Contemporary Accounts in Drug Discovery and Development. Группа авторов
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Table 3.2 Properties of the N‐substituted methyl carbamates 1, 3–9.
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Compound | R | cGMP formation MEC a (μM) | ClogD [37] pH 7.5 | In vitro clearance (rat hepatocytes) CLb (l/h/kg) |
1 |
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0.03 | 1.99 | 0.2 |
3 |
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0.2 | 2.29 | 0.7 |
4 |
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0.3 | 1.52 | 3.7 |
5 |
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0.1 | 2.21 | 0.4 |
6 |
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0.1 | 2.48 | 0.9 |
7 |
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0.1 | 3.15 | 3.2 |
8 |
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0.2 | 3.20 | 3.2 |
9 |
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0.7 | 3.29 | 2.4 |
a MEC, minimal effective concentration to achieve stimulation of cGMP formation (≥3‐fold increase in basal luminescence) in a recombinant sGC‐overexpressing cell line [36].
Summing up, the carbamate portion of the analogs tolerates various substituents with respect to sGC stimulation but seems to be a crucial region for influencing metabolic stability. All our different strategies, introduction of steric bulk, polarity and substitution by fluorine seemed to offer no promising path forward for optimizing in vitro clearance. Still, the N‐unsubstituted carbamate 10 appeared to be optimally constructed in this respect. Thus, the focus of the optimization strategy was shifted away from the carbamate moiety and our next efforts were directed to the central scaffold and the identification of alternative cores that could lead to a potentially superior overall pharmacokinetic profile (modifications summarized in Table 3.4).
Table 3.3 Properties of the N‐H alkyl carbamates 10–15.
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Compound | R | cGMP formation MECa (μM) | ClogD [37] pH 7.5 | In vitro clearance (rat hepatocytes) CLb (l/h/kg) | Caco‐2 Papp A–B (nm/s) (Efflux ratio) |
10 |
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0.3 | 1.49 | 0.1 | 79 (5) |
11 |
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0.8 | 2.10 | 0.9 | n.d.b |
12 |
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0.2 | 2.05 | 1.4 | 23 (25) |
13 |
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