Craig R. Kent scite author profile

Because of its requirement for signaling by multiple cytokines, Janus kinase 3 (JAK3) is an excellent target for clinical immunosuppression. We report the development of a specific, orally active inhibitor of JAK3, CP-690,550, that significantly prolonged survival in a murine model of heart transplantation and in cynomolgus monkeys receiving kidney transplants. CP-690,550 treatment was not associated with hypertension, hyperlipidemia, or lymphoproliferative disease. On the basis of these preclinical results, we believe JAK3 blockade by CP-690,550 has potential for therapeutically desirable immunosuppression in human organ transplantation and in other clinical settings.

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Discovery of CP-690,550: A Potent and Selective Janus Kinase (JAK) Inhibitor for the Treatment of Autoimmune Diseases and Organ Transplant Rejection

Flanagan

et al. 2010

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There is a critical need for safer and more convenient treatments for organ transplant rejection and autoimmune disorders such as rheumatoid arthritis. Janus tyrosine kinases (JAK1, JAK3) are expressed in lymphoid cells and are involved in the signaling of multiple cytokines important for various T cell functions. Blockade of the JAK1/JAK3-STAT pathway with a small molecule was anticipated to provide therapeutic immunosuppression/immunomodulation. The Pfizer compound library was screened against the catalytic domain of JAK3 resulting in the identification of a pyrrolopyrimidine-based series of inhibitors represented by CP-352,664 (2a). Synthetic analogues of 2a were screened against the JAK enzymes and evaluated in an IL-2 induced T cell blast proliferation assay. Select compounds were evaluated in rodent efficacy models of allograft rejection and destructive inflammatory arthritis. Optimization within this chemical series led to identification of CP-690,550 1, a potential first-in-class JAK inhibitor for treatment of autoimmune diseases and organ transplant rejection.

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The specificity of JAK3 kinase inhibitors

Changelian

Moshinsky

Kuhn

et al. 2008

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PF-956980 is a selective inhibitor of JAK3, related in structure to CP-690550, a compound being evaluated in clinical trials for rheumatoid arthritis and prevention of allograft rejection. PF-956980 has been evaluated against a panel of 30 kinases, and found to have nanomolar potency against only JAK3. Cellular and whole blood activity of this compound parallels its potency and selectivity in enzyme assays. It was effective in vivo at inhibiting the delayed type hypersensivity reaction in mice. We compared 2 commercially available JAK3 inhibitors (WHI-P131 and WHI-P154) in the same panel of biochemical and cellular assays and found them to be neither potent nor selective for JAK3. Both were found to be nanomolar inhibitors of the EGF receptor family of kinases. As these compounds have been used in numerous publications in the transplant and autoimmune disease literature, their specificity should be considered when interpreting these results.

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Regulation of proline utilization in Salmonella typhimurium: Molecular characterization of the put operon, and DNA sequence of the put control region

et al. 1988

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The two genes required for proline utilization (put) in Salmonella typhimurium form a divergent operon. Extensive genetic evidence suggests that transcription of the put operon is autoregulated by the putA gene product, a membrane-associated dehydrogenase. In order to understand the mechanism of regulation, we characterized plasmid clones of the put operon. A 7.5 kb clone contains both of the put structural genes and regulatory sites. This clone only expressed two unique proteins corresponding to the putA and putP gene products. By comparing the physical and genetic maps of the put operon, the position of the put regulatory region was defined and the DNA sequence of this region was determined. Analysis of the DNA sequence indicated several potential regulatory sites for the put genes. Based on genetic and physical mapping studies, the most likely regulatory sites are two convergent promoters approximately 30 bp apart. A 27 bp palindrome located between the two promoters may be the operator for autoregulation by the PutA protein. The putA translational start site is 40 bp downstream of its putative mRNA start site. The putP promoter and its translational start site are separated by a 400 bp untranslated region.

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Craig R. Kent

Prevention of Organ Allograft Rejection by a Specific Janus Kinase 3 Inhibitor

Discovery of CP-690,550: A Potent and Selective Janus Kinase (JAK) Inhibitor for the Treatment of Autoimmune Diseases and Organ Transplant Rejection

The specificity of JAK3 kinase inhibitors

Regulation of proline utilization in Salmonella typhimurium: Molecular characterization of the put operon, and DNA sequence of the put control region

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