Comparability assessments of process and product changes made during development of two different monoclonal antibodies.

To assess the impact of manufacturing changes on antibody structure and function during the course of product development, three comparability studies were performed for each of two different IgG1 monoclonal antibody product candidates. Comparability study #1 evaluated the effect of changing the cell line and bulk drug substance manufacturing process for cell culture and purification. Results indicated that these process changes led to differences in sialylation of N-glycans and/or C-terminal lysine levels. Comparability study #2 results confirmed that scale-up of the bulk process and transfer to the commercial site, combined with changing from a lyophilized to a liquid dosage form, did not impact the structural or functional integrity of the antibodies. Comparability study #3 examined possible differences arising when the liquid formulation filled into pre-filled syringes and vials. Results indicated nearly identical molecular structure, biological activity, and degradation profiles except for a small yet statistically significant increase in the levels of subvisible particles in pre-filled syringes. These results from comparability studies with two different monoclonal antibodies are discussed with respect to the timing of the manufacturing changes and overall comparability strategies to assure safety and efficacy during development.

Characterization of golimumab, a human monoclonal antibody specific for human tumor necrosis factor α.

We prepared and characterized golimumab (CNTO148), a human IgG1 tumor necrosis factor alpha (TNFα) antagonist monoclonal antibody chosen for clinical development based on its molecular properties. Golimumab was compared with infliximab, adalimumab and etanercept for affinity and in vitro TNFα neutralization. The affinity of golimumab for soluble human TNFα, as determined by surface plasmon resonance, was similar to that of etanercept (18 pM versus 11 pM), greater than that of infliximab (44 pM) and significantly greater than that of adalimumab (127 pM, p=0.018).  The concentration of golimumab necessary to neutralize TNFα-induced E-selectin expression on human endothelial cells by 50% was significantly less than those for infliximab (3.2 fold; p=0.017) and adalimumab (3.3-fold; p=0.008) and comparable to that for etanercept. The conformational stability of golimumab was greater than that of infliximab (primary melting temperature [Tm] 74.8 °C vs. 69.5 °C) as assessed by differential scanning calorimetry.  In addition, golimumab showed minimal aggregation over the intended shelf life when formulated as a high concentration liquid product (100 mg/mL) for subcutaneous administration.  In vivo, golimumab at doses of 1 and 10 mg/kg significantly delayed disease progression in a mouse model of human TNFα-induced arthritis when compared with untreated mice, while infliximab was effective only at 10 mg/kg. Golimumab also significantly reduced histological scores for arthritis severity and cartilage damage, as well as serum levels of pro-inflammatory cytokines and chemokines associated with arthritis. Thus, we have demonstrated that golimumab is a highly stable human monoclonal antibody with high affinity and capacity to neutralize human TNFα in vitro and in vivo.

Circulating human interleukin-8 as an indicator of cancer progression in a nude rat orthotopic human non-small cell lung carcinoma model.

Clinically relevant animal models of human cancer are necessary for the evaluation of putative therapeutics. We hypothesized that circulating human lung cancer-associated proteins would correlate with physiologic measurements from an orthotopic H460 human non-small cell lung carcinoma model that we developed in immunodeficient rats. Physiologic measurements and serum samples were collected over time. Serum interleukin-8 (IL-8), p53, vascular endothelial growth factor, and matrix metalloproteinase-9 were quantitated for correlation with physiologic measurements. Matrix metalloproteinase-9 and p53 were not significantly detectable. Circulating vascular endothelial growth factor was detected at high levels in some tumor-bearing animals. Human IL-8 was detectable in all tumor-bearing animals and correlated positively with markers of respiratory acidosis (pH, P = 0.012; TCO(2), P = 0.024; pCO(2), P = 0.007; and HCO(3)(-), P = 0.029) and with surface body temperature (P = 0.001) beginning on day 16 after implantation. IL-8 levels negatively correlated with survival (P < 0.001), indicating an association with tumor burden. Circulating human IL-8 might be a useful, clinically relevant circulating tumor protein marker due to its positive correlation with multiple physiologic variables associated with lung cancer progression.

Development of a method for the evaluation of wound tensile strength in cynomolgus macaques.

INTRODUCTION: Numerous in vivo wound healing models have been developed to evaluate the potential of drugs to affect the processes involved in wound healing, including angiogenesis. The majority of these models are frequently conducted in rodents, rabbits, and pigs and are terminal in nature. Due to the species specificity of many biotherapeutic molecules under development a non-terminal model in the cynomolgus monkey was evaluated in this study. METHODS: To evaluate wound tensile strength, 3 full thickness skin incisions (2 cm long and 3 mm deep) were created on each side of the midline with a micro-fine surgical scalpel. Wounds were closed with SteriStrips applied over Mastisol, and covered with Tegaderm. The animals were then fitted with primate jackets. In Study 1, 3 male macaques per group received daily intramuscular injections of saline or dexamethasone (1 mg/kg) from Day-1 through Day 11. In Study 2, 3 males macaques per treatment group received a single intravenous injection of saline or anti-VEGF mAb (20 mg/kg) on Day-1. In Studies 1 and 2 wounds were created on Day 1. In Study 3, 3 males and 3 female macaques per treatment group received anti-VEGF mAb (20 mg/kg) on Days 1, 8, 15 and 22. In study 3, wounds were created on Day 12. On Days 4, 8, and 11 relative to wound creation, two randomized incisions per animal were evaluated with a Biomechanical Tissue Characterization System. RESULTS: In Study 1, there was a statistically significant reduction in wound strength in the dexamethasone treated group on Day 11 as compared to saline negative control. There was a statistically significant reduction in wound strength in the anti-VEGF mAb treated animals on Day 8 as compared to saline in Study 2. Statistical evaluation of wound strength between saline treated animals and the anti-VEGF mAb treated animals showed a significant reduction in wound strength in the anti-VEGF mAb treatment group on Day 8 (Fig. 3). In all studies there were open wound sites at the time of evaluation, which ranged from 6 to 50% on Day 4, 3 to 17% on Day 8, and 6% on Day 11. DISCUSSION: These studies demonstrate a potential method for evaluating the strength of sterile incisional wounds in the cynomolgus monkey, which allows for multiple evaluations of wound strength within an animal over time in a non-terminal model. Dexamethasone and anti-VEGF mAb produced significant reductions in wound healing on Day 11 and 8, respectively. It was inconclusive whether the number of open incisional sites was related to the test article, incomplete closure at the time of surgery, or movement of the animals in the primate jacket.

11beta-HSD1 inhibition ameliorates metabolic syndrome and prevents progression of atherosclerosis in mice.

The enzyme 11beta-hydroxysteroid dehydrogenase (HSD) type 1 converts inactive cortisone into active cortisol in cells, thereby raising the effective glucocorticoid (GC) tone above serum levels. We report that pharmacologic inhibition of 11beta-HSD1 has a therapeutic effect in mouse models of metabolic syndrome. Administration of a selective, potent 11beta-HSD1 inhibitor lowered body weight, insulin, fasting glucose, triglycerides, and cholesterol in diet-induced obese mice and lowered fasting glucose, insulin, glucagon, triglycerides, and free fatty acids, as well as improved glucose tolerance, in a mouse model of type 2 diabetes. Most importantly, inhibition of 11beta-HSD1 slowed plaque progression in a murine model of atherosclerosis, the key clinical sequela of metabolic syndrome. Mice with a targeted deletion of apolipoprotein E exhibited 84% less accumulation of aortic total cholesterol, as well as lower serum cholesterol and triglycerides, when treated with an 11beta-HSD1 inhibitor. These data provide the first evidence that pharmacologic inhibition of intracellular GC activation can effectively treat atherosclerosis, the key clinical consequence of metabolic syndrome, in addition to its salutary effect on multiple aspects of the metabolic syndrome itself.

Neuroprotective effects of M826, a reversible caspase-3 inhibitor, in the rat malonate model of Huntington's disease.

1. Caspases, key enzymes in the apoptosis pathway, have been detected in the brain of HD patients and in animal models of the disease. In the present study, we investigated the neuroprotective properties of a new, reversible, caspase-3-specific inhibitor, M826 (3-([(2S)-2-[5-tert-butyl-3-[[(4-methyl-1,2,5-oxadiazol-3-yl)methyl]amino]-2-oxopyrazin-1(2H)-yl]butanoyl]amino)-5-[hexyl(methyl)amino]-4-oxopentanoic acid), in a rat malonate model of HD. 2. Pharmacokinetic and autoradiography studies after intrastriatal (i.str.) injection of 1.5 nmol of M826 or its tritiated analogue [(3)H]M826 indicated that the compound diffused within the entire striatum. The elimination half-life (T(1/2)) of M826 in the rat striatum was 3 h. 3. I.str. injection of 1.5 nmol of M826 10 min after malonate infusion induced a significant reduction (66%) in the number of neurones expressing active caspase-3 in the ipsilateral striatum. 4. Inhibition of active caspase-3 translated into a significant but moderate reduction (39%) of the lesion volume, and of cell death (24%), 24 h after injury. The efficacy of M826 at inhibiting cell death was comparable to that of the noncompetitive NMDA receptor antagonist MK801. 5. These data provide in vivo proof-of-concept of the neuroprotective effects of reversible caspase-3 inhibitors in a model of malonate-induced striatal injury in the adult rat.

Statistical and graphical methods for quality control determination of high-throughput screening data.

High-throughput screening (HTS) is used in modern drug discovery to screen hundreds of thousands to millions of compounds on selected protein targets. It is an industrial-scale process relying on sophisticated automation and state-of-the-art detection technologies. Quality control (QC) is an integral part of the process and is used to ensure good quality data and mini mize assay variability while maintaining assay sensitivity. The authors describe new QC methods and show numerous real examples from their biologist-friendly Stat Server HTS application, a custom-developed software tool built from the commercially available S-PLUS and Stat Server statistical analysis and server software. This system remotely processes HTS data using powerful and sophisticated statistical methodology but insulates users from the technical details by outputting results in a variety of readily interpretable graphs and tables. It allows users to visualize HTS data and examine assay performance during the HTS campaign to quickly react to or avoid quality problems.

Improved statistical methods for hit selection in high-throughput screening.

High-throughput screening (HTS) plays a central role in modern drug discovery, allowing the rapid screening of large compound collections against a variety of putative drug targets. HTS is an industrial-scale process, relying on sophisticated automation, control, and state-of-the art detection technologies to organize, test, and measure hundreds of thousands to millions of compounds in nano- to microliter volumes. Despite this high technology, hit selection for HTS is still typically done using simple data analysis and basic statistical methods. The authors discuss in this article some shortcomings of these methods and present alternatives based on modern methods of statistical data analysis. Most important, they describe and show numerous real examples from the biologist-friendly Stat Server HTS application (SHS), a custom-developed software tool built on the commercially available S-PLUS and StatServer statistical analysis and server software. This system remotely processes HTS data using powerful and sophisticated statistical methodology but insulates users from the technical details by outputting results in a variety of readily interpretable graphs and tables.

Alpha(4)beta(7)/alpha(4)beta(1) dual integrin antagonists block alpha(4)beta(7)-dependent adhesion under shear flow.

The alpha(4) integrin, alpha(4)beta(7), plays an important role in recruiting circulating lymphocytes to the gastrointestinal tract, where its ligand mucosal addressin cell adhesion molecule-1 (MAdCAM-1) is preferentially expressed on high endothelial venules (HEVs). Dual antagonists of alpha(4)beta(1) and alpha(4)beta(7), N-(2,6-dichlorobenzoyl)-(L)-4-(2',6'-bis-methoxyphenyl)phenylalanine (TR14035) and N-(N-[(3,5-dichlorobenzene)sulfonyl]-2-(R)-methylpropyl)-(D)-phenylalanine (compound 1), were tested for their ability to block the binding of alpha(4)beta(7)-expressing cells to soluble ligand in suspension and under in vitro and in vivo shear flow. Compound 1 and TR14035 blocked the binding of human alpha(4)beta(7) to an (125)I-MAdCAM-Ig fusion protein with IC(50) values of 2.93 and 0.75 nM, respectively. Both compounds inhibited binding of soluble ligands to alpha(4)beta(1) or alpha(4)beta(7) on cells of human or rodent origin with similar potency. Under shear flow in vitro, TR14035 and compound 1 blocked binding of human alpha(4)beta(7)-expressing RPMI-8866 cells or murine mesenteric lymph node lymphocytes to MAdCAM-Ig with IC(50) values of 0.1 and 1 microM, respectively. Intravital microscopy was used to quantitate alpha(4)-dependent adhesion of fluorescent murine lymphocytes in Peyer's patch HEVs. When cells were prestimulated with 2 mM Mn(2+) to activate alpha(4)beta(7) binding to ligand, anti-alpha(4) monoclonal antibody (mAb) [10 mg/kg (mpk) i.v.] blocked adhesion by 95%, and anti-beta(1) mAb did not block adhesion, demonstrating that this interaction was dependent on alpha(4)beta(7). TR14035 blocked adhesion to HEVs [ED(50) of 0.01-0.1 mpk i.v.], and compound 1 blocked adhesion by 47% at 10 mpk i.v. Thus, alpha(4)beta(7)/alpha(4)beta(1) antagonists blocked alpha(4)beta(7)-dependent adhesion of lymphocytes to HEVs under both in vitro and in vivo shear flow.