Abstract
S1P1 (sphingosine-1-phosphate receptor 1) agonists prevent lymphocyte egress from secondary lymphoid organs and cause a reduction in the number of circulating blood lymphocytes. We hypothesized that S1P1 receptor modulators with pathway-selective signaling properties could help to further elucidate the molecular mechanisms involved in lymphocyte trapping. A proprietary S1P1 receptor modulator library was screened for compounds with clear potency differences in β-arrestin recruitment and G protein alpha i subunit (G αi) protein-mediated signaling. We describe here the structure-activity relationships of highly potent S1P1 modulators with apparent pathway selectivity for β-arrestin recruitment. The most differentiated compound, D3-2, displayed a 180-fold higher potency in the β-arrestin recruitment assay (EC50 0.9 nM) compared with the G αi-activation assay (167 nM), whereas ponesimod, a S1P1 modulator that is currently in advanced clinical development in multiple sclerosis, was equipotent in both assays (EC50 1.5 and 1.1 nM, respectively). Using these novel compounds as pharmacological tools, we showed that although a high potency in β-arrestin recruitment is required to fully internalize S1P1 receptors, the potency in inducing G αi signaling determines the rate of receptor internalization in vitro. In contrast to ponesimod, the compound D3-2 did not reduce the number or circulating lymphocytes in rats despite high plasma exposures. Thus, for rapid and maximal S1P1 receptor internalization a high potency in both G αi signaling and β-arrestin recruitment is mandatory and this translates into efficient reduction of the number of circulating lymphocytes in vivo.
Highlights
Sphingosine-1-phosphate (S1P) is a bioactive sphingolipid that causes pleiotropic cellular effects, including cell proliferation, migration, and survival, by acting as an intracellular or extracellular mediator
Lymphocyte egress from secondary lymphoid organs into lymph is dependent on their expression of S1P1 receptor that allows them to chemotax along the S1P gradient (Allende et al, 2004; Matloubian et al, 2004), which is formed by high S1P concentrations in blood and lymph and generally low concentrations in tissues (Spiegel and Milstien, 2003)
It has been shown that S1P1-deficient lymphocytes cannot egress from thymus or secondary lymphoid organs (Matloubian et al, 2004) and S1P1 heterozygous lymphocytes egress more slowly than wild-type lymphocytes (Lo et al, 2005)
Summary
Sphingosine-1-phosphate (S1P) is a bioactive sphingolipid that causes pleiotropic cellular effects, including cell proliferation, migration, and survival, by acting as an intracellular or extracellular mediator. Even though synthetic compounds activate S1P1 receptors, it has been suggested that they act as functional antagonists, causing rapid and sustained receptor internalization and degradation, abolishing the lymphocytes’ ability to sense and migrate along the S1P gradient (Hla and Brinkmann, 2011; Gatfield et al, 2014). This hypothesis is supported by the fact that S1P1 antagonists are able to induce lymphopenia in vivo (Tarrasón et al, 2011; Quancard et al, 2012). Previous reports had suggested S1P1 agonism to be a mechanism responsible for lymphocyte egress inhibition induced by synthetic agonists
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