Vanessa Taylor

R406, an Orally Available Spleen Tyrosine Kinase Inhibitor Blocks Fc Receptor Signaling and Reduces Immune Complex-Mediated Inflammation

Recent compelling evidence has lead to renewed interest in the role of antibodies and immune complexes in the pathogenesis of several autoimmune disorders, such as rheumatoid arthritis. These immune complexes, consisting of autoantibodies to self-antigens, can mediate inflammatory responses largely through binding and activating the immunoglobulin Fc receptors (FcRs). Using cell-based structure activity relationships with cultured human mast cells, we have identified the small molecule R406 [N4-(2,2-dimethyl-3-oxo-4H-pyrid[1,4]oxazin-6-yl)-5-fluoro-N2-(3,4,5-trimethoxyphenyl)-2,4-pyrimidinediamine] as a potent inhibitor of immunoglobulin E (IgE)- and IgG-mediated activation of Fc receptor signaling (EC50 for degranulation = 56–64 nM). Here we show that the primary target for R406 is the spleen tyrosine kinase (Syk), which plays a key role in the signaling of activating Fc receptors and the B-cell receptor (BCR). R406 inhibited phosphorylation of Syk substrate linker for activation of T cells in mast cells and B-cell linker protein/SLP65 in B cells. R406 bound to the ATP binding pocket of Syk and inhibited its kinase activity as an ATP-competitive inhibitor (Ki = 30 nM). Furthermore, R406 blocked Syk-dependent FcR-mediated activation of monocytes/macrophages and neutrophils and BCR-mediated activation of B lymphocytes. R406 was selective as assessed using a large panel of Syk-independent cell-based assays representing both specific and general signaling pathways. Consistent with Syk inhibition, oral administration of R406 to mice reduced immune complex-mediated inflammation in a reverse-passive Arthus reaction and two antibody-induced arthritis models. Finally, we report a first-inhuman study showing that R406 is orally bioavailable, achieving exposures capable of inhibiting Syk-dependent IgE-mediated basophil activation. Collectively, the results show R406 potential for modulating Syk activity in human disease.

JAK3 Inhibition Significantly Attenuates Psoriasiform Skin Inflammation in CD18 Mutant PL/J Mice

JAK3, a member of the Janus kinase family, is predominantly expressed in hemopoietic cells and binds specifically to the common γ chain of a subfamily of cytokine receptors that includes IL-2, IL-4, IL-7, IL-9, IL-15, and IL-21. Previous studies suggest that this tyrosine kinase plays key roles in mediating T cell functions, and inhibition of JAK3 has been shown to prevent graft rejection and decrease the severity of arthritis in rodent models. However, the functions of JAK3 in the development of skin immune responses and diseases such as psoriasis have not been determined. CD18 mutant PL/J mice develop spontaneous T cell-dependent psoriasiform skin disease with several similarities to human psoriasis. In this study, we treated mice with established skin disease with R348, a small molecule inhibitor of JAK3, and observed a marked attenuation of skin lesions following 6 wk of treatment. Histological analyses revealed major reductions of both epidermal and dermal lesion severity scores in R348-treated CD18-deficient PL/J mice compared with vehicle controls, which was associated with decreased CD4+ T cell infiltration. In addition, systemic levels of IL-17, IL-22, IL-23, and TNF-α were significantly lower in mice receiving the compound, and T cells isolated from R348-treated mice also showed reduced phosphorylation of Stat5 after stimulation with IL-2. These findings suggest that small-molecule inhibitors of JAK3 may be useful in the treatment of inflammatory skin diseases such as psoriasis and strongly implicate JAK signaling events as important in the pathogenesis of this disease.

Preclinical characterization of Aurora kinase inhibitor R763/AS703569 identified through an image-based phenotypic screen

PurposeAurora kinases play a key role in mitotic progression. Over-expression of Aurora kinases is found in several human cancers and correlated with histological malignancy and clinical outcomes. Therefore, Aurora kinase inhibitors should be useful in the treatment of cancers.MethodsCell-based screening methods have an advantage over biochemical approaches because hits can be optimized to inhibit targets in the proper intracellular context. We developed a novel Aurora kinase inhibitor R763/AS703569 using an image-based phenotypic screen. The anti-proliferative effect was examined in a panel of tumor cell lines and primary cells. The efficacy was determined in a broad panel of xenograft models.ResultsR763/AS703569 inhibits Aurora kinases, along with a limited number of other kinases including FMS-related tyrosine kinase 3 (FLT3), and has potent anti-proliferative activity against many cell types accompanying unique phenotypic changes such as enlarged cell size, endoreduplication and apoptosis. The endoreduplication cycle induced by R763/AS703569 was irreversible even after the compound was withdrawn from the culture. Oral administration of R763/AS703569 demonstrated marked inhibition of tumor growth in xenograft models of pancreatic, breast, colon, ovarian, and lung tumors and leukemia. An acute myeloid leukemia cell line MV4-11, which carries a FLT3 internal tandem duplication mutation, is particularly sensitive to R763/AS703569 in vivo.ConclusionsR763/AS703569 is a potent inhibitor of Aurora kinases and exhibited significant anti-proliferative activity against a wide range of tumor cells both in vitro and in vivo. Inhibition of Aurora kinases has the potential to be a new addition to the treatment of cancers.

Novel Immunosuppression : R348, a JAK3-and Syk-Inhibitor Attenuates Acute Cardiac Allograft Rejection

Background. Janus kinase (JAK)3 is crucial for signal transduction downstream of various cytokine receptors in immune cells. This is the first report on the novel JAK3 inhibitor R348. Methods. (1) Detailed pharmacokinetic data were obtained in rats; (2) multiple in vitro enzyme inhibition assays were performed to characterize the drug; (3) prevention of acute rejection was investigated in animals treated with different doses of R348 or rapamycin for 5 days; and (4) cardiac allograft survival after a 10-day treatment period was studied for various regimens of R348, tacrolimus, or rapamycin; combination indices were calculated to evaluate drug interactions. Results. (1) Plasma levels of R348s active metabolite R333 sustained high for 8 hr or more, depending on the dose. (2) In vitro enzyme assays showed potent inhibition of JAK3- and Syk-dependent pathways. (3) R348 40 mg/kg preserved graft function, significantly reduced graft infiltration, and decreased histologic ISHLT rejection scores on postoperative day 5. Results were similar to those of rapamycin 3 mg/kg. Likewise, both drugs significantly reduced the cellular Th1 and Th2 immune responses, as determined by enzyme-linked immunosorbent assays. Intragraft inflammatory cytokine upregulation was similarly suppressed by R348 and rapamycin. R348 10 mg/kg was subtherapeutic. (4) Allograft survival was similar for R348 20 and 40 mg/kg, which was comparable with therapeutically dosed tacrolimus or rapamycin. In combination regimens, R348 demonstrated highly beneficial synergistic interactions with tacrolimus. Conclusions. R348 is a promising novel JAK3/Syk-inhibitor with favorable pharmacokinetics and biological activity. It effectively diminishes acute cardiac allograft rejection and is suitable for combination regimens with tacrolimus.

A novel role for p21-activated protein kinase 2 in T cell activation.

To identify novel components of the TCR signaling pathway, a large-scale retroviral-based functional screen was performed using CD69 expression as a marker for T cell activation. In addition to known regulators, two truncated forms of p21-activated kinase 2 (PAK2), PAK2ΔL1–224 and PAK2ΔS1–113, both lacking the kinase domain, were isolated in the T cell screen. The PAK2 truncation, PAK2ΔL, blocked Ag receptor-induced NFAT activation and TCR-mediated calcium flux in Jurkat T cells. However, it had minimal effect on PMA/ionomycin-induced CD69 up-regulation in Jurkat cells, on anti-IgM-mediated CD69 up-regulation in B cells, or on the migratory responses of resting T cells to chemoattractants. We show that PAK2 kinase activity is increased in response to TCR stimulation. Furthermore, a full-length kinase-inactive form of PAK2 blocked both TCR-induced CD69 up-regulation and NFAT activity in Jurkat cells, demonstrating that kinase activity is required for PAK2 function downstream of the TCR. We also generated a GFP-fused PAK2 truncation lacking the Cdc42/Rac interactive binding region domain, GFP-PAK283–149. We show that this construct binds directly to the kinase domain of PAK2 and inhibits anti-TCR-stimulated T cell activation. Finally, we demonstrate that, in primary T cells, dominant-negative PAK2 prevented anti-CD3/CD28-induced IL-2 production, and TCR-induced CD40 ligand expression, both key functions of activated T cells. Taken together, these results suggest a novel role for PAK2 as a positive regulator of T cell activation.

Janus kinase 1/3 signaling pathways are key initiators of TH2 differentiation and lung allergic responses

BACKGROUND Janus kinases (JAKs) are regulators of signaling through cytokine receptors. The importance of JAK1/3 signaling on TH2 differentiation and development of lung allergic responses has not been investigated. OBJECTIVE We sought to examine a selective JAK1/3 inhibitor (R256) on differentiation of TH subsets in vitro and on development of ovalbumin (OVA)-induced airway hyperresponsiveness (AHR) and inflammation in an experimental model of asthma. METHODS A selective JAK1/3 inhibitor was used to assay the importance of this pathway on induction of TH1, TH2, and TH17 differentiation in vitro. In vivo, the effects of inhibiting JAK1/3 signaling were examined by administering the inhibitor during the sensitization or allergen challenge phases in the primary challenge model or just before provocative challenge in the secondary challenge model. Airway inflammation and AHR were examined after the last airway challenge. RESULTS In vitro, R256 inhibited differentiation of TH2 but not TH1 or TH17 cells, which was associated with downregulation of signal transducer and activator of transcription (STAT) 6 and STAT5 phosphorylation. However, once polarized, TH2 cells were unaffected by the inhibitor. In vivo, R256 administered during the OVA sensitization phase prevented the development of AHR, airway eosinophilia, mucus hypersecretion, and TH2 cytokine production without changes in TH1 and TH17 cytokine levels, indicating that selective blockade of TH2 differentiation was critical. Inhibitor administration after OVA sensitization but during the challenge phases in the primary or secondary challenge models similarly suppressed AHR, airway eosinophilia, and mucus hypersecretion without any reduction in TH2 cytokine production, suggesting the inhibitory effects were downstream of TH2 cytokine receptor signaling pathways. CONCLUSIONS Targeting the TH2-dependent JAK/STAT activation pathway represents a novel therapeutic approach for the treatment of asthma.

Inhibition of Janus kinase signaling during controlled mechanical ventilation prevents ventilation-induced diaphragm dysfunction

Controlled mechanical ventilation (CMV) is associated with the development of diaphragm atrophy and contractile dysfunction, and respiratory muscle weakness is thought to contribute significantly to delayed weaning of patients. Therefore, therapeutic strategies for preventing these processes may have clinical benefit. The aim of the current study was to investigate the role of the Janus kinase (JAK)/signal transducer and activator of transcription 3 (STAT3) signaling pathway in CMV‐mediated diaphragm wasting and weakness in rats. CMV‐induced diaphragm atrophy and contractile dysfunction coincided with marked increases in STAT3 phosphorylation on both tyrosine 705 (Tyr705) and serine 727 (Ser727). STAT3 activation was accompanied by its translocation into mitochondria within diaphragm muscle and mitochondrial dysfunction. Inhibition of JAK signaling during CMV prevented phosphorylation of both target sites on STAT3, eliminated the accumulation of phosphorylated STAT3 within the mitochondria, and reversed the pathologic alterations in mitochondrial function, reduced oxidative stress in the diaphragm, and maintained normal diaphragm contractility. In addition, JAK inhibition during CMV blunted the activation of key proteolytic pathways in the diaphragm, as well as diaphragm atrophy. These findings implicate JAK/STAT3 signaling in the development of diaphragm muscle atrophy and dysfunction during CMV and suggest that the delayed extubation times associated with CMV can be prevented by inhibition of Janus kinase signaling.—Smith, I. J., Godinez, G. L., Singh, B. K., McCaughey, K. M., Alcantara, R. R., Gururaja, T., Ho, M. S., Nguyen, H. N., Friera, A. M., White, K. A., McLaughlin, J. R., Hansen, D., Romero, J. M., Baltgalvis, K. A., Claypool, M. D., Li, W., Lang, W., Yam, G. C., Gelman, M. S., Ding, R., Yung, S. L., Creger, D. P., Chen, Y., Singh, R., Smuder, A. J., Wiggs, M. P., Kwon, O.‐S., Sollanek, K. J., Powers, S. K., Masuda, E. S., Taylor, V. C., Payan, D. G., Kinoshita, T., Kinsella, T. M. Inhibition of Janus kinase signaling during controlled mechanical ventilation prevents ventilation‐induced diaphragm dysfunction. FASEB J. 28, 2790–2803 (2014). www.fasebj.org

Developmental toxicity associated with receptor tyrosine kinase Ret inhibition in reproductive toxicity testing.

BACKGROUND Urogenital abnormalities are among the most common of all human birth defects. In developmental toxicity studies with the Syk kinase inhibitor R788, a spectrum of findings, including renal agenesis, were observed. R788 has also been found to inhibit the receptor tyrosine kinase Ret. Ret kinase is known to be an essential component in the signaling pathway required for renal organogenesis and ureteric duct formation. Previously known is that mutant mice without the c-ret gene, develop urogenital malformations including renal agenesis. METHODS In GLP developmental toxicity studies, gravid rabbits were treated orally with R788 at doses of 0, 10, 22, and 50 mg/kg/day (gestation days 7-19) and gravid rats received 0, 5, 12.5, and 25 mg/kg/day (gestation days 6-17) by the same route. The activity of R406 against Ret kinase was assessed in biochemical and cell-based assays. RESULTS A dose-dependent increase in malformations, including renal and ureteric agenesis and a specific major vessel anomaly, retroesophageal right subclavian artery, was observed in both the rat and rabbit. R788 proved to be a potent inhibitor of Ret kinase. CONCLUSIONS R788 promoted a spectrum of developmental toxicity, including renal and ureteric agenesis and a specific major vessel abnormality, retroesophageal right subclavian artery, in two different species. These effects are likely the result of inhibition of Ret kinase given its importance in the normal ontogeny of the urogenital and cardiovascular systems across species.

A novel JAK3 inhibitor, R348, attenuates chronic airway allograft rejection.

Background. This study aimed at investigating the role of a novel JAK3 inhibitor, R348, in the prevention of chronic airway allograft rejection. Methods. The heterotopic rat trachea transplant model was used. Recipients were treated daily with R348 (10, 20, 40, 80 mg/kg) or rapamycin (0.75 or 3 mg/kg). Blood levels of R348 and of its active metabolite R333 were measured. Grafts were harvested after 28 days to analyze epithelial morphology, mononuclear infiltration, and luminal obliteration. Plasma levels of circulating donor strain-reactive IgG antibodies were quantified. Results. R348 was well tolerated at up to 40 mg/kg, but was toxic at 80 mg/kg. Blood levels of R333 at 2 and 24 hr were consistently 10 to 15 times higher than those of R348. Airway luminal obliteration after 28 days was significantly inhibited by R348 at 40 mg/kg (20.6%±13.2%, P<0.05) and 80 mg/kg (15.7%±7.6%, P<0.05) and by rapamycin at 3 mg/kg (11.6%±6.7% P<0.001) versus untreated controls (100%). R348 is more than or equal to 40 mg/kg but neither dose of rapamycin preserved the physiologic epithelial coverage with its prominent goblet cells population (8.8±1.5 goblet cells/&mgr;m circumference in syngeneic grafts and 8.0±0.9 and 4.3±1.2 with R348 80 mg/kg and 40 mg/kg, respectively). Peritracheal graft mononuclear infiltration was most effectively suppressed by R348 is more than or equal to 40 mg/kg (P<0.05) and rapamycin 3 mg/kg (P<0.01). Donor strain-reactive IgG antibodies were significantly decreased by R348 is more than or equal to 40 mg/kg (P≤0.05) and rapamycin 3 mg/kg (P<0.001). Animals treated with R348 is more than or equal to 40 mg/kg showed elevated alanine transferase (P<0.05), whereas hypercholesterolemia was only found in animals receiving rapamycin 3 mg/kg (P<0.05). Conclusions. R348 is an effective drug, and it is expected to be introduced into clinical transplant pharmacology soon.

Significant reduction of acute cardiac allograft rejection by selective janus kinase-1/3 inhibition using R507 and R545.

Background Selective inhibition of lymphocyte activation through abrogation of signal 3-cytokine transduction emerges as a new strategy for immunosuppression. This is the first report on the novel Janus kinase (JAK)1/3 inhibitors R507 and R545 for prevention of acute allograft rejection. Methods Pharmacokinetic and in vitro enzyme inhibition assays were performed to characterize the drugs. Heterotopic Brown Norway–Lewis heart transplantations were performed to study acute cardiac allograft rejection, graft survival, suppression of cellular host responsiveness, and antibody production. Therapeutic and subtherapeutic doses of R507 (60 and 15 mg/kg 2 times per day) and R545 (20 and 5 mg/kg 2 times per day) were compared with those of tacrolimus (Tac; 4 and 1 mg/kg once per day). Results Plasma levels of R507 and R545 were sustained high for several hours. Cell-based enzyme assays showed selective inhibition of JAK1/3-dependent pathways with 20-fold or greater selectivity over JAK2 and Tyrosine kinase 2 kinases. After heart transplantation, both JAK1/3 inhibitors reduced early mononuclear graft infiltration, even significantly more potent than Tac. Intragraft interferon-&ggr; release was significantly reduced by R507 and R545, and for interleukin-10 suppression, they were even significantly more potent than Tac. Both JAK1/3 inhibitors and Tac were similarly effective in reducing the host Th1 and Th2, but not Th17, responsiveness and similarly prevented donor-specific immunoglobulin M antibody production. Subtherapeutic and therapeutic R507 and R545 doses prolonged the mean graft survival and were similarly effective as 1 and 4 mg/kg Tac, respectively. In combination regimens, however, only R507 showed highly beneficial synergistic drug interactions with Tac. Conclusions Both R507 and R545 are potent novel immunosuppressants with favorable pharmacokinetics and high JAK1/3 selectivity, but only R507 synergistically interacts with Tac.