Pharmacologic profiling of transcriptional targets deciphers promoter logic

The blueprint for cellular diversity and response to environmental change is encoded in the cis-acting regulatory sequences of most genes. Deciphering this 'cis-regulatory code' requires multivariate data sets that examine how these regions coordinate transcription in response to diverse environmental stimuli and therapeutic treatments. We describe a transcriptional approach that profiles the activation of multiple transcriptional targets against combinatorial arrays of therapeutic and signal transducing agents. Application of this approach demonstrates how cis-element composition and promoter context combine to influence transcription downstream of mitogen-induced signaling networks. Computational dissection of these transcriptional profiles in activated T cells uncovers a novel regulatory synergy between IGF-1 and CD28 costimulation that modulates NF-kappaB and AP1 pathways through signaling cascades sensitive to cyclosporin A and wortmannin. This approach provides a broader view of the hierarchical signal integration governing gene expression and will facilitate a practical design of combinatorial therapeutic strategies for exploiting critical control points in transcriptional regulation.

The Arthus reaction in domestic cats

A classic Arthus reaction was elicited in normal domestic cats using chicken red blood cells as antigen. The response was quantitated grossly by measuring the area of the resulting skin bleb at several set time intervals and by microscopic examination of biopsies taken at the conclusion of each of the trials. This method produced an intense Arthus reaction in each of the cats tested.