Your search keyword '"Harder JB"' showing total 3 results

1. Preclinical pharmacokinetics, metabolism, and toxicity of azurin-p28 (NSC745104) a peptide inhibitor of p53 ubiquitination.

Author

Jia L, Gorman GS, Coward LU, Noker PE, McCormick D, Horn TL, Harder JB, Muzzio M, Prabhakar B, Ganesh B, Das Gupta TK, and Beattie CW

Subjects

Animals, Antineoplastic Agents metabolism, Antineoplastic Agents therapeutic use, Azurin metabolism, Azurin therapeutic use, Biotransformation, Cell Line, Tumor, Drug Evaluation, Preclinical, Female, Humans, Macaca fascicularis, Male, Mice, Mice, Nude, No-Observed-Adverse-Effect Level, Peptide Fragments adverse effects, Peptide Fragments metabolism, Peptide Fragments therapeutic use, Specific Pathogen-Free Organisms, Tumor Burden drug effects, Tumor Suppressor Protein p53 metabolism, Ubiquitination drug effects, Xenograft Model Antitumor Assays, Antineoplastic Agents adverse effects, Antineoplastic Agents pharmacokinetics, Azurin adverse effects, Azurin pharmacokinetics, Neoplasms drug therapy, Peptide Fragments pharmacokinetics, Tumor Suppressor Protein p53 antagonists & inhibitors

Abstract

Purpose: Characterize the preclinical pharmacokinetics, metabolic profile, multi-species toxicology, and antitumor efficacy of azurin-p28 (NSC 745104), an amphipathic, 28 amino acid fragment (aa 50-77) of the copper containing redox protein azurin that preferentially enters cancer cells and is currently under development for treatment of p53-positive solid tumors., Methods: An LC/MS/MS assay was developed, validated, and applied to liver microsomes, serum, and tumor cells to assess cellular uptake and metabolic stability. Pharmacokinetics was established after administration of a single intravenous dose of p28 in preclinical species undergoing chronic toxicity testing. Antitumor efficacy was assessed on human tumor xenografts. A human therapeutic dose was predicted based on efficacy and pharmacokinetic parameters., Results: p28 is stable, showed tumor penetration consistent with selective entry into tumor cells and significantly inhibited p53-positive tumor growth. Renal clearance, volume of distribution, and metabolic profile of p28 was relatively similar among species. p28 was non-immunogenic and non-toxic in mice and non-human primates (NHP). The no observed adverse effect level (NOAEL) was 120 mg/kg iv in female mice. A NOAEL was not established for male mice due to decreased heart and thymus weights that was reversible and did not result in limiting toxicity. In contrast, the NOAEL for p28 in NHP was defined as the highest dose (120 mg/kg/dose; 1,440 mg/m(2)/dose) studied. The maximum-tolerated dose (MTD) for subchronic administration of p28 to mice is >240 mg/kg/dose (720 mg/m(2)/dose), while the MTD for subchronic administration of p28 to Cynomolgous sp. is >120 mg/kg (1,440 mg/m(2)/dose). The efficacious (murine) dose of p28 was 10 mg/kg ip per day., Conclusions: p28 does not exhibit preclinical immunogenicity or toxicity, has a similar metabolic profile among species, and is therapeutic in xenograft models.

Published

2011

2. Integration of in vivo and in vitro approaches to characterize the toxicity of Antalarmin, a corticotropin-releasing hormone receptor antagonist.

Author

Horn TL, Harder JB, Johnson WD, Curry PT, Parchment RE, Morrissey RL, Mellick PW, Calis KA, Gold PW, Rice KC, Contoreggi C, Charney DS, Cizza G, Glaze ER, Tomaszewski JE, and McCormick DL

Subjects

Animals, Bone Marrow Cells drug effects, Bone Marrow Cells pathology, Cell Line, Tumor, Colony-Forming Units Assay, Dogs, Female, Humans, Kidney drug effects, Kidney pathology, Liver drug effects, Liver pathology, Male, Mice, Mutagenicity Tests, No-Observed-Adverse-Effect Level, Rats, Rats, Inbred F344, Salmonella typhimurium drug effects, Salmonella typhimurium genetics, Vomiting chemically induced, Pyrimidines toxicity, Pyrroles toxicity, Receptors, Corticotropin-Releasing Hormone antagonists & inhibitors

Abstract

Non-clinical studies were conducted to evaluate the toxicity of Antalarmin, a corticotropin-releasing hormone type 1 receptor antagonist being developed for therapy of stress-related pathologies. Antalarmin was not genotoxic in bacterial mutagenesis assays, mammalian cell mutagenesis assays, or in vivo DNA damage assays. In a 14-day range-finding study in rats, Antalarmin doses >or=500 mg/kg/day (3,000 mg/m(2)/day) induced mortality. In a 90-day toxicity study in rats, no gross toxicity was seen at doses of 30, 100, or 300 mg/kg/day (180, 600, or 1,800 mg/m(2)/day, respectively). Antalarmin (300 mg/kg/day) induced mild anemia, increases in serum gamma-glutamyl transferase activity, and microscopic hepatic pathology (bile duct hyperplasia and epithelial necrosis, periportal inflammation). Microscopic renal changes (cortical necrosis, inflammation, hypertrophy, nephropathy) were observed in rats at all Antalarmin doses. In a 14-day range-finding study in dogs, Antalarmin doses >or=50mg/kg/day (1,000 mg/m(2)/day) induced repeated emesis and bone marrow suppression. In a 90-day toxicity study in dogs, Antalarmin (4, 8, or 16 mg/kg/day (80, 160, or 320 mg/m(2)/day, respectively)) induced bone marrow and lymphoid depletion, but no gross toxicity. Comparative in vitro studies using rat, dog, and human neutrophil progenitors demonstrated that canine bone marrow cells are highly sensitive to Antalarmin cytotoxicity, while rat and human bone marrow cells are relatively insensitive. As such, the bone marrow toxicity observed in dogs is considered likely to over-predict Antalarmin toxicity in humans. The hepatic and renal toxicities seen in rats exposed to Antalarmin identify those tissues as the most likely targets for Antalarmin toxicity in humans.

Published

2008

3. Design, construction, and validation of a large capacity rodent magnetic field exposure laboratory.

Author

Gauger JR, Johnson TR, Stangel JE, Patterson RC, Williams DA, Harder JB, and McCormick DL

Subjects

Air Movements, Animals, Carcinogens adverse effects, Electromagnetic Fields, Environmental Monitoring, Humidity, Lighting, Mice, Noise, Rats, Reproducibility of Results, Rotation, Temperature, Toxicology, Vibration, Environmental Exposure, Facility Design and Construction, Laboratories, Magnetics, Technology, Radiologic instrumentation

Abstract

A magnetic field exposure laboratory has been constructed to support National Toxicology Program studies for the evaluation of the toxicity and carcinogenicity of pure, linearly polarized, 60 Hz magnetic fields in rodents. This dual corridor, controlled access facility can support the simultaneous exposure of 1200 rats and 1200 mice. The facility contains fully redundant electrical and environmental control systems and was constructed using non-metallic materials to maintain low levels of background (ambient), stray, and cross-talk magnetic fields. The exposure module design provides for large uniform exposure volumes with good control of stray and cross-talk fields, while allowing the use of roll-around cage racks for simplified animal husbandry. Stray fields and cross-talk have been further reduced by the inclusion of "steering coils" in each exposure module. Ambient 60 Hz fields (less cross-talk) in all exposure rooms are <0.1 microT (1 mG), and static magnetic fields have been mapped extensively. Magnetic field strength, waveform, temperature, relative humidity, light intensity, noise level, vibration, and air flow in all animal holding areas are tightly regulated, and are monitored continuously during all studies. Field uniformity in the animal exposure volumes is better than -/+l0%; a systematic program of cage, rack, and room rotation controls for possible positional effects within the exposure system. Magnetic fields are turned on and off over multiple cycles to prevent the induction of transients associated with abrupt field level changes. Total harmonic distortion is <3% at all field strengths. The facility has been used to study magnetic field bioeffects in rodent model systems in experiments ranging in duration from 8 weeks to 2 years.

Published

1999