William E. Smith scite author profile

BackgroundLung remodeling and pulmonary fibrosis are serious, life‐threatening conditions resulting from diseases such as chronic severe asthma and idiopathic pulmonary fibrosis (IPF). Preclinical evidence suggests that JNK enzyme function is required for key steps in the pulmonary fibrotic process. However, a selective JNK inhibitor has not been investigated in translational models of lung fibrosis with clinically relevant biomarkers, or in IPF patients. MethodsThe JNK inhibitor CC‐930 was evaluated in the house dust mite‐induced fibrotic airway mouse model, in a phase I healthy volunteer pharmacodynamic study, and subsequently in a phase II multicenter study of mild/moderate IPF (n = 28), with a 4‐week, placebo‐controlled, double‐blind, sequential ascending‐dose period (50 mg QD, 100 mg QD, 100 mg BID) and a 52‐week open‐label treatment‐extension period. ResultsIn the preclinical model, CC‐930 attenuated collagen 1A1 gene expression, peribronchiolar collagen deposition, airway mucin MUC5B expression in club cells, and MMP‐7 expression in lung, bronchoalveolar lavage fluid, and serum. In the phase I study, CC‐930 reduced c‐Jun phosphorylation induced by UV radiation in skin. In the phase II IPF study, there was a CC‐930 dose‐dependent trend in reduction of MMP‐7 and SP‐D plasma protein levels. The most commonly reported adverse events were increased ALT, increased AST, and upper respiratory tract infection (six subjects each, 21.4 %). A total of 13 subjects (46.4 %) experienced adverse events that led to discontinuation of study drug. Nine out of 28 subjects experienced progressive disease in this study. The mean FVC (% predicted) declined after 26–32 weeks at doses of 100 mg QD and 100 mg BID. Changes in MMP‐7, SP‐D, and tenascin‐C significantly correlated with change in FVC (% predicted). ConclusionsThese results illustrate JNK enzymatic activity involvement during pulmonary fibrosis, and support systemic biomarker use for tracking disease progression and the potential clinical benefit of this novel intervention in IPF. Trial registration ClinicalTrials.gov NCT01203943

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Benign intracranial hypertension and chronic renal failure

Chang¹,

Nagamoto²,

Smith³

1992

Cleveland Clinic Journal of Medicine

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Molecular Coordination of Hepatic Glucose Metabolism by the 6-Phosphofructo-2-Kinase/Fructose-2,6- Bisphosphatase:Glucokinase Complex

Smith¹,

Langer

et al. 2007

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Glucokinase (GK) and 6-phosphofructo-2-kinase (PFK-2)/fructose-2,6-bisphosphatase (FBP-2) are each powerful regulators of hepatic carbohydrate metabolism that have been reported to influence each other's expression, activities, and cellular location. Here we present the first physical evidence for saturable and reversible binding of GK to the FBP-2 domain of PFK-2/FBP-2 in a 1:1 stoichiometric complex. We confirmed complex formation and stoichiometry by independent methods including affinity resin pull-down assays and fluorescent resonance energy transfer. All suggest that the binding of GK to PFK-2/FBP-2 is weak. Enzymatic assays of the GK:PFK-2/FBP-2 complex suggest a concomitant increase of the kinase-to-bisphosphatase ratio of bifunctional enzyme and activation of GK upon binding. The kinase-to-bisphosphatase ratio is increased by activation of the PFK-2 activity whereas FBP-2 activity is unchanged. This means that the GK-bound PFK-2/FBP-2 produces more of the biofactor fructose-2,6-bisphosphate, a potent activator of 6-phosphofructo-1-kinase, the committing step to glycolysis. Therefore, we conclude that the binding of GK to PFK-2/FBP-2 promotes a coordinated up-regulation of glucose phosphorylation and glycolysis in the liver, i.e. hepatic glucose disposal. The GK:PFK-2/FBP-2 interaction may also serve as a metabolic signal transduction pathway for the glucose sensor, GK, in the liver. Demonstration of molecular coordination of hepatic carbohydrate metabolism has fundamental relevance to understanding the function of the liver in maintaining fuel homeostasis, particularly in managing excursions in glycemia produced by meal consumption.

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The Significance of Pleomorphism in Bacteroides Strains

Dienes

Smith

1944

J Bacteriol

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A few bacterial species axe characterized by a peculiar pleomorphism, consisting in the gradual swelling of the bacteria into large fusiform or round bodies. A similar transformation occurs in a few exceptional strains belonging to the common species under normal conditions of cultivation. Sublethal doses of lithium, calcium, chromium, mercuric salts and penicillin often produce similar forms. Glycin seems to be very effective in this respect (Gordon and Gordon, 1943). Observations described in previous papers (Dienes, 1942) indicate that the large bodies, if they are appropriately transplanted, will germinate in certain cultures. Usually they do not reproduce bacteria of normal shape, but a peculiar granular growth which was discovered by Klieneberger in cultures of Streptobacillusmoniliformis and named L1 (Klieneberger, 1935). A similar germination of the large bodies was observed in some strains of Escherichia coli, Hemophilus influenzae and BaciUus funduliformis. An L type of growth was observed also in cultures of Neisseria (Dienes, 1940) and of a Flavobacterium. The large bodies germinated, according to our observations, only in spontaneously pleomorphic strains, not in cultures made pleomorphic by toxic influences. It was pointed out in the above-mentioned paper (Dienes, 1942) that the L type of growth is not the only direction in which the large bodies develop. Sometimes they reproduce bacteria of regular shape and size. One of the authors observed this process in E. coli (Dienes, 1939) and recently in a clear form in a strain of Streptobacius

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William E. Smith

Evolution of incipient nephropathy in type 2 diabetes mellitus

JNK inhibition reduces lung remodeling and pulmonary fibrotic systemic markers

Benign intracranial hypertension and chronic renal failure

Molecular Coordination of Hepatic Glucose Metabolism by the 6-Phosphofructo-2-Kinase/Fructose-2,6- Bisphosphatase:Glucokinase Complex

The Significance of Pleomorphism in Bacteroides Strains

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