| Literature DB >> 31947568 |
Fiorella Meneghetti1, Patrizia Ferraboschi2, Paride Grisenti3, Shahrzad Reza Elahi2, Matteo Mori1, Samuele Ciceri2.
Abstract
Ergometrine and methylergometrine are two alkaloids that are used as maleate salts for the prevention and control of postpartum hemorrhage. Although the two molecules have been known for a long time, few and discordant crystallographic and NMR spectroscopic data are available in the literature. With the aim of providing more conclusive data, we performed a careful NMR study for the complete assignment of the 1H, 13C, and 15N NMR signals of ergometrine, methylergometrine, and their maleate salts. This information allowed for a better definition of their conformational equilibria. In addition, the stereochemistry and the intermolecular interactions in the solid state of the two maleate salts were deeply investigated by means of single-crystal X-ray diffraction, showing the capability of these derivatives to act as both hydrogen-bond donors and acceptors, and evidencing a correlation between the number of intermolecular interactions and their different solubility.Entities:
Keywords: 13C NMR; 15N NMR; 1H NMR; 9,10-unsaturated ergoline; X-ray analysis; alkaloids; ergot; oxytocic activity
Year: 2020 PMID: 31947568 PMCID: PMC7024318 DOI: 10.3390/molecules25020331
Source DB: PubMed Journal: Molecules ISSN: 1420-3049 Impact factor: 4.411
Figure 1Structure of ergoline (1).
Figure 2Structures of d-lysergic (2), d-isolysergic acid (3), ergometrine (4), methylergometrine (5), ergometrine maleate (6), and methylergometrine maleate (7).
1H NMR chemical shifts (ppm) a and coupling constants (Hz) b of compounds 4–7.
| 1H | 4 (DMSO- | 5 (DMSO- | 6 (D2O) | 7 (D2O) |
|---|---|---|---|---|
| H-1 | 10.69 (brs) | 10.70 (brs) | − | − |
| H-2 | 7.02 (brs) | 7.02 (brs, partially overlapped) | 7.15 (brs) | 7.16 (brs) |
| H-4α | 2.44 (overlapped) | 2.45 (overlapped) | 2.89 (brt, | 2.91 (brt, |
| H-4β | 3.46 (dd, | 3.46 (dd, | 3.69 (overlapped) | 3.73 (overlapped) |
| H-5β | 3.00–2.93 (m) | 3.00–2.93 (m) | 3.92 (br) | 3.99 (br) |
| H-7β | 2.50 (overlapped with DMSO) | 2.50 (overlapped with DMSO) | 3.47 (brt, 10.8) | 3.49 (brt, |
| H-7α | 3.00 (dd, | 3.02 (dd, | 3.77 (br) | 3.79 (br) |
| H-8α | 3.40–3.36 (m, overlapped) | 3.47–3.42 (m, overlapped) | 3.83 (br) | 3.89 (overlapped) |
| H-9 | 6.34 (brs) | 6.35 (brs) | 6.46 (brs) | 6.49 (brs) |
| H-12 | 7.04 (overlapped) | 7.03 (brdd, | 7.22 (d, | 7.23 (d, |
| H-13 | 7.06 (tripletoid m) | 7.06 (tripletoid m) | 7.26 (tripletoid m) | 7.27 (tripletoid m) |
| H-14 | 7.18 (dd, | 7.18 (dd, | 7.42 (d, | 7.43 (d, |
| N-CH3 | 2.44 (s) | 2.45 (s) | 3.11 (s) | 3.13 (s) |
| CH | 3.86–3.76 (m) | 3.71–3.62 (m) | 4.10-4.02 (m) | 3.94–3.84 (m) |
| CH3 | 1.05 (d, | 0.85 (t, | 1.21 (d, | 0.95 (t, |
| C | − | 1.39–1.26 (m) | − | 1.54–1.42 (m) |
| C | − | 1.66–1.53 (m) | − | 1.73–1.62 (m) |
| C | 3.32–3.25 (m) | 3.37–3.30 (m) | 3.61 (dd, | 3.63 (dd, |
| C | 3.43–3.36 (m) | 3.42–3.38 (m) | 3.71 (dd, | 3.73 (dd, |
| CH2O | 4.72 (brs) | 4.68 (t, | − | − |
| CON | 7.76 (d, | 7.69 (d, | − | − |
| CH=CH | − | − | 6.21 (s) | 6.23 (s) |
a Assignments from 1H–1H COSY, NOESY, and HSQC data. b Coupling constants were obtained by direct inspection of the spectra. Error in the measured 1H-1H coupling constants was ± 0.5 Hz.
13C NMR chemical shifts (ppm) a of compounds 4–7.
| 13C | 4 (DMSO- | 5 (DMSO- | 6 (D2O) | 7 (D2O) |
|---|---|---|---|---|
| C-2 | 119.2 | 119.2 | 121.5 | 121.5 |
| C-3 | 109.0 | 109.0 | 106.4 | 106.4 |
| C-4 | 26.8 | 26.8 | 24.8 | 24.7 |
| C-5 | 62.6 | 62.6 | 62.8 | 62.7 |
| C-7 | 55.5 | 55.7 | 54.1 | 54.1 (overlapped) |
| C-8 | 42.8 | 42.9 | 41.4 | 41.5 |
| C-9 | 120.3 | 120.4 | 118.7 | 118.7 |
| C-10 | 135.1 | 135.0 | 132.6 | 132.6 |
| C-11 | 127.4 | 127.5 | 125.1 | 125.2 |
| C-12 | 111.0 | 111.0 | 113.2 | 113.2 |
| C-13 | 122.2 | 122.3 | 124.0 | 124.0 |
| C-14 | 109.7 | 109.7 | 112.2 | 112.2 |
| C-15 | 133.8 | 133.9 | 134.3 | 134.3 |
| C-16 | 125.8 | 125.8 | 125.7 | 125.7 |
| N-CH3 | 43.4 | 43.4 | 42.1 | 42.0 |
| CH | 46.5 | 52.1 | 48.3 | 54.2 (overlapped) |
| CH3 | 17.2 | 10.5 | 16.5 | 10.3 |
| − | 23.7 | − | 24.0 | |
| CH2OH | 64.4 | 63.0 | 65.0 | 63.8 |
| CH=CH | − | − | 134.9 | 134.9 |
| COOH | − | − | 171.5 | 171.6 |
| CONH | 171.2 | 171.7 | 171.8 | 172.4 |
a Assignments from HSQC and HMBC data.
15N NMR chemical shifts (ppm) a of compounds 4–7.
| 4 (DMSO- | 5 (DMSO- | 6 (D2O) | 7 (D2O) | |
|---|---|---|---|---|
| N-1 | −251.1 (128.4) | −251.0 (128.5) | −253.3 (126.2) | −253.3 (126.2) |
| N-6 | −340.3 (39.2) | −340.2 (39.3) | −332.8 (46.7) | −332.7 (46.8) |
| CONH | −255.5 (124.0) | −258.1 (121.4) | −248.3 (131.2) | −251.4 (128.1) |
a Assignments from 1H-15N HMBC data using nitromethane as the external reference (CH3NO2 δ = 0.00 ppm). In parenthesis 15N chemical shifts referred to ammonia (δNH3 = −379.5 ppm respect to CH3NO2).
Figure 3Possible conformations of ergoline D-ring in solution.
Long range couplings of hydrogen with quaternary carbon atoms observed in the HMBC spectra of compounds 4–7.
| Quaternary Carbon | HMBC (C→H) | |
|---|---|---|
| 4 and 5 (DMSO- | 6 and 7 (D2O) | |
| C-3 | H-4α, H-4β, H-2, H-1 | H-4α, H-2 |
| C-10 | H-13, H-12, H-5, H-4α, H-4β | H-13, H-12, H-4α |
| C-11 | H-13, H-12, H-9 | H-13, H-9 |
| C-15 | H-14, H-13, H-2, H-1 | H-13, H-12, H-2 |
| C-16 | H-14, H-12, H-4β, H-2, H-1 | H-14, H-12, H-4α, H-2 |
Figure 4ORTEP drawings [19] of 6 (left) and 7 (right), with the arbitrary atom numbering (ellipsoids are at 40% probability and H atoms are represented as spheres of arbitrary radii).
Figure 5The dashed lines show the intermolecular contacts of 6 (above), viewed about along the a-axis, and of 7 (below), viewed about along the b-axis (only the hydrogens involved in the interactions are shown).
Hydrogen-bonds geometry of 6 and 7 (arbitrary atom-numbering scheme used in Figure 4).
| 6 | 7 | |||||
|---|---|---|---|---|---|---|
| H-Bond | H···A Distance (Å) | D···A Distance (Å) | D-H···A Angle (°) | H···A Distance (Å) | D···A Distance (Å) | D-H···A Angle (°) |
| N2-H···O3 | 1.8(1) | 2.7(1) | 176(1) | 1.8(1) | 3.2(1) | 168(1) |
| N1-H···O2 I | 2.9(1) | 3.5(1) | 140(1) | - | - | |
| C22-H···O6 II | 2.7(1) | 3.3(1) | 134(1) | 2.7(1)V | 3.3(1) | 130(1) |
| C21-H···O4 II | 2.8 (1) | 3.7(1) | 171(1) | - | - | |
| C21-H···O6 II | 2.7(1) | 3.4(1) | 132(1) | 2.6 (1) V | 3.3(1) | 133(1) |
| O2-H···O1 II | 2.2(1) | 2.8(1) | 131(1) | - | - | |
| N1-H···O1 III | 2.1(1) | 2.8(1) | 155(1) | - | - | |
| N3-H···O5 IV | 2.1(1) | 2.9(1) | 163(1) | 2.1(1) VI | 2.(1) | 172(1) |
Equivalent positions: I −x, y − ½, ½ − z; II x − 1, y, z; III 1 − x, y − ½, ½ − z; IV x − ½, ½ − y, −z; V x, y + 1, z; VI −x, y + ½, 1 − z.