Krista M Phipps scite author profile

Background In psoriasis, inflammation and epidermal hyperplasia are thought to be controlled by T cell-derived cytokines. Evidence suggests that the Th17 cell cytokine interleukin-17 (IL-17) may play a role in disease pathogenesis. Objective To understand the impact that neutralization of IL-17 has on the clinical features of psoriasis and to understand the role that IL-17 has in inflammatory pathways underlying psoriasis in human subjects. Methods We examined skin lesions obtained from 40 subjects participating in a phase 1, randomized, double-blind, placebo-controlled trial of an anti-IL-17 monoclonal antibody, ixekizumab (previously LY2439821), in which subjects received subcutaneous 5mg, 15mg, 50mg or 150mg ixekizumab or placebo at weeks 0, 2, and 4. Results There were significant, dose-dependent reductions from baseline in keratinocyte proliferation, hyperplasia, epidermal thickness, infiltration into the dermis and epidermis by T cells and dendritic cells and keratinocyte expression of innate defense peptides at 2 weeks. By week 6, the skin appeared normal. Quantitative reverse transcriptase polymerase chain reaction and microarrays revealed an ablation of the disease-defining mRNA expression profile by 2 weeks after the first dose of study drug. The effect of IL-17 blockade on expression of genes synergistically regulated by IL-17 and Tumor necrosis factor (TNF) was of higher magnitude at 2 weeks than in prior studies with TNF antagonism. Conclusion Our data suggest that IL-17 is a key “driver” cytokine in psoriasis that activates pathogenic inflammation. Neutralizing IL-17 with ixekizumab may be a successful therapeutic strategy.

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Small interfering RNA molecules as potential anti-human rhinovirus agents: in vitro potency, specificity, and mechanism

Phipps

Martínez

et al. 2004

Antiviral Research

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Erythroid Progenitor Proliferation is Stimulated by Phenoxyacetic and Phenylalkyl Acids

Torkelson¹,

White²,

Faller³

et al. 1996

Blood Cells, Molecules, and Diseases

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LY3127760, a Selective Prostaglandin E4 (EP4) Receptor Antagonist, and Celecoxib: A Comparison of Pharmacological Profiles

Jin

Smith

et al. 2017

Clinical Translational Sci

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Safety, tolerability, and pharmacology profiles of LY3127760, an EP4 antagonist, were explored in healthy subjects in a subject/investigator‐blind, parallel‐group, multiple‐ascending dose study. Cohorts consisted of 13 patients randomized to LY3127760, celecoxib (400 mg), or placebo (9:2:2 ratio) for 28 days. LY3127760 was well tolerated; the most commonly observed adverse events were gastrointestinal, similar to celecoxib. LY3127760 increased release of ex vivo tumor necrosis factor alpha after lipopolysaccharide/prostaglandin E2 stimulation when compared with placebo, suggesting a dose‐dependent blockade of the EP4 receptor. Compared with placebo, 24‐h urinary excretion of prostaglandin E metabolite was modestly increased; prostacyclin metabolite was inhibited; and thromboxane A2 metabolite was unchanged. Effects on sodium and potassium excretion were similar to those of celecoxib. We conclude that LY3127760 demonstrated similar effects on prostacyclin synthesis and renal sodium retention as celecoxib. These data support exploration of LY3127760 at daily doses of 60 mg to 600 mg in phase II trials. This trial's registration number: NCT01968070.

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Enhanced antiviral effect in cell culture of type 1 interferon and ribozymes targeting HCV RNA

Macejak¹,

Jensen²,

Pavco³

et al. 2001

Journal of Viral Hepatitis

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We have recently shown that the replication of an HCV-poliovirus (PV) chimera that is dependent upon the hepatitis C virus (HCV) 5' untranslated region (UTR) can be inhibited by treatment with ribozymes targeting HCV RNA. To determine the antiviral effects of anti-HCV ribozyme treatment in combination with type 1 interferon (IFN), we analysed the replication of this HCV-PV chimera in HeLa cells treated with anti-HCV ribozyme and/or IFN-alpha2a, IFN-alpha2b, or consensus IFN. The anti-HCV ribozyme, or any of the IFNs alone have significant inhibitory effects on HCV-PV replication compared to control treatment (> or = 85%, P < 0.01). The maximal inhibition due to IFN treatment (94%, P < 0.01) was achieved with > or = 50 U/ml for either IFN-alpha2a or IFN-alpha2b compared to control treatment. A similar level of inhibition in viral replication could be achieved with a 5-fold lower dose of IFN if ribozyme targeting the HCV 5' UTR was given in combination. For consensus IFN, the dose could be reduced by > 12.5-fold if ribozyme targeting the HCV 5' UTR was given in combination. Conversely, the dose of ribozyme could be reduced 3-fold if given in combination with any of the IFN preparations. Moreover, treatment with low doses (1-25 U/mL) of IFN-alpha2a, IFN-alpha2b, or consensus IFN in combination with anti-HCV ribozyme resulted in > 98% inhibition of HCV-PV replication compared to control treatment (P < 0.01). These results demonstrate that IFN and ribozyme each have a beneficial antiviral effect that is augmented when given in combination.

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Krista M Phipps

IL-17A is essential for cell activation and inflammatory gene circuits in subjects with psoriasis

Small interfering RNA molecules as potential anti-human rhinovirus agents: in vitro potency, specificity, and mechanism

Erythroid Progenitor Proliferation is Stimulated by Phenoxyacetic and Phenylalkyl Acids

LY3127760, a Selective Prostaglandin E4 (EP4) Receptor Antagonist, and Celecoxib: A Comparison of Pharmacological Profiles

Enhanced antiviral effect in cell culture of type 1 interferon and ribozymes targeting HCV RNA

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