We have synthesized a series of non-macrocyclic ligands to FKBP12 that are comparable in binding potency and peptidyl prolyl isomerase (PPIase) inhibition to FK506 itself. We have also solved the structure of one of these ligands in complex with FKBP12, and have compared that structure to the FK506-FKBP 12 complex. Consistent with the observed inhibitory equipotency of these compounds, we observe a strong similarity in the conformation of the two ligands in the region of the protein that mediates PPIase activity. Our compounds, however, are not immunosuppressive. In the FKBP12-FK506 complex, a significant portion of the FK506 ligand, its 'effector domain', projects beyond the envelope of the binding protein in a manner that is suggestive of a potential interaction with a second protein, the calcium-dependent phosphatase, calcineurin, whose inhibition by the FKBP 12-FK506 complex interrupts the T-cell activation events leading to immunosuppression. In contrast, our compounds bind within the surface envelope of FKBP12, and induce significant changes in the structure of the FKBP12 protein which may also affect calcineurin binding indirectly.
Neurotrophic activity of neuroimmunophilin ligands (FK506 and its nonimmunosuppressant derivatives) has been assumed to be mediated by the FK506-binding protein-12 (FKBP-12). We recently showed that activity is retained in hippocampal neurons from FKBP-12 knockout mice, indicating that binding to FKBP-12 is not necessary. Here we show that three nonimmunosuppressant FK506 derivatives (V-13,450, V-13,629, and V-13,670) that do not bind FKBP-12 (>12.5 mM affinity) are equipotent to FKBP-12 ligands (FK506, V-10,367, and V-13,449) for increasing neurite elongation in SH-SY5Y cells. One non-FKBP-12 ligand (V-13,670) is also shown to accelerate functional recovery and nerve regeneration in the rat sciatic nerve crush model. Surprisingly, it exhibited an unusual dose-response effect upon oral administration, showing a novel bimodal dose-response for behavioral functional recovery and myelination, but not for axonal size, suggesting both Schwann cell and neuronal targets. Orally active non-FKBP-12 neuroimmunophilin ligands may be useful for the treatment of human neurological disorders without any potential side effects resulting from FKBP-12 binding.
The lymphocyte-specific kinase (Lck) is a cytoplasmic tyrosine kinase of the Src family expressed in T
cells and NK cells. Genetic evidence in both mice and humans demonstrates that Lck kinase activity is
critical for signaling mediated by the T cell receptor (TCR), which leads to normal T cell development and
activation. A small molecule inhibitor of Lck is expected to be useful in the treatment of T cell-mediated
autoimmune and inflammatory disorders and/or organ transplant rejection. In this paper, we describe the
synthesis, structure−activity relationships, and pharmacological characterization of 2-aminopyrimidine
carbamates, a new class of compounds with potent and selective inhibition of Lck. The most promising
compound of this series, 2,6-dimethylphenyl 2-((3,5-bis(methyloxy)-4-((3-(4-methyl-1-piperazinyl)propyl)oxy)phenyl)amino)-4-pyrimidinyl(2,4-bis(methyloxy)phenyl)carbamate (43) exhibits good activity when
evaluated in in vitro assays and in an in vivo model of T cell activation.
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