STP position paper: interpreting the significance of increased alveolar macrophages in rodents following inhalation of pharmaceutical materials.

The Scientific and Regulatory Policy Committee of the Society of Toxicologic Pathology (STP) appointed a working group to address risk assessment for increases in alveolar macrophages following inhalation of pharmaceutical materials. This position paper provides recommendations for inhalation study-specific terminology and interpretation based on literature and information from marketed inhaled drugs. Based on a weight-of-the-evidence approach, and with appropriate consideration of the physical and pharmacological characteristics of the compound, uncomplicated increases in the size or number of alveolar macrophages in nonclinical species are interpreted as nonadverse.

The hepatic transcriptome as a window on whole-body physiology and pathophysiology.

Transcriptomics can be a valuable aid to pathologists. The information derived from microarray studies may soon include the entire transcriptomes of most cell types, tissues and organs for the major species used for toxicology and human disease risk assessment. Gene expression changes observed in such studies relate to every aspect of normal physiology and pathophysiology. When interpreting such data, one is forced to look "far from the lamp post:' and in so doing, face one's ignorance of many areas of biology. The central role of the liver in toxicology, as well as in many aspects of whole-body physiology, makes the hepatic transcriptome an excellent place to start your studies. This article provides data that reveals the effects of fasting and circadian rhythm on the rat hepatic transcriptome, both of which need to be kept in mind when interpreting large-scale gene expression in the liver. Once you become comfortable with evaluating mRNA expression profiles and learn to correlate these data with your clinical and morphological observations, you may wonder why you did not start your studies of transcriptomics sooner. Additional study data can be viewed at the journal website at (www.toxpath.org). Two data files are provided in Excel format, which contain the control animal data from each of the studies referred to in the text,including normalized signal intensity data for each animal (n=5) in the 6-hour, 24-hour, and 5-day time points. These files are briefly described in the associated 'Readme' file, and the complete list of GenBank numbers and Affymetrix IDs are provided in a separate txt file. These files are available at http://taylorandfrancis.metapress.comlopenurl.asp?genre=journal&issn=0192-6233. Click on the issue link for 33(1), then select this article. A download option appears at the bottom of this abstract. In order to access the full article online, you must either have an individual subscription or a member subscription accessed through (www.toxpath.org).

Promotion of colon tumors in C57BL/6J-APC(min)/+ mice by thiazolidinedione PPARgamma agonists and a structurally unrelated PPARgamma agonist.

Thiazolidinedione PPARgamma agonists (troglitazone and rosiglitazone) were previously shown to promote colon tumor formation in C57BL/6J-APC(min)/+ mice, a model for human familial adenomatous polyposis. This study was conducted to determine if another thiazolidinedione PPARgamma agonist, pioglitazone, and a PPARgamma agonist structurally unrelated to the thiazolidinedione family, NID525, (a tetrazole-substituted phenoxymethylquinolone), would also promote colon tumors in this mouse model. Mice were treated in-feed with the thiazolidinediones troglitazone (150 mg/kg/day), rosiglitazone (20 mg/kg/day), or pioglitazone (150 mg/kg/day), or with NID525 (150 mg/kg/day) for 8 weeks. An increased incidence in colon tumors compared to controls was observed for all of the thiazolidinedione-treated groups as well as the NID525-treated group. These results indicate that the tumor-promoting effect of PPARgamma agonists in the colon of C57BL/6J-APC(min)/+ mice is likely related to the pharmacological activity of this group of drugs and not the thiazolidinedione structure.