"All pigs are equal" Does the background data from juvenile Göttingen minipigs support this?

For pediatric indications requiring juvenile toxicity testing, the rat is the preferred species. However, for some drugs it might not be an appropriate model or regulatory agencies may also request a non-rodent species. Due to the relatively recent use of Göttingen minipigs, little background data are available. This shortage of historical data can raise concerns with respect to interpretation, thus potentially discouraging investigators. This article presents background data from 82 piglets collected at different ages. The data described show the normal variations and changes which are important in the interpretations of these studies. Age-related changes were observed for several cardiac and clinical pathology parameters and in the haematopoietic tissues. Therefore, all pigs were not considered equal. It can be concluded that these data can be used as guidance, to support the concurrent study control data but cannot completely replace them.

A Novel RAF Kinase Inhibitor with DFG-Out-Binding Mode: High Efficacy in BRAF-Mutant Tumor Xenograft Models in the Absence of Normal Tissue Hyperproliferation.

BI 882370 is a highly potent and selective RAF inhibitor that binds to the DFG-out (inactive) conformation of the BRAF kinase. The compound inhibited proliferation of human BRAF-mutant melanoma cells with 100× higher potency (1-10 nmol/L) than vemurafenib, whereas wild-type cells were not affected at 1,000 nmol/L. BI 882370 administered orally was efficacious in multiple mouse models of BRAF-mutant melanomas and colorectal carcinomas, and at 25 mg/kg twice daily showed superior efficacy compared with vemurafenib, dabrafenib, or trametinib (dosed to provide exposures reached in patients). To model drug resistance, A375 melanoma-bearing mice were initially treated with vemurafenib; all tumors responded with regression, but the majority subsequently resumed growth. Trametinib did not show any efficacy in this progressing population. BI 882370 induced tumor regression; however, resistance developed within 3 weeks. BI 882370 in combination with trametinib resulted in more pronounced regressions, and resistance was not observed during 5 weeks of second-line therapy. Importantly, mice treated with BI 882370 did not show any body weight loss or clinical signs of intolerability, and no pathologic changes were observed in several major organs investigated, including skin. Furthermore, a pilot study in rats (up to 60 mg/kg daily for 2 weeks) indicated lack of toxicity in terms of clinical chemistry, hematology, pathology, and toxicogenomics. Our results indicate the feasibility of developing novel compounds that provide an improved therapeutic window compared with first-generation BRAF inhibitors, resulting in more pronounced and long-lasting pathway suppression and thus improved efficacy.

Two cases of adreno-hepatic fusion in cynomolgus monkeys (Macaca fascicularis).

In this report we describe 2 cases of adreno-hepatic fusion (AHF) in Cynomolgus monkeys (Macaca fascicularis) used in short-term toxicity studies. AHF is defined as the union of hepatic tissue with the adrenal gland with close intermingling of the respective parenchymal cells. In this condition, a continuous intervening connective tissue septum is lacking. AHF is believed to be a congenital anomaly caused by a defect or delay in the formation of the organ capsules from the intermediate primitive mesenchymal stroma. To our knowledge, this is the first time this anomaly is described in the monkey.