cell viability of the DMSO control should be more than 90% in comparison to the medium control.
•In the solvent/vehicle control (i.e. DMSO), RFI values compared to the medium control of both CD86 and CD54 should not exceed the positive criteria (CD86 ≥ 150% and CD54 ≥ 200%).
•For both medium and solvent/vehicle controls (i.e. DMSO), the MFI ratio of CD86 and CD54 to isotype control should be > 105%.
•In the positive control (DNCB), RFI values of both CD86 and CD54 should meet the positive criteria (CD86 ≥ 150% and CD54 ≥ 200%) and the cell viability should be > 50% in at least one concentration of the two tested positive control concentrations.
•For the test chemical, the cell viability should be more than 50% in at least four tested concentrations in each run.
Negative results are acceptable only for test items exhibiting a cell viability of < 90% at the highest concentration tested (i.e. 1.2 × CV75). If the cell viability at 1.2 × CV75 is ≥ 90% the negative result should be discarded. In such case it is recommended to try to refine the dose selection by repeating the CV75 determination. It should be noted that when 5000 μg/mL in saline (or medium or other solvents/vehicles), 1000 μg/mL in DMSO or the highest soluble concentration is used as the maximal test concentration of a test chemical, a negative result is acceptable even if the cell viability > 90% (OECD 442E guideline).
Results and discussion
- Positive control results:
- Concurrent controls with DNCB ((2,4-dinitrochlorobenzene, CAS No.: 97-00-7) final concentration: 2 and 3 µg/mL, Purity ≥ 99%) in DMSO were used
In vitro / in chemico
Resultsopen allclose all
- Key result
- Parameter:
- other: RFI (%) CD 86 Antibody
- Value:
- 92.9
- Vehicle controls validity:
- valid
- Positive controls validity:
- valid
- Key result
- Parameter:
- other: RFI (%) CD 54 Antibody
- Value:
- 103.8
- Vehicle controls validity:
- valid
- Positive controls validity:
- valid
- Key result
- Run / experiment:
- other: all
- Parameter:
- other: cell viability
- Value:
- 93.7
- Vehicle controls validity:
- valid
- Positive controls validity:
- valid
Any other information on results incl. tables
Resultsof the Dose Finding Assay (XTT Test)
Results of the first XTT test for Test Item Magnesium glycerophosphate
|
Microscopic Evaluation |
Photometric Evaluation |
|||||
Test Group |
Concen-tration |
Cytotoxicity |
Mean Ab-sorbance* |
Standard-Deviation |
Chem. Blank |
Mean Ab-sorbance – Chemical Blank |
Absorbance in % of Solvent Control** |
Medium Control |
- |
no |
0.743 |
0.026 |
0.251 |
0.491 |
107.42 |
Solvent Control |
- |
no |
0.712 |
0.012 |
0.255 |
0.457 |
100.00 |
Test Item |
39.1 |
no |
0.730 |
0.016 |
0.247 |
0.484 |
105.75 |
78.1 |
no |
0.801 |
0.026 |
0.249 |
0.552 |
120.71 |
|
156.3 |
no |
0.793 |
0.019 |
0.248 |
0.546 |
119.32 |
|
312.5 |
no |
0.835 |
0.015 |
0.244 |
0.591 |
129.14 |
|
625 |
no |
0.809 |
0.021 |
0.246 |
0.563 |
123.04 |
|
1250 |
no |
0.818 |
0.025 |
0.239 |
0.580 |
126.77 |
|
2500 |
no |
0.700 |
0.036 |
0.219 |
0.481 |
105.15 |
|
5000 |
no |
0.686 |
0.035 |
0.209 |
0.478 |
104.44 |
* mean absorbance (absolute) of 7 wells
** relative absorbance [rounded values]
The mean viability of the solvent control in comparison to the medium control was 93.09%.
Due to the lack of cytotoxicity in the XTT test, a CV75 value could not be calculated.
Results of the second XTT test for Test Item Magnesium glycerophosphate
|
Microscopic Evaluation |
Photometric Evaluation |
|||||
Test Group |
Concen-tration |
Cytotoxicity |
Mean Ab-sorbance* |
Standard-Deviation |
Chem. Blank |
Mean Ab-sorbance – Chemical Blank |
Absorbance in % of Solvent Control** |
Medium Control |
- |
no |
0.553 |
0.036 |
0.216 |
0.337 |
91.78 |
Solvent Control |
- |
no |
0.588 |
0.084 |
0.220 |
0.367 |
100.00 |
Test Item |
39.1 |
no |
0.605 |
0.089 |
0.218 |
0.387 |
105.22 |
78.1 |
no |
0.587 |
0.059 |
0.233 |
0.354 |
96.33 |
|
156.3 |
no |
0.593 |
0.014 |
0.229 |
0.363 |
98.90 |
|
312.5 |
no |
0.583 |
0.013 |
0.229 |
0.354 |
96.39 |
|
625 |
no |
0.584 |
0.021 |
0.222 |
0.362 |
98.48 |
|
1250 |
no |
0.591 |
0.020 |
0.233 |
0.358 |
97.39 |
|
2500 |
no |
0.561 |
0.010 |
0.198 |
0.363 |
98.85 |
|
5000 |
no |
0.566 |
0.011 |
0.193 |
0.373 |
101.66 |
* mean absorbance (absolute) of 7 wells
** relative absorbance [rounded values]
The mean viability of the solvent control in comparison to the medium control was 108.95%.
Due to the lack of cytotoxicity in the XTT test, a CV75 value could not be calculated.
Results of the h-CLAT Test
Results of the first h-CLAT run for the Test Item Magnesium glycerophosphate
|
Concentration (µg/mL) |
RFI (%) |
RFI (%) |
Cell Viability (%) |
|
Medium Control |
- |
100.0 |
100.0 |
100.0 |
|
DMSO Control |
- |
100.0 |
100.0 |
100.0 |
|
Positive Control (DNCB) |
2.0 |
236.2* |
427.5* |
72.4 |
|
3.0 |
590.4* |
562.0* |
60.0 |
||
Test Item |
1395 |
92.4 |
107.8 |
90.8 |
|
1674 |
97.5 |
100.0 |
91.3 |
||
2009 |
102.5 |
113.8 |
93.3 |
||
2411 |
102.5 |
110.1 |
92.4 |
||
2894 |
139.8 |
95.0 |
94.0 |
||
3472 |
111.0 |
102.8 |
93.3 |
||
4167 |
132.2 |
109.2 |
92.7 |
||
5000 |
125.4 |
116.1 |
92.6 |
||
* RFI value of CD86 or CD54 fulfilled the positive criteria (CD86≥150% and CD54≥200%).
Results of the second h-CLAT run for the Test Item Magnesium glycerophosphate
|
Concentration (µg/mL) |
RFI (%) |
RFI (%) |
Cell Viability (%) |
|
Medium Control |
- |
100.0 |
100.0 |
100.0 |
|
DMSO Control |
- |
100.0 |
100.0 |
100.0 |
|
Positive Control (DNCB) |
2.0 |
322.0* |
863.5* |
68.1 |
|
3.0 |
581.7* |
814.6* |
61.2 |
||
Test Item |
1395 |
146.2 |
133.7 |
100.2 |
|
1674 |
147.4 |
125.7 |
99.5 |
||
2009 |
138.5 |
130.2 |
97.3 |
||
2411 |
111.5 |
92.6 |
93.7 |
||
2894 |
103.8 |
108.9 |
95.6 |
||
3472 |
125.6 |
108.4 |
98.6 |
||
4167 |
150.0 |
111.9 |
95.8 |
||
5000 |
189.7 |
117.8 |
94.9 |
||
* RFI value of CD86 or CD54 exceeded the positive criteria (CD86≥150% and CD54≥200%).
The individual raw data are included in Annex 1.
Applicant's summary and conclusion
- Interpretation of results:
- GHS criteria not met
- Conclusions:
- The test item Magnesium glycerophosphate with a log Pow of < -1.7 did not activate THP-1 cells up to a concentration of 5000 µg/mL under the test conditions of this study. Therefore the test item is considered negative for the third key event of the skin sensitisation Adverse Outcome Pathway (AOP).
- Executive summary:
This in vitroHuman Cell Line Activation Test (h-CLAT) was performed to assess the dendritic cell activation potential (third key event of a skin sensitization AOP) ofMagnesium glycerophosphatestable suspended/dispersed in culture medium when administered to THP-1 cells for 24 ± 0.5 hours. The highest test item concentration for the main experiment (h‑CLAT)of Magnesiumglycerophosphate was previously determined by two XTT tests.
Cytotoxic effects were not observed following incubation with the test item up to the highest tested concentration (5000 µg/mL). Due to the lack of cytotoxicity, a CV75 value could not be calculated. Therefore the OECD 442E guideline recommended maximal to be tested test item concentration (5000 µg/mL) was used for the h-CLAT runs.
The following concentrations of the test item (stable suspended/dispersed in culture medium) were tested in themain experiment (h-CLAT): 1395, 1674, 2009, 2411, 2894, 3472, 4167 and 5000 µg/mL
The test item with a log Pow of < -1.7 was tested in 2 independent runs. The RFI of CD86 and CD54 was not equal or greater than 150% and 200%, respectively at any dose in both runs. Therefore the h-CLAT prediction is considered negative for the tested test item in this h-CLAT.
In the DMSO control, RFI values compared to the medium control of both CD54 and CD86 did not exceed the positive criteria (CD54 ≥ 200% and CD86 ≥ 150%).The RFI values of the positive controls (DNCB) for CD54 and CD86 exceeded the positive criteria(CD54 ≥ 200% and CD86 ≥ 150%)and the cell viability was >50%. For details see Annex 2.
Further results of the testing battery (including e.g. DPRA, ARE-Nrf2 luciferase test method) based on the OECD adverse outcome pathway for the assessment of the skin sensitisation potential are not available. Therefore,consideration of the test method results within the context of an IATA (Integrated Approaches to Testing and Assessment) is not possible.
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