Synthetic glucocorticoids (GC) are essential for the treatment of a broad range of inflammatory diseases. However, their use is limited by target related adverse effects on, e.g., glucose homeostasis and bone metabolism. Starting from a nonsteroidal GR ligand (4) that is a full agonist in reporter gene assays, we exploited key functional triggers within the receptor, generating a range of structurally diverse partial agonists. Of these, only a narrow subset exhibited full anti-inflammatory efficacy and a significantly reduced impact on adverse effect markers in human cell assays compared to prednisolone. This led to the discovery of AZD9567 (15) with excellent in vivo efficacy when dosed orally in a rat model of joint inflammation. Compound 15 is currently being evaluated in clinical trials comparing the efficacy and side effect markers with those of prednisolone.
The challenge of defining the concentration of unbound drug at the lung target site after inhalation limits the possibility to optimize target exposure by compound design. In this study, a novel rat lung slice methodology has been developed and applied to study drug uptake in lung tissue, and the mechanisms by which this occurs. Freshly prepared lung slices (500 μm) from drug-naive rats were incubated with drugs followed by determination of the unbound drug volume of distribution in lung (Vu,lung), as the total concentration of drug in slices divided by the buffer (unbound) concentration. Vu,lung determined for a set of inhaled drug compounds ranged from 2.21 mL/g for salbutamol to 2970 mL/g for dibasic compound A. Co-incubation with monensin, a modulator of lysosomal pH, resulted in inhibition of tissue uptake of basic propranolol to 13%, indicating extensive lysosomal trapping. Partitioning into cells was particularly high for the cation MPP+ and the dibasic compound A, likely because of the carrier-mediated transport and lysosomal trapping. The results show that different factors are important for tissue uptake and the presented method can be used for profiling of inhaled compounds, leading to a greater understanding of distribution and exposure of drug in the lung.
Inverse agonists of the nuclear receptor
RORC2 have been widely
pursued as a potential treatment for a variety of autoimmune diseases.
We have discovered a novel series of isoindoline-based inverse agonists
of the nuclear receptor RORC2, derived from our recently disclosed
RORC2 inverse agonist 2. Extensive structure–activity
relationship (SAR) studies resulted in AZD0284 (20),
which combined potent inhibition of IL-17A secretion from primary
human TH17 cells with excellent metabolic stability and
good PK in preclinical species. In two preclinical in vivo studies, compound 20 reduced thymocyte numbers in mice
and showed dose-dependent reduction of IL-17A containing γδ-T
cells and of IL-17A and IL-22 RNA in the imiquimod induced inflammation
model. Based on these data and a favorable safety profile, 20 was progressed to phase 1 clinical studies.
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