Preparation and Characterization of Cysteine Adducts of Deoxynivalenol
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1 Preparation and Characterization of Cysteine Adducts of Deoxynivalenol Ana Stanic, Silvio Uhlig, Anita Solhaug, Frode Rise, Alistair L. Wilkins, Christopher O. Miles S1
2 Figure S1. 1 H spectrum of 1 (DON) Figure S2. COSY NMR spectrum of 1 (DON) Figure S3. TOCSY NMR spectrum of 1 (DON) Figure S4. HSQC NMR spectrum of 1 (DON) Figure S5. HMBC NMR spectrum of 1 (DON) Figure S6. Selected HMBC area of 1 (DON) showing correlations from major and minor H-16 methyl singlets to C-8 ketone and hemiketal S9 Figure S7. ROESY NMR spectrum of 1 (DON) Figure S8. DEPT135 spectrum of 1 (DON). Figure S9. 13 C NMR spectrum of 1 (DON) Figure S10. 1 H NMR spectrum of 3 (DON Cys Michael adduct) Figure S C NMR spectrum of 3 (DON Cys Michael adduct) Figure S12. DEPT135 NMR spectrum of 3 (DON Cys Michael adduct) Figure S13. COSY NMR spectrum of 3 (DON Cys Michael adduct) Figure S14. TOCSY NMR spectrum of 3 (DON Cys Michael adduct) Figure S15. HSQC NMR spectrum of 3 (DON Cys Michael adduct) Figure S16. HMBC NMR spectrum of 3 (DON Cys Michael adduct) Figure S17. ROESY NMR spectrum of 3 (DON Cys Michael adduct) Figure S18. NOESY NMR spectrum of 3 (DON Cys Michael adduct) Figure S19. 1 H NMR spectrum of 2 (DON Cys epoxide conjugate) Figure S20. DEPT 135 NMR spectrum of 2 (DON Cys epoxide conjugate) Figure S21. COSY NMR spectrum of 2 (DON Cys epoxide conjugate) Figure S22. TOCSY NMR spectrum of 2 (DON Cys epoxide conjugate) Figure S23. HSQC NMR spectrum of 2 (DON Cys epoxide conjugate) Figure S24. HMBC NMR spectrum of 2 (DON Cys epoxide conjugate) Figure S25. ROESY NMR spectrum of 2 (DON Cys epoxide conjugate) Figure S26. Selected area of HMBC spectrum of 3 showing correlations from H-16 to hemiketal or ketone carbon Figure S27. Selected HMBC area of 2 (DON Cys epoxide conjugate) showing preserved double bond S30 Figure S28. Selected HMBC area of 2 (DON Cys epoxide conjugate) showing correlations between H-13 protons and attached cysteine, C-1 carbon. S31 Figure S29. Selected HMBC area of 3 (DON Cys Michael conjugate) showing correlations from attached cysteine C-1 atom to C-10 atom of DON and C-3, and C-2 S32 Figure S30. Selected HMBC area of 2 (DON Cys epoxide conjugate) showing correlations from H-16 of a major isomer to a hemiketal carbon C-8 and minor isomer to ketone carbon C -8 S33 Figure S31. Selected NOE correlations of 3a and 3b (DON Cys Michael conjugate) Figure S32. Selected NOE correlations of 2b (DON Cys epoxide adduct) S4 S5 S6 S7 S8 S10 S11 S12 S13 S14 S15 S16 S17 S18 S19 S20 S21 S22 S23 S24 S25 S26 S27 S28 S29 S34 S35 S2
3 Figure S33. Selected HMBC correlations of 3a and 3b (DON Cys Michael conjugates) S36 Figure S34. Selected HMBC correlations of 2b (DON Cys epoxide adduct) Table S1. HRMS data for DON (1), DON Cys adducts (2-4), DON-(Cys) 2 (7-10), 2- sulfoxide and 3-sulfoxide S38-39 Figure S35. Extracted ion chromatogram of 2 and 2-sulfoxides Figure S36. Extracted ion chromatogram of 3 and 3-sulfoxides Figure S37. HRMS 2 of 2-sulfoxides in negative mode Figure S38. HRMS 2 of sulfoxides-2 in positive mode Figure S39. HRMS 2 of 3-sulfoxides in positive mode Figure S40. HRMS 2 of 3-sulfoxides in negative mode Figure S41.Chemical structures of double adducts of DON Cys (7-10) Figure S42. Proposed fragmentation in negative mode of 2 Figure S43. Proposed fragmentation of 2 in positive mode Figure S44. Proposed fragmentation pathway of 3 in positive mode Figure S45. LC MS extracted ion chromatograms of m/z 539 in positive mode from the followed reaction of DON and cysteine S50 Figure S46. Reaction followed in negative mode, extracted ion chromatogram m/z S51 Figure S47. Reaction followed in negative mode, extracted ion chromatogram m/z 537, double adduct Figure S48. MS n (2-4) of 2 in positive mode Figure S49. MS n (2-4) of 2 in negative mode Figure S50. Proliferation of THP-1 monocytes after treatment with 2, 4 and 6 µm DON or 2 and 3 for 24, 48 and 72 hours S55 Figure S51. Extracted ion chromatograms showing DON Cys after being treated with H 2 O 2 Michael adduct, 3 and 3-sulfoxides and 3-sulfones S56 Figure S52. 3-D model of the hemiketal form of DON Cys Michael adduct 3b, showing correlations observed in the ROESY NMR spectrum S57 S37 S40 S41 S42 S43 S44 S45 S46 S47 S48 S49 S52 S53 S54 S3
4 Figure S1. 1 H NMR spectrum of 1 (DON). S4
5 Figure S2. COSY NMR spectrum of 1 (DON). S5
6 Figure S3. TOCSY NMR spectrum of 1 (DON). S6
7 Figure S4. HSQC NMR spectrum of 1 (DON). S7
8 Figure S5. HMBC NMR spectrum of 1 (DON). S8
9 Figure S6. Selected HMBC area of 1 (DON) showing correlations from major and minor H-16 methyl singlets to C-8 a ppm (ketone) and ppm (hemiketal). S9
10 Figure S7. ROESY NMR spectrum of 1 (DON). S10
11 Figure S8. DEPT135 NMR spectrum of 1 (DON); CH 3 and CH groups are in negative phase and CH 2 is in positive phase. S11
12 Figure S9. 13 C NMR spectrum of 1 (DON). S12
13 Figure S10. 1 H NMR spectrum of 3 (DON-Cys Michael adduct). S13
14 Figure S C NMR spectrum of 3 (DON-Cys Michael adduct). S14
15 Figure S12. DEPT135 NMR experiment, 13 C spectrum of 3 (DON Cys Michael adduct); CH 3 and CH groups are in positive phase and CH 2 is in negative phase. S15
16 Figure S13. COSY NMR spectrum of 3 (DON Cys Michael adduct). S16
17 Figure S14. TOCSY NMR spectrum of 3 (DON Cys Michael adduct). S17
18 Figure S15. HSQC NMR spectrum of 3 (DON Cys Michael adduct). S18
19
20 Figure S17. ROESY NMR spectrum of 3 (DON Cys Michael adduct). S20
21 Figure S18. NOESY NMR spectrum of 3 (DON Cys Michael adduct). S21
22 Figure S19. 1 H NMR spectrum of 2 (DON Cys epoxide adduct). S22
23 Figure S20. DEPT 135 NMR experiment, carbon spectrum of 2 (DON Cys epoxide adduct). S23
24 Figure S21. COSY NMR spectrum of 2 (DON Cys epoxide adduct). S24
25 Figure S22. TOCSY NMR spectrum of 2 (DON Cys epoxide adduct). S25
26 Figure S23. HSQC NMR spectrum of 2 (DON Cys epoxide adduct). S26
27 Figure S24. HMBC NMR spectrum of 2 (DON Cys epoxide adduct). S27
28 Figure S25. ROESY NMR spectrum of 2 (DON Cys epoxide adduct). S28
29 Figure S26. Selected area of HMBC spectrum of 3 showing correlations between H-16 to hemiketal or ketone (C-8) carbon. Red and blue colors are used to help distinguish between minor and major isomer, respectively. S29
30 Figure S27. Selected HMBC area of 2 (DON Cys epoxide adduct). Presence of the more downfield chemical shift of H-16 methyl group is the first indicator that the double bond is preserved. S30
31 Figure S28. Selected HMBC area of 2 (DON Cys epoxide adduct) showing correlations between H-13 protons and attached cysteine, C-1 carbon. S31
32 Figure S29. Selected HMBC area of 3 (DON Cys Michael adduct) showing correlations between attached cysteine C-1 atom to C-10 atom of DON and to carboxylic atom C-3, and C-2. Red and blue colors are used to help distinguish between minor and major isomer, respectively. S32
33 Figure S30. Selected HMBC area of 2 (DON Cys epoxide adduct) showing correlations from H-16 of a major isomer (green) to a hemiketal carbon C- 8 (104.2 ppm) and minor isomer (orange) to ketone carbon C-8 (201.4 ppm). S33
34 Figure S31. Selected NOE correlations of 3a and 3b (DON Cys Michael conjugate). Where methylene protons show NOE correlations to the same proton, the red colored arrow denotes the stronger of the two correlations. S34
35 Figure S32. Selected NOE correlations of 2b (DON Cys epoxide adduct). Where methylene protons show NOE correlations to the same proton, the red colored arrow denotes the stronger of the two correlations. S35
36 Figure S33. Selected HMBC correlations of 3a and 3b (DON Cys Michael conjugates). S36
37 Figure S34. Selected HMBC correlations of 2b (DON Cys epoxide adduct). S37
38 Table S1. HRMS data for DON (1), DON-Cys adducts (2-4), DON-(Cys) 2 (7-10), 2-sulfoxide and 3-sulfoxide COMPOUND ION ELEMENTAL COMPOSITION 1 a [M+HCOO] C 16 H 21 O 8 ACCURATE (measured) m/z DBE EXACT (theoretical) MASS ERROR (ppm) RETENTION TIME (min) [M+H] + C 18 H 28 O 8 NS a [M+H+Na] + C 18 H 27 O 8 NNaS [M+H+K] + C 18 H 27 O 8 NKS [M H] C 18 H 26 O 8 NS [M+H] + C 18 H 28 O 8 NS a [M+Na] + C 18 H 27 O 8 NNaS [M+2Na] + C 18 H 26 O 8 NNa 2 S [M+H] C 18 H 26 O 8 NS [M+H] + C 18 H 28 O 8 NS [M+H] C 18 H 26 O 8 NS [M+H] + + C 21 H 35 O 10 N 2 S 2 [M+Na] + + C 21 H 34 O 13 N 2 NaS 2 [M+H] - C 21 H 33 O 10 N 2 S 2 [M+H] + + C 21 H 35 O 10 N 2 S 2 [M+H] C 21 H 33 O 10 N 2 S 2 [M+H] + + C 21 H 35 O 10 N 2 S 2 [M+H] - C 21 H 33 O 10 N 2 S 2 [M+H] + + C 21 H 35 O 10 N 2 S 2 [M+H] - C 21 H 33 O 10 N 2 S S38
39 2-sulfoxide b 3-sulfoxide b [M+H] + C 18 H 28 O 9 NS [M+H] C 18 H 28 O 9 NS [M+H] + C 18 H 28 O 9 NS [M+H] C 18 H 28 O 9 NS [M+H] + C 18 H 28 O 9 NS [M+H] C 18 H 28 O 9 NS [M+H] + C 18 H 28 O 9 NS [M+H] C 18 H 28 O 9 NS [M+H] + C 18 H 28 O 9 NS [M+H] C 18 H 28 O 9 NS a 2 and 3 are equilibrating mixtures of the ketone-hemiketal. b NB compound 2-sulfoxide consist of 2 stereoisomers (Figure S35); compound 3-sulfoxide consist from 3 stereoisomers (Figure S36). DBE, double bond equivalents S39
40 Figure S35. Extracted ion LC HRMS chromatograms of exact masses corresponding to 2 (top) and 2-sulfoxides (bottom) in positive (left) and negative (right) mode. S40
41 Figure S36. Extracted ion LC HRMS chromatograms of exact masses corresponding to 3 (top) and 3-sulfoxides (bottom) in positive (left) and negative (right) mode S41
42 Figure S37. HRMS/MS of 2-sulfoxides in negative mode. The chromatogram on the top belongs to the fragmentation of the earlier eluting 2-sulfoxide, and the bottom chromatogram belongs to later eluting 2-sulfoxide (see Table S1, Figure S35). S42
43 Figure S38. HRMS/MS of sulfoxides-2 in positive mode. The chromatogram at the top belongs to the fragmentation of the earlier eluting 2-sulfoxide, and the chromatogram at the bottom belongs to the later eluting 2-sulfoxide (see Table S1, Figure S35). S43
44 Figure S39. HRMS/MS of 3-sulfoxides in positive mode. The chromatogram at the top belongs to the fragmentation of the earlier eluting 3-sulfoxide, and the chromatogram at the bottom belongs to the later eluting 3-sulfoxide (see Table S1, Figure S36). S44
45 Figure S40. HRMS/MS of 3-sulfoxides in negative mode. The chromatogram at the top belongs to the fragmentation of the earliest eluting 3- sulfoxide, and the chromatogram at the bottom belongs to the later eluting 3-sulfoxide (see Table S1, Figure S36). S45
46 Figure S41.Chemical structures of the double adducts of DON Cys (7-10). S46
47 Figure S42. Proposed fragmentation in negative mode of 2. Accurate masses were measured using LC HRMS/MS (Method 2A and Gradient 1). S47
48 Figure S43. Proposed fragmentation of 2 in positive mode. Accurate mass was measured using LC HRMS/MS (Method 2A and Gradient 1). S48
49 HO HO O NH 3 + O H + H + HO O S OH H O H O OH HO O S OH H O H O OH HO O OH H O H O OH ChemicalFormula:C 18 H 28 NO 8 S + Accurate Mass: ppm ChemicalFormula:C 18 H 25 O 8 S + Accurate Mass: ppm ChemicalFormula:C 15 H 21 O 6 + Accurate Mass: ppm H O H OH H + O O ChemicalFormula:C 14 H 17 O 4 + Accurate Mass: ppm Figure S44. Proposed fragmentation pathway of 3 in positive mode. Accurate mass was measured using LC HRMS/MS (Method 2A and Gradient 1). S49
50 Figure S45. LC MS extracted ion chromatograms (positive mode, m/z 539) at the specified values of m/z for double-adducts of DON after reaction with cysteine at ph S50
51 Figure S46. LC MS (Method 1A, Gradient 1) extracted ion chromatograms (negative mode, m/z 416) at the specified values of m/z for single adducts of DON after reaction with cysteine at ph S51
52 Figure S47. LC MS (Method 1A, Gradient 1) extracted ion chromatograms (negative mode, m/z 537) at the specified values of m/z for double adducts of DON after reaction with cysteine at ph S52
53 Figure S48. MS n (n = 2 4) of 2 in positive mode (Method 1, Gradient 1). S53
54 Figure S49. MS n (n = 2 4) of 2 in negative mode (Method 1, Gradient 1). S54
55 Figure S50. Proliferation of THP-1 monocytes after treatment with 2, 4 and 6 µm DON (A) or 2, DON Cys epoxide adduct (B) and 3, DON Cys Michael adduct (C) for 24, 48 and 72 hours measured by Alamar Blue. Data represent the arithmetic mean ± SD of 3 independent incubations. The asterisk indicates measurements that were significantly different from the control (1-way- ANOVA with Dunnett's post-test, p <0.05). S55
56 Figure S51. LC MS extracted ion chromatograms showing DON Cys Michael adduct 3 (m/z , C 18 H 28 O 8 NS +, 1.5 ppm) after being treated with H 2 O 2 and formation of 3-sulfoxides (m/z , C 18 H 28 O 9 NS +, 1.2 ppm) and 3-sulfones (m/z , C 18 H 28 O 10 NS +, -1.1 ppm). S56
57 Figure S52. 3-Dimensional model of the hemiketal form of DON Cys Michael adduct 3b, showing correlations observed in the ROESY NMR spectrum that confirm addition of the cysteine thiol at C- 10 and establishing the stereochemistry at C-9 and C-10. The four pairs of pro-s and pro-r methylene protons are labeled in blue text as S and R, respectively. S57
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