Cyclin-dependent kinases (cdks) play a crucial role in cell cycle regulation and are considered promising targets for cancer therapy. Intravenous administration of AG-012986, a pan-cyclin-dependent kinase inhibitor (cdk(i)), resulted in unexpected retinal and peripheral nerve toxicity in mice. AG-012986 was administered daily to CD-1 or B6C3F1 mice for 5 consecutive days. Mice were euthanized 24 h after the last dose (study day 6) or after a 21-day post-dose period (study day 26). Compound related microscopic findings were seen in the sciatic nerves (axonal degeneration) of both strains and in the retina (retinal degeneration/atrophy) of CD-1 mice only after the post-dose period. Although retinal degeneration/atrophy was not detected by routine histology in mice euthanized on day 6, apoptotic retinal cells were evident at this time using TUNEL assay. To our knowledge retinal or peripheral nerve toxicity secondary to the administration of cdk(i)s has not been previously reported. Although the pathogenesis of these lesions is unclear, the toxicities may reflect the unique profile of cdk inhibition, off-target kinase inhibition or receptor binding, or metabolism/distribution properties of AG-012986. Multi-targeted-inhibitors may interfere with cdks and other kinases involved in a wide range of functions other than cell cycle regulation, which could result in unexpected toxicities that may hinder their clinical applications.
The 6-month Tg.rasH2 mouse carcinogenicity model provides an acceptable alternative to the 2-year carcinogenicity study in CD-1 mice. However, key questions related to the use of this model for testing antisense oligonucleotides (ASOs) include the similarity in the biologic response between mouse strains and the feasibility of using data from the CD-1 mouse to set doses and dose schedules for a Tg.rasH2 carcinogenicity study. To evaluate the potential strain differences, four distinct 2 0-O-(2-methoxyethyl) ASOs were administered to CByB6F1 (wild type), Tg.rasH2 (hemizygous), and CD-1 mice. There were no meaningful differences in clinical signs, body weight, food consumption, or serum chemistry and hematology parameters. Histopathology evaluation indicated little to no difference in the spectrum or magnitude of changes present. The cytokine/chemokine response was also not appreciably different between the strains. This was consistent with the similarity in ASO concentration in the liver between the mouse strains tested. As the class effects of the ASOs were not meaningfully different between CD-1, CByB6F1, or Tg.rasH2 mice, data from nonclinical studies in CD-1 mice can be used for dose selection and expectation of effect in the Tg.rasH2 mouse.
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