Cutting Edge: Selective Oral ROCK2 Inhibitor Reduces Clinical Scores in Patients with Psoriasis Vulgaris and Normalizes Skin Pathology via Concurrent Regulation of IL-17 and IL-10.

Targeted inhibition of Rho-associated kinase (ROCK)2 downregulates the proinflammatory T cell response while increasing the regulatory arm of the immune response in animals models of autoimmunity and Th17-skewing human cell culture in vitro. In this study, we report that oral administration of a selective ROCK2 inhibitor, KD025, reduces psoriasis area and severity index scores by 50% from baseline in 46% of patients with psoriasis vulgaris, and it decreases epidermal thickness as well as T cell infiltration in the skin. We observed significant reductions of IL-17 and IL-23, but not IL-6 and TNF-α, whereas IL-10 levels were increased in peripheral blood of clinical responders after 12 wk of treatment with KD025. Collectively, these data demonstrate that an orally available selective ROCK2 inhibitor downregulates the Th17-driven autoimmune response and improved clinical symptoms in psoriatic patients via a defined molecular mechanism that involves concurrent modulation of cytokines without deleterious impact on the rest of the immune system.

First-in-human phase 1/2a trial of CRLX101, a cyclodextrin-containing polymer-camptothecin nanopharmaceutical in patients with advanced solid tumor malignancies.

Patients with advanced solid malignancies were enrolled to an open-label, single-arm, dose-escalation study, in which CRLX101 was administered intravenously over 60 min among two dosing schedules, initially weekly at 6, 12, and 18 mg/m(2) and later bi-weekly at 12, 15, and 18 mg/m(2). The maximum tolerated dose (MTD) was determined at 15 mg/m(2) bi-weekly, and an expansion phase 2a study was completed. Patient samples were obtained for pharmacokinetic (PK) and pharmacodynamic (PD) assessments. Response was evaluated per RECIST criteria v1.0 every 8 weeks. Sixty-two patients (31 male; median age 63 years, range 39-79) received treatment. Bi-weekly dosing was generally well tolerated with myelosuppression being the dose-limiting toxicity. Among all phase 1/2a patients receiving the MTD (n = 44), most common grade 3/4 adverse events were neutropenia and fatigue. Evidence of systemic plasma exposure to both the polymer-conjugated and unconjugated CPT was observed in all treated patients. Mean elimination unconjugated CPT Tmax values ranged from 17.7 to 24.5 h, and maximum plasma concentrations and areas under the curve were generally proportional to dose for both polymer-conjugated and unconjugated CPT. Best overall response was stable disease in 28 patients (64 %) treated at the MTD and 16 (73 %) of a subset of NSCLC patients. Median progression-free survival (PFS) for patients treated at the MTD was 3.7 months and for the subset of NSCLC patients was 4.4 months. These combined phase 1/2a data demonstrate encouraging safety, pharmacokinetic, and efficacy results. Multinational phase 2 clinical development of CRLX101 across multiple tumor types is ongoing.

Pathways activated during human asthma exacerbation as revealed by gene expression patterns in blood.

BACKGROUND: Asthma exacerbations remain a major unmet clinical need. The difficulty in obtaining airway tissue and bronchoalveolar lavage samples during exacerbations has greatly hampered study of naturally occurring exacerbations. This study was conducted to determine if mRNA profiling of peripheral blood mononuclear cells (PBMCs) could provide information on the systemic molecular pathways involved during asthma exacerbations. METHODOLOGY/PRINCIPAL FINDINGS: Over the course of one year, gene expression levels during stable asthma, exacerbation, and two weeks after an exacerbation were compared using oligonucleotide arrays. For each of 118 subjects who experienced at least one asthma exacerbation, the gene expression patterns in a sample of peripheral blood mononuclear cells collected during an exacerbation episode were compared to patterns observed in multiple samples from the same subject collected during quiescent asthma. Analysis of covariance identified genes whose levels of expression changed during exacerbations and returned to quiescent levels by two weeks. Heterogeneity among visits in expression profiles was examined using K-means clustering. Three distinct exacerbation-associated gene expression signatures were identified. One signature indicated that, even among patients without symptoms of respiratory infection, genes of innate immunity were activated. Antigen-independent T cell activation mediated by IL15 was also indicated by this signature. A second signature revealed strong evidence of lymphocyte activation through antigen receptors and subsequent downstream events of adaptive immunity. The number of genes identified in the third signature was too few to draw conclusions on the mechanisms driving those exacerbations. CONCLUSIONS/SIGNIFICANCE: This study has shown that analysis of PBMCs reveals systemic changes accompanying asthma exacerbation and has laid the foundation for future comparative studies using PBMCs.

A phase II open-label study of recombinant human interleukin-12 in patients with stage IA, IB, or IIA mycosis fungoides.

BACKGROUND: Interleukin-12 (IL-12) increases Th(1) cytokines, natural killer (NK) cells, and cytotoxic T-cell activities. Progression of mycosis fungoides is associated with Th(2) cytokines produced by a clonal proliferation of epidermotropic T-helper cells. OBJECTIVE: To determine the safety and efficacy of subcutaneous recombinant human IL-12 (rhIL-12) in early mycosis fungoides (MF; stage IA-IIA) in a multi-center, open label clinical trial. METHODS: rhIL-12 was administered biweekly (100 ng/kg for 2 weeks; 300 ng/kg thereafter). A modified severity-weighted assessment tool (SWAT) and the longest diameter of 5 index lesions measured efficacy. RESULTS: Twenty-three MF patients (stage IA, 12 patients; IB, 9; and IIA, 2) had previously received >3 therapies. Ten of 23 patients (43%) achieved partial responses (PR); 7 (30%) achieved minor responses; and 5 (22%) had stable disease. The duration of PRs ranged from 3 to more than 45 weeks. Twelve (52%) ultimately progressed with mean time to progressive disease of 57 days (range, 28-805). Ten completed 6 months of therapy; 1 completed 24 months. Of patients not completing 6 months of therapy, 6 progressed and 6 others discontinued because of adverse events or withdrew consent. Seventeen patients had treatment-related adverse events that were generally mild or moderate in severity, including asthenia, headache, chills, fever, injection site reaction, pain, myalgia, arthralgia, elevated aspartate and alanine aminotransferase levels, anorexia, and sweating. One patient in PR died of hemolytic anemia, possibly exacerbated by rhIL-12 treatment. LIMITATIONS: The original company was purchased during the conduct of the trial and rhIL-12 is currently unavailable. The quality of life data were not available for inclusion. CONCLUSION: Twice-weekly subcutaneously administered rhIL-12 (100 ng/kg escalated to 300 ng/kg) showed antitumor activity with a response rate of 43% in refractory patients. It was relatively well-tolerated in early-stage MF.

Translational research in central nervous system drug discovery.

Of all the therapeutic areas, diseases of the CNS provide the biggest challenges to translational research in this era of increased productivity and novel targets. Risk reduction by translational research incorporates the "learn" phase of the "learn and confirm" paradigm proposed over a decade ago. Like traditional drug discovery in vitro and in laboratory animals, it precedes the traditional phase 1-3 studies of drug development. The focus is on ameliorating the current failure rate in phase 2 and the delays resulting from suboptimal choices in four key areas: initial test subjects, dosing, sensitive and early detection of therapeutic effect, and recognition of differences between animal models and human disease. Implementation of new technologies is the key to success in this emerging endeavor.

Vaccination of glioma patients with fusions of dendritic and glioma cells and recombinant human interleukin 12.

Despite aggressive treatment, the median survival of patients with high-grade malignant astrocytoma is about 1 year. The authors investigated the safety and clinical response to immunotherapy using fusions of dendritic and glioma cells combined with recombinant human interleukin 12 (rhIL-12) for the treatment of malignant glioma. Fifteen patients with malignant glioma participated in this study. Dendritic cells were generated from peripheral blood. Cultured autologous glioma cells were established from surgical specimens in each case. Fusion cells were prepared from dendritic and glioma cells using polyethylene glycol. All patients received fusion cells intradermally on day 1. rhIL-12 was injected subcutaneously at the same site on days 3 and 7. Response to the treatment was evaluated by clinical observations and radiologic findings. No serious adverse effects were observed. In four patients, magnetic resonance imaging showed a greater than 50% reduction in tumor size. One patient had a mixed response. These results show that administration of fusion cells and rhIL-12 safely induces clinical antitumor effects in some patients with malignant glioma.

Novel imidazole substituted 6-methylidene-penems as broad-spectrum beta-lactamase inhibitors.

Beta-lactamases are serine and metallo-dependent enzymes produced by the bacteria in defense against beta-lactam antibiotics. Production of class-A, class-B, and class-C enzymes by the bacteria make the use of beta-lactam antibiotics ineffective in certain cases. To overcome resistance to beta-lactam antibiotics, several beta-lactamase inhibitors such as clavulanic acid, sulbactam, and tazobactam are widely used in the clinic in combination with beta-lactam antibiotics. However, single point mutations within these enzymes have allowed bacteria to overcome the inhibitory effect of the commercially approved beta-lactamase inhibitors. Although the commercially available beta-lactamase inhibitor/beta-lactam antibiotic combinations are effective against class-A producing bacteria and many extended spectrum beta-lactamase (ESBL's) producing bacteria they are less effective against class-C enzymes expressing bacteria. To circumvent this problem, based on modeling studies several novel imidazole substituted 6-methylidene-penem derivatives were synthesized and tested against various beta-lactamase producing isolates. The present paper deals with the synthesis and structure-activity relationships (SAR) of these compounds.

The antiparasitic moxidectin: safety, tolerability, and pharmacokinetics in humans.

A study in healthy male volunteers was completed to evaluate the safety, tolerability, and pharmacokinetics of a single oral dose of the antiparasitic moxidectin (MOX). This drug is registered worldwide as a veterinary antiparasitic agent for use in companion and farm animals. This is the first study of MOX in humans. All subjects were between the ages of 18 and 45 years, with normal cardiac, hematologic, hepatic, and renal function. Doses of MOX studied were 3, 9, 18, and 36 mg in cohorts of 6 subjects each (5:1, MOX:placebo). At the 9-mg and 36-mg doses, two separate cohorts were completed, one in the fasted state and one after the consumption of a high-fat breakfast. For all other cohorts, administration was in the fasted state. Safety and tolerability were assessed by physical examinations, ongoing evaluation of adverse events (AEs), and measurement of laboratory values. Pharmacokinetic (PK) samples were collected just prior to dosing and at various time points until 80 days postdose. Safety assessments from all dose groups studied suggested that MOX was generally safe and well tolerated, with a slightly higher incidence of transient, mild, and moderate central nervous system AEs as the dose increased as compared to placebo. The PKs of MOX were dose proportional within the dose range studied, and the elimination half-life (t1/2 elim) was long (mean: 20.2-35.1 days). At the 9-mg and 36-mg doses, a high-fat breakfast was shown to delay and increase the overall absorption but did not increase maximal concentrations when compared to administration in the fasted state. In summary, the results from this study indicate that MOX is safe and well tolerated in humans between the doses of 3 mg and 36 mg.

Bacterial LPS and CpG DNA differentially induce gene expression profiles in mouse macrophages.

Bacterial DNA containing unmethylated CpG dinucleotides (CpG DNA) is a potent immune stimulating agent that holds strong promise in the treatment of many disorders. Studies have established that CpG DNA triggers an immune response through activated expression of genes in immune cells including macrophages. To dissect further the molecular mechanism(s) by which CpG DNA activates the immune system, we studied macrophage gene expression profiles in response to CpG DNA using microarray technology. Since CpG DNA is reported to use the TLR9 receptor that shares homology with the TLR4 receptor used by bacterial lipopolysaccharide (LPS), we also evaluated gene expression profiles in macrophages stimulated by LPS versus CpG DNA. Both CpG DNA and LPS modulate expression of a large array of genes. However, LPS modulated the expression of a much greater number of genes than did CpG DNA and all genes induced or repressed by CpG DNA were also induced or repressed by LPS. These data indicate that the CpG DNA signaling pathway through TLR9 activates only a subset of genes induced by the LPS TLR4 signaling pathway.

Regulation of gene expression in mouse macrophages stimulated with bacterial CpG-DNA and lipopolysaccharide.

CpG-DNA is known as a potent immunostimulating agent and may contribute in therapeutic treatment of many immune disorders. CpG-DNA triggers innate and acquired immune responses through activated expression of various genes in immune cells, including macrophages. To define the molecular mechanism(s) by which CpG-DNA activates immune cells, we studied macrophage gene expression following CpG-DNA exposure using high-density oligonucleotide microarrays. As CpG-DNA receptor Toll-like receptor 9 (TLR9) shares homology with the lipopolysaccharide (LPS)-TLR4 receptor, we compared gene expression profiles in macrophages stimulated by LPS versus CpG-DNA. CpG-DNA and LPS modulate expression of many genes encoding cytokines, cell surface receptors, transcription factors, and proteins related to cell proliferation/differentiation. However, LPS modulated expression of significantly more genes than did CpG-DNA, and all genes induced or repressed by CpG-DNA were induced or repressed by LPS. We conclude that CpG-DNA signaling through TLR9 activates a subset of genes induced by LPS-TLR4 signaling.