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2. The preclinical efficacy, selectivity and pharmacologic profile of MK-5932, an insulin-sparing selective glucocorticoid receptor modulator

Author

Brandish, P., Anderson, K., Baltus, G., Bai, C., Bungard, C., Bunting, P., Byford, A., Chiu, C., Cicmil, M., Corcoran, H., Euler, D., Fisher, J., Gambone, C., Hasbun-Manning, M., Kuklin, N., Landis, E., Lifsted, T., McElwee-Witmer, S., McIntosh, I., Meissner, R., Miao, J., Mitchell, H., Musselman, A., Schmidt, A., Shin, J., Szczerba, P., Thompson, C., Tribouley, C., Vogel, R., Warrier, Sudha, Hershey, J., Brandish, P., Anderson, K., Baltus, G., Bai, C., Bungard, C., Bunting, P., Byford, A., Chiu, C., Cicmil, M., Corcoran, H., Euler, D., Fisher, J., Gambone, C., Hasbun-Manning, M., Kuklin, N., Landis, E., Lifsted, T., McElwee-Witmer, S., McIntosh, I., Meissner, R., Miao, J., Mitchell, H., Musselman, A., Schmidt, A., Shin, J., Szczerba, P., Thompson, C., Tribouley, C., Vogel, R., Warrier, Sudha, and Hershey, J.

Abstract

Glucocorticoids are used widely in the treatment of inflammatory diseases, but use is accompanied by a significant burden of adverse effects. It has been hypothesized that gene- and cell-specific regulation of the glucocorticoid receptor by small molecule ligands could be translated into a therapeutic with an improved risk-benefit profile. MK-5932 is a highly selective glucocorticoid receptor modulator that is anti-inflammatory in vivo with an improved profile on glucose metabolism: Bungard et al. (2011). Bioorg. Med. Chem. 19, 7374-7386. Here we describe the full biological profile of MK-5932. Cytokine production following lipopolysaccharide (LPS) challenge was blocked by MK-5932 in both rat and human whole blood. Oral administration reduced inflammatory cytokine levels in the serum of rats challenged with LPS. MK-5932 was anti-inflammatory in a rat contact dermatitis model, but was differentiated from 6-methylprednisolone by a lack of elevation of fasting insulin or glucose levels after 7 days of dosing, even at high exposure levels. In fact, animals in the vehicle group were consistently hyperglycemic at the end of the study, and MK-5932 normalized glucose levels in a dose-dependent manner. MK-5932 was also anti-inflammatory in the rat collagen-induced arthritis and adjuvant-induced arthritis models. In healthy dogs, oral administration of MK-5932 exerted acute pharmacodynamic effects with potency comparable to prednisone, but with important differences on neutrophil counts, again suggestive of a dissociated profile. Important gaps in our understanding of mechanism of action remain, but MK-5932 will be a useful tool in dissecting the mechanisms of glucose dysregulation by therapeutic glucocortiocids. © 2013 Elsevier B.V.

Published
2014

4. Collagen, convulxin, and thrombin stimulate aggregation-independent tyrosine phosphorylation of CD31 in platelets. Evidence for the involvement of Src family kinases.

Author

Cicmil, M, Thomas, J M, Sage, T, Barry, F A, Leduc, M, Bon, C, and Gibbins, J M

Abstract

Platelet endothelial cell adhesion molecule-1 (CD31) is a 130-kDa glycoprotein receptor present on the surface of platelets, neutrophils, monocytes, certain T-lymphocytes, and vascular endothelial cells. CD31 is involved in adhesion and signal transduction and is implicated in the regulation of a number of cellular processes. These include transendothelial migration of leukocytes, integrin regulation, and T-cell function, although its function in platelets remains unclear. In this study, we demonstrate the ability of the platelet agonists collagen, convulxin, and thrombin to induce tyrosine phosphorylation of CD31. Furthermore, we show that this event is independent of platelet aggregation and secretion and is accompanied by an increase in surface expression of CD31. A kinase capable of phosphorylating CD31 was detected in CD31 immunoprecipitates, and its activity was increased following activation of platelets. CD31 tyrosine phosphorylation was reduced or abolished by the Src family kinase inhibitor PP2, suggesting a role for these enzymes. In accordance with this, each of the Src family members expressed in platelets, namely Fyn, Lyn, Src, Yes, and Hck, was shown to co-immunoprecipitate with CD31. The involvement of Src family kinases in this process was confirmed through the study of mouse platelets deficient in Fyn.

Published
2000
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6. Multimodal Imaging Reveals that Sustained Inhibition of HIF-Prolyl Hydroxylases Induces Opposing Effects on Right and Left Ventricular Function in Healthy Rats.

Author

Robinson G, Zielstorff M, Sevilla R, Vanko A, Sinz C, Cicmil M, Zhang W, and Bettano K

Subjects
Rats, Animals, Prolyl Hydroxylases pharmacology, Hypoxia, Multimodal Imaging, Ventricular Function, Left, Hypertension, Pulmonary drug therapy, Hypertension, Pulmonary metabolism
Abstract

Purpose: Hypoxia-inducible factor (HIF) drives transcription of critical hypoxia response genes, increasing the production of red blood cells in low oxygen conditions. In the absence of hypoxia, HIF is degraded by prolyl hydroxylases (HIF-PHs). Pharmacological HIF-PH inhibition stabilizes HIF and is being studied as a treatment for anemia. However, like sustained hypoxia, HIF-PH inhibition may increase pulmonary arterial pressure leading to right ventricular hypertrophy. The aim of this study was to assess the cardiac effects of sustained pharmacological HIF-PH inhibition using multimodal imaging, blood analysis, and histology., Methods: Rats were dosed daily with a pan HIF-PH inhibitor or vehicle for 4 weeks followed by a 2-week washout period and underwent longitudinal magnetic resonance imaging (MRI) and echocardiography to simultaneously assess RV and LV function. Blood samples from weeks four and six were analyzed to determine red blood cell composition. Histology was performed on the cardiac tissue from a subset of rats at weeks four and six to assess structural effects., Results: Imaging revealed that RV ejection fraction was reduced in animals receiving HIF-PH inhibitor and resulted in RV hypertrophy. Interestingly, HIF-PH inhibition had the opposite effect on the left ventricle (LV), increasing contractility measured by LV ejection fraction. LV effects were reversed by week six, while RV effects (functional and structural) were sustained., Conclusion: These opposing cardiac effects of HIF-PH inhibition warrant further study to both understand the potential negative effects on RV structure and function and investigate the therapeutic potential of increased LV contractility for conditions like heart failure., (© 2023. Merck & Co., Inc., Rahway, NJ, USA and its affiliates, under exclusive licence to World Molecular Imaging Society.)

Published
2024
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8. Immunomodulatory regulator blockade in a viral exacerbation model of severe asthma.

Author

Nicholas B, Lee HH, Guo J, Cicmil M, Blume C, Malefyt RW, and Djukanović R

Subjects
Humans, Disease Progression, CD8-Positive T-Lymphocytes, Influenza, Human complications, Programmed Cell Death 1 Receptor antagonists & inhibitors, Programmed Cell Death 1 Receptor metabolism, Asthma metabolism, Asthma virology
Abstract

Asthmatics are more susceptible to viral infections than healthy individuals and are known to have impaired innate anti-viral defences. Influenza A virus causes significant morbidity and mortality in this population. Immuno-modulatory regulators (IMRs) such as PD-1 are activated on T cells following viral infection as part of normal T cell activation responses, and then subside, but remain elevated in cases of chronic exposure to virus, indicative of T cell exhaustion rather than activation. There is evidence that checkpoint inhibition can enhance anti-viral responses during acute exposure to virus through enhancement of CD8+T cell function. Although elevated PD-1 expression has been described in pulmonary tissues in other chronic lung diseases, the role of IMRs in asthma has been relatively unexplored as the basis for immune dysfunction. We first assessed IMR expression in the peripheral circulation and then quantified changes in IMR expression in lung tissue in response to ex-vivo influenza infection. We found that the PD-1 family members are not significantly altered in the peripheral circulation in individuals with severe asthma but are elevated in pulmonary tissues following ex-vivo influenza infection. We then applied PD-1 Mab inhibitor treatment to bronchial biopsy tissues infected with influenza virus and found that PD-1 inhibition was ineffective in asthmatics, but actually increased infection rates in healthy controls. This study, therefore, suggests that PD-1 therapy would not produce harmful side-effects when applied in people with severe asthma, but could have important, as yet undescribed, negative effects on anti-viral responses in healthy individuals that warrant further investigation., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. This work was supported by a collaboration between the University of Southampton and Merck & Co Inc. Merck & Co Inc. assisted in the design of the work and the collection, analysis, and interpretation of data. The manuscript was conceived and written by the University of Southampton co-authors and was approved by co-authors from Merck & Co Inc., (Copyright © 2022 Nicholas, Lee, Guo, Cicmil, Blume, Malefyt and Djukanović.)

Published
2022
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10. Characterizing Pharmacokinetic-Pharmacodynamic Relationships and Efficacy of PI3K δ Inhibitors in Respiratory Models of TH2 and TH1 Inflammation.

Author

McLeod RL, Gil MA, Chen D, Cabal A, Katz J, Methot J, Woodhouse JD, Dorosh L, Geda P, Mehta K, Cicmil M, Baltus GA, Bass A, Houshyar H, Caniga M, Yu H, Gervais F, Alves S, and Shah S

Subjects
Animals, Disease Models, Animal, Humans, Inflammation drug therapy, Inflammation immunology, Inflammation metabolism, Male, Phosphoinositide-3 Kinase Inhibitors therapeutic use, Rats, Respiratory Tract Diseases metabolism, Phosphatidylinositol 3-Kinases metabolism, Phosphoinositide-3 Kinase Inhibitors pharmacokinetics, Phosphoinositide-3 Kinase Inhibitors pharmacology, Respiratory Tract Diseases drug therapy, Respiratory Tract Diseases immunology, Th1 Cells drug effects, Th2 Cells drug effects
Abstract

We leveraged a clinical pharmacokinetic (PK)/pharmacodynamics (PD)/efficacy relationship established with an oral phosphatidylinositol 3-kinase (PI3K) δ inhibitor (Idelalisib) in a nasal allergen challenge study to determine whether a comparable PK/PD/efficacy relationship with PI3K δ inhibitors was observed in preclinical respiratory models of type 2 T helper cell (TH2) and type 1 T helper cell (TH1) inflammation. Results from an in vitro rat blood basophil (CD63) activation assay were used as a PD biomarker. IC 50 values for PI3K δ inhibitors, MSD-496486311, MSD-126796721, Idelalisib, and Duvelisib, were 1.2, 4.8, 0.8, and 0.5 μ M. In the ovalbumin Brown Norway TH2 pulmonary inflammation model, all PI3K δ inhibitors produced a dose-dependent inhibition of bronchoalveolar lavage eosinophils (maximum effect between 80% and 99%). In a follow-up experiment designed to investigate PK attributes [maximum (or peak) plasma concentration (Cmax), area under the curve (AUC), time on target (ToT)] that govern PI3K δ efficacy, MSD-496486311 [3 mg/kg every day (QD) and 100 mg/kg QD] produced 16% and 93% inhibition of eosinophils, whereas doses (20 mg/kg QD, 10 mg/kg twice per day, and 3 mg/kg three times per day) produced 54% to 66% inhibition. Our profiling suggests that impact of PI3K δ inhibitors on eosinophils is supported by a PK target with a ToT over the course of treatment close to the PD IC 50 rather than strictly driven by AUC, Cmax, or Cmin (minimum blood plasma concentration) coverage. Additional studies in an Altenaria alternata rat model, a sheep Ascaris-sensitive sheep model, and a TH1-driven rat ozone exposure model did not challenge our hypothesis, suggesting that an IC 50 level of TE (target engagement) sustained for 24 hours is required to produce efficacy in these traditional models. We conclude that the PK/PD observations in our animal models appear to align with clinical results associated with a TH2 airway disease., (Copyright © 2019 The Author(s).)

Published
2019
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11. Preclinical Experimental and Mathematical Approaches for Assessing Effective Doses of Inhaled Drugs, Using Mometasone to Support Human Dose Predictions.

Author

Caniga M, Cabal A, Mehta K, Ross DS, Gil MA, Woodhouse JD, Eckman J, Naber JR, Callahan MK, Goncalves L, Hill SE, Mcleod RL, McIntosh F, Freke MC, Visser SA, Johnson N, Salmon M, and Cicmil M

Subjects
Administration, Inhalation, Aerosols, Alternaria, Alternariosis metabolism, Alternariosis microbiology, Alternariosis physiopathology, Animals, Anti-Inflammatory Agents pharmacokinetics, Disease Models, Animal, Humans, Lipopolysaccharides, Lung metabolism, Lung physiopathology, Lung Diseases, Fungal metabolism, Lung Diseases, Fungal microbiology, Lung Diseases, Fungal physiopathology, Male, Mometasone Furoate pharmacokinetics, Pneumonia chemically induced, Pneumonia metabolism, Pneumonia physiopathology, Rats, Inbred BN, Rats, Sprague-Dawley, Species Specificity, Tissue Distribution, Alternariosis drug therapy, Anti-Inflammatory Agents administration & dosage, Drug Dosage Calculations, Lung drug effects, Lung Diseases, Fungal drug therapy, Models, Biological, Mometasone Furoate administration & dosage, Pneumonia drug therapy
Abstract

Background: Understanding the relationship between dose, lung exposure, and drug efficacy continues to be a challenging aspect of inhaled drug development. An experimental inhalation platform was developed using mometasone furoate to link rodent lung exposure to its in vivo pharmacodynamic (PD) effects., Methods: We assessed the effect of mometasone delivered directly to the lung in two different rodent PD models of lung inflammation. The data obtained were used to develop and evaluate a mathematical model to estimate drug dissolution, transport, distribution, and efficacy, following inhaled delivery in rodents and humans., Results: Mometasone directly delivered to the lung, in both LPS and Alternaria alternata rat models, resulted in dose dependent inhibition of BALf cellular inflammation. The parameters for our mathematical model were calibrated to describe the observed lung and systemic exposure profiles of mometasone in humans and in animal models. We found that physicochemical properties, such as lung fluid solubility and lipophilicity, strongly influenced compound distribution and lung retention., Conclusions: Presently, we report on a novel and sophisticated mathematical model leading to improvements in a current inhaled drug development practices by providing a quantitative understanding of the relationship between PD effects and drug concentration in lungs.

Published
2016
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12. Development and optimization of a high-throughput micro-computed tomography imaging method incorporating a novel analysis technique to evaluate bone mineral density of arthritic joints in a rodent model of collagen induced arthritis.

Author

Sevilla RS, Cruz F, Chiu CS, Xue D, Bettano KA, Zhu J, Chakravarthy K, Faltus R, Wang S, Vanko A, Robinson G, Zielstorff M, Miao J, Leccese E, Conway D, Moy LY, Dogdas B, Cicmil M, and Zhang W

Subjects
Animals, Arthritis, Rheumatoid diagnostic imaging, Arthritis, Rheumatoid drug therapy, Arthritis, Rheumatoid prevention & control, Disease Models, Animal, Female, Rats, Rats, Inbred Lew, Arthritis, Rheumatoid pathology, Bone Density, Collagen administration & dosage, X-Ray Microtomography methods
Abstract

Rheumatoid arthritis (RA) is a chronic autoimmune disease resulting in joint inflammation, pain, and eventual bone loss. Bone loss and remodeling caused by symmetric polyarthritis, the hallmark of RA, is readily detectable by bone mineral density (BMD) measurement using micro-CT. Abnormalities in these measurements over time reflect the underlying pathophysiology of the bone. To evaluate the efficacy of anti-rheumatic agents in animal models of arthritis, we developed a high throughput knee and ankle joint imaging assay to measure BMD as a translational biomarker. A bone sample holder was custom designed for micro-CT scanning, which significantly increased assay throughput. Batch processing 3-dimensional image reconstruction, followed by automated image cropping, significantly reduced image processing time. In addition, we developed a novel, automated image analysis method to measure BMD and bone volume of knee and ankle joints. These improvements significantly increased the throughput of ex vivo bone sample analysis, reducing data turnaround from 5 days to 24 hours for a study with 200 rat hind limbs. Taken together, our data demonstrate that BMD, as quantified by micro-CT, is a robust efficacy biomarker with a high degree of sensitivity. Our innovative approach toward evaluation of BMD using optimized image acquisition and novel image processing techniques in preclinical models of RA enables high throughput assessment of anti-rheumatic agents offering a powerful tool for drug discovery., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2015
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13. Etanercept ameliorates inflammation and pain in a novel mono-arthritic multi-flare model of streptococcal cell wall induced arthritis.

Author

Chakravarthy K, Faltus R, Robinson G, Sevilla R, Shin J, Zielstorff M, Byford A, Leccese E, Caniga MJ, Hseih S, Zhang S, Chiu CS, Zhang-Hoover J, Moy LY, McLeod RL, Stoffregen D, Zhang W, Murtaza A, and Cicmil M

Subjects
Animals, Arthritis, Experimental chemically induced, Arthritis, Experimental pathology, Etanercept, Female, Inflammation chemically induced, Inflammation drug therapy, Inflammation pathology, Pain chemically induced, Pain pathology, Rats, Rats, Inbred Lew, Antirheumatic Agents therapeutic use, Arthritis, Experimental drug therapy, Cell Wall, Immunoglobulin G therapeutic use, Pain drug therapy, Receptors, Tumor Necrosis Factor therapeutic use, Streptococcus
Abstract

Background: The impact of anti-TNF, corticosteroid and analgesic therapy on inflammation and pain was evaluated in a novel mono-arthritic multi-flare rat Streptococcal Cell Wall (SCW) model using Etanercept, Dexamethasone and Buprenorphine., Methods: Multiple flares of arthritis were induced with an intra-articular injection of SCW in the hind ankle on day 1, followed by intravenous challenges on days 21 and 42. Inflammation and pain were monitored in the hind paws. Cytokine profiling, cell phenotyping, bioluminescence imaging and histopathological evaluation were also performed., Results: Local injection of SCW caused a rapid onset of inflammation and pain in the injected ankle which resolved within 4 days (Flare 1). Intravenous injection 20 days after sensitization resulted in an increase in ankle diameter and pain, which partially resolved in 8 days (Flare 2). The subsequent intra-venous injection in the same animals 14 days after resulted in a more chronic disease with inflammation and pain persisting over a period of 10 days (Flare 3). In Flare 2, therapeutic administration of Dexamethasone inhibited paw swelling (95%; P<0.001) and pain (55%; P<0.05). Therapeutic administration of Buprenorphine inhibited pain (80%; P<0.001) without affecting paw swelling (0%). Prophylactic administration of Etanercept in Flare 2 inhibited paw swelling (≥60%; P<0.001) and pain by ≥30%. Expression of IL-1β, IL-6, MCP-1 and CINC was reduced by >50% (P<0.001). Treatment with Etanercept in Flare 3 inhibited paw swelling by 60% (P<0.001) and pain by 25%. Prior treatment with Etanercept in Flare 2 followed by re-administration in Flare 3 led to a complete loss in the efficacy of Etanercept. Systemic exposure of Etanercept corroborated with lack of efficacy. Dexamethasone inhibited inflammation and pain in both Flares 2 and 3 (P<0.001)., Conclusions: We established a novel multi-flare SCW arthritis model enabling drug intervention in different stages of disease. We show for the first time the evaluation of inflammation and pain simultaneously in this model. Etanercept and Dexamethasone inhibited inflammation, pain and proinflammatory cytokines in this model. Taken together, this model facilitates the assessment of anti-rheumatic agents targeting inflammation and pain in the multiple flare paradigm and offers a powerful tool for drug discovery.

Published
2014
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14. Anti-inflammatory actions of Chemoattractant Receptor-homologous molecule expressed on Th2 by the antagonist MK-7246 in a novel rat model of Alternaria alternata elicited pulmonary inflammation.

Author

Gil MA, Caniga M, Woodhouse JD, Eckman J, Lee HH, Salmon M, Naber J, Hamilton VT, Sevilla RS, Bettano K, Klappenbach J, Moy L, Correll CC, Gervais FG, Siliphaivanh P, Zhang W, Zhang-Hoover J, McLeod RL, and Cicmil M

Subjects
Allergens immunology, Alternaria immunology, Animals, Asthma drug therapy, Asthma immunology, Asthma metabolism, Cytokines immunology, Cytokines metabolism, Eosinophils drug effects, Eosinophils immunology, Eosinophils metabolism, Epithelial Cells drug effects, Epithelial Cells metabolism, Interleukin-13 immunology, Interleukin-13 metabolism, Interleukin-5 immunology, Interleukin-5 metabolism, Lung drug effects, Lung immunology, Lung metabolism, Male, Ovalbumin immunology, Ovalbumin pharmacology, Pneumonia immunology, Pneumonia metabolism, Rats, Rats, Inbred BN, Receptors, Formyl Peptide immunology, Th2 Cells immunology, Alternaria drug effects, Anti-Inflammatory Agents pharmacology, Carbolines pharmacology, Pneumonia drug therapy, Receptors, Formyl Peptide metabolism, Th2 Cells drug effects
Abstract

Alternaria alternata is a fungal allergen linked to the development of severe asthma in humans. In view of the clinical relationship between A. alternata and asthma, we sought to investigate the allergic activity of this antigen after direct application to the lungs of Brown Norway rats. Here we demonstrate that a single intratracheal instillation of A. alternata induces dose and time dependent eosinophil influx, edema and Type 2 helper cell cytokine production in the lungs of BN rats. We established the temporal profile of eosinophilic infiltration and cytokine production, such as Interleukin-5 and Interleukin-13, following A. alternata challenge. These responses were comparable to Ovalbumin induced models of asthma and resulted in peak inflammatory responses 48h following a single challenge, eliminating the need for multiple sensitizations and challenges. The initial perivascular and peribronchiolar inflammation preceded alveolar inflammation, progressing to a more sub-acute inflammatory response with notable epithelial cell hypertrophy. To limit the effects of an A. alternata inflammatory response, MK-7246 was utilized as it is an antagonist for Chemoattractant Receptor-homologous molecule expressed in Th2 cells. In a dose-dependent manner, MK-7246 decreased eosinophil influx and Th2 cytokine production following the A. alternata challenge. Furthermore, therapeutic administration of corticosteroids resulted in a dose-dependent decrease in eosinophil influx and Th2 cytokine production. Reproducible asthma-related outcomes and amenability to pharmacological intervention by mechanisms relevant to asthma demonstrate that an A. alternata induced pulmonary inflammation in BN rats is a valuable preclinical pharmacodynamic in vivo model for evaluating the pharmacological inhibitors of allergic pulmonary inflammation., (Copyright © 2014 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2014
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15. Pharmacological evaluation of selective α2c-adrenergic agonists in experimental animal models of nasal congestion.

Author

Jia Y, Mingo GG, Hunter JC, Lieber GB, Palamanda JR, Mei H, Boyce CW, Koss MC, Yu Y, Cicmil M, Hey JA, and McLeod RL

Subjects
Administration, Intranasal, Administration, Oral, Adrenergic alpha-2 Receptor Agonists administration & dosage, Adrenergic alpha-2 Receptor Agonists pharmacokinetics, Adrenergic alpha-2 Receptor Agonists therapeutic use, Adrenergic alpha-2 Receptor Antagonists pharmacology, Animals, Cats, Disease Models, Animal, Dogs, Dose-Response Relationship, Drug, In Vitro Techniques, Male, Nasal Decongestants administration & dosage, Nasal Decongestants pharmacokinetics, Nasal Decongestants therapeutic use, Nasal Mucosa blood supply, Nasal Mucosa drug effects, Nasal Mucosa metabolism, Rhinitis, Vasomotor metabolism, Swine, Vasoconstriction drug effects, Adrenergic alpha-2 Receptor Agonists pharmacology, Nasal Decongestants pharmacology, Receptors, Adrenergic, alpha-2 metabolism, Rhinitis, Vasomotor drug therapy
Abstract

Nasal congestion is one of the most troublesome symptoms of many upper airways diseases. We characterized the effect of selective α2c-adrenergic agonists in animal models of nasal congestion. In porcine mucosa tissue, compound A and compound B contracted nasal veins with only modest effects on arteries. In in vivo experiments, we examined the nasal decongestant dose-response characteristics, pharmacokinetic/pharmacodynamic relationship, duration of action, potential development of tolerance, and topical efficacy of α2c-adrenergic agonists. Acoustic rhinometry was used to determine nasal cavity dimensions following intranasal compound 48/80 (1%, 75 µl). In feline experiments, compound 48/80 decreased nasal cavity volume and minimum cross-sectional areas by 77% and 40%, respectively. Oral administration of compound A (0.1-3.0 mg/kg), compound B (0.3-5.0 mg/kg), and d-pseudoephedrine (0.3 and 1.0 mg/kg) produced dose-dependent decongestion. Unlike d-pseudoephedrine, compounds A and B did not alter systolic blood pressure. The plasma exposure of compound A to produce a robust decongestion (EC(80)) was 500 nM, which related well to the duration of action of approximately 4.0 hours. No tolerance to the decongestant effect of compound A (1.0 mg/kg p.o.) was observed. To study the topical efficacies of compounds A and B, the drugs were given topically 30 minutes after compound 48/80 (a therapeutic paradigm) where both agents reversed nasal congestion. Finally, nasal-decongestive activity was confirmed in the dog. We demonstrate that α2c-adrenergic agonists behave as nasal decongestants without cardiovascular actions in animal models of upper airway congestion.

Published
2014
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16. The preclinical efficacy, selectivity and pharmacologic profile of MK-5932, an insulin-sparing selective glucocorticoid receptor modulator.

Author

Brandish PE, Anderson K, Baltus GA, Bai C, Bungard CJ, Bunting P, Byford A, Chiu CS, Cicmil M, Corcoran H, Euler D, Fisher JE, Gambone C, Hasbun-Manning M, Kuklin N, Landis E, Lifsted TQ, McElwee-Witmer S, McIntosh IS, Meissner RS, Miao J, Mitchell HJ, Musselman A, Schmidt A, Shin J, Szczerba P, Thompson CD, Tribouley C, Vogel RL, Warrier S, and Hershey JC

Subjects
Animals, Anti-Inflammatory Agents blood, Anti-Inflammatory Agents pharmacokinetics, Anti-Inflammatory Agents pharmacology, Benzamides blood, Benzamides pharmacokinetics, Benzamides pharmacology, Cell Line, Tumor, Collagen, Cytokines blood, Dogs, Female, HeLa Cells, Humans, Indazoles blood, Indazoles pharmacokinetics, Indazoles pharmacology, Insulin, Lipopolysaccharides, Male, Methylprednisolone pharmacology, Rats, Rats, Inbred Lew, Rats, Sprague-Dawley, Anti-Inflammatory Agents therapeutic use, Arthritis, Experimental drug therapy, Benzamides therapeutic use, Dermatitis, Contact drug therapy, Edema drug therapy, Indazoles therapeutic use, Receptors, Glucocorticoid metabolism
Abstract

Glucocorticoids are used widely in the treatment of inflammatory diseases, but use is accompanied by a significant burden of adverse effects. It has been hypothesized that gene- and cell-specific regulation of the glucocorticoid receptor by small molecule ligands could be translated into a therapeutic with an improved risk-benefit profile. MK-5932 is a highly selective glucocorticoid receptor modulator that is anti-inflammatory in vivo with an improved profile on glucose metabolism: Bungard et al. (2011). Bioorg. Med. Chem. 19, 7374-7386. Here we describe the full biological profile of MK-5932. Cytokine production following lipopolysaccharide (LPS) challenge was blocked by MK-5932 in both rat and human whole blood. Oral administration reduced inflammatory cytokine levels in the serum of rats challenged with LPS. MK-5932 was anti-inflammatory in a rat contact dermatitis model, but was differentiated from 6-methylprednisolone by a lack of elevation of fasting insulin or glucose levels after 7 days of dosing, even at high exposure levels. In fact, animals in the vehicle group were consistently hyperglycemic at the end of the study, and MK-5932 normalized glucose levels in a dose-dependent manner. MK-5932 was also anti-inflammatory in the rat collagen-induced arthritis and adjuvant-induced arthritis models. In healthy dogs, oral administration of MK-5932 exerted acute pharmacodynamic effects with potency comparable to prednisone, but with important differences on neutrophil counts, again suggestive of a dissociated profile. Important gaps in our understanding of mechanism of action remain, but MK-5932 will be a useful tool in dissecting the mechanisms of glucose dysregulation by therapeutic glucocortiocids., (Copyright © 2014. Published by Elsevier B.V.)

Published
2014
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17. Mineralocorticoid receptor antagonists attenuate pulmonary inflammation and bleomycin-evoked fibrosis in rodent models.

Author

Lieber GB, Fernandez X, Mingo GG, Jia Y, Caniga M, Gil MA, Keshwani S, Woodhouse JD, Cicmil M, Moy LY, Kelly N, Jimenez J, Crawley Y, Anthes JC, Klappenbach J, Ma YL, and McLeod RL

Subjects
Animals, Disease Models, Animal, Elasticity drug effects, Fibrosis, Hydroxyproline metabolism, Hypersensitivity drug therapy, Hypersensitivity metabolism, Hypersensitivity pathology, Hypersensitivity physiopathology, Lipopolysaccharides adverse effects, Lung drug effects, Lung pathology, Lung physiopathology, Male, Mice, Mineralocorticoid Receptor Antagonists therapeutic use, Pneumonia metabolism, Pneumonia pathology, Pneumonia physiopathology, Pulmonary Ventilation drug effects, Rats, Bleomycin adverse effects, Mineralocorticoid Receptor Antagonists pharmacology, Pneumonia drug therapy, Receptors, Mineralocorticoid metabolism
Abstract

Accumulating evidence indicates protective actions of mineralocorticoid antagonists (MR antagonists) on cardiovascular pathology, which includes blunting vascular inflammation and myocardial fibrosis. We examined the anti-inflammatory and anti-fibrotic potential of MR antagonists in rodent respiratory models. In an ovalbumin allergic and challenged Brown Norway rat model, the total cell count in nasal lavage was 29,348 ± 5451, which was blocked by spironolactone (0.3-60 mg/kg, p.o.) and eplerenone (0.3-30 mg/kg, p.o.). We also found that MR antagonists attenuated pulmonary inflammation in the Brown Norway rat. A series of experiments were conducted to determine the actions of MR blockade in acute/chronic lung injury models. (1) Ex vivo lung slice rat experiments found that eplerenone (0.01 and 10 µM) and spironolactone (10 µM) diminished lung hydroxyproline concentrations by 55 ± 5, 122 ± 9, and 83 ± 8%. (2) In in vivo studies, MR antagonists attenuated the increases in bronchioalveolar lavage (BAL) neutrophils and macrophages caused by lung bleomycin exposure. In separate studies, bleomycin (4.0 U/kg, i.t.) increased lung levels of hydroxyproline by approximately 155%, which was blocked by spironolactone (10-60 mg/kg, p.o.). In a rat Lipopolysaccharide (LPS) model, spironolactone inhibited acute increases in BAL cytokines with moderate effects on neutrophils. Finally, we found that chronic LPS exposure significantly increased end expiratory lung and decreased lung elastance in the mouse. These functional effects of chronic LPS were improved by MR antagonists. Our results demonstrate that MR antagonists have significant pharmacological actions in the respiratory system., (Published by Elsevier B.V.)

Published
2013
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18. Platelet endothelial cell adhesion molecule-1 signaling inhibits the activation of human platelets.

Author

Cicmil M, Thomas JM, Leduc M, Bon C, and Gibbins JM

Subjects
Antibodies pharmacology, Binding Sites, Blood Platelets chemistry, Blood Platelets ultrastructure, Calcium metabolism, Collagen pharmacology, Cross-Linking Reagents, Crotalid Venoms pharmacology, Cytoplasmic Granules metabolism, Electrophoresis, Polyacrylamide Gel, Humans, Immunoglobulin Fab Fragments pharmacology, Immunoglobulin G pharmacology, Phosphorylation, Phosphotyrosine metabolism, Platelet Endothelial Cell Adhesion Molecule-1 chemistry, Thrombin pharmacology, Lectins, C-Type, Platelet Activation drug effects, Platelet Endothelial Cell Adhesion Molecule-1 metabolism, Signal Transduction
Abstract

Platelet endothelial cell adhesion molecule-1 (PECAM-1/CD31) is a 130-kd transmembrane glycoprotein and a member of the growing family of receptors with immunoreceptor tyrosine-based inhibitory motifs (ITIMs). PECAM-1 is expressed on platelets, certain T cells, monocytes, neutrophils, and vascular endothelial cells and is involved in a range of cellular processes, though the role of PECAM-1 in platelets is unclear. Cross-linking of PECAM-1 results in phosphorylation of the ITIM allowing the recruitment of signaling proteins that bind by way of Src-homology domain 2 interactions. Proteins that have been implicated in the negative regulation of cellular activation by ITIM-bearing receptors include the tyrosine phosphatases SHP-1 and SHP-2. Tyrosine phosphorylation of immunoreceptor tyrosine-based activatory motif (ITAM)-bearing receptors such as the collagen receptor GPVI-Fc receptor gamma-chain complex on platelets leads to activation. Increasing evidence suggests that ITIM- and ITAM-containing receptors may act antagonistically when expressed on the same cell. In this study it is demonstrated that cross-linking PECAM-1 inhibits the aggregation and secretion of platelets in response to collagen and the GPVI-selective agonist convulxin. In these experiments thrombin-mediated platelet aggregation and secretion were also reduced, albeit to a lesser degree than for collagen, suggesting that PECAM-1 function may not be restricted to the inhibition of ITAM-containing receptor pathways. PECAM-1 activation also inhibited platelet protein tyrosine phosphorylation stimulated by convulxin and thrombin; this was accompanied by inhibition of the mobilization of calcium from intracellular stores. These data suggest that PECAM-1 may play a role in the regulation of platelet function in vivo.

Published
2002
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