Retinoic acid-induced remission

Separation of transactivation and AP1 antagonism functions of retinoic acid receptor alpha

Retinoic acid receptors (RARs) regulate gene expression either by directly binding to the RAR-responsive elements or by antagonizing the action of c-Jun/c-Fos (AP1). AP1 is involved in the expression of metalloproteases, cytokines and other factors which play critical roles in the turnover of extracellular matrix, inflammation and hyperproliferation in diseases such as psoriasis, rheumatoid arthritis and in tumor metastases. We demonstrate here that synthetic retinoids inhibit 12-O-tetradecanoylphorbol-14-acetate-induced transcription from the stromelysin AP1 motif through RAR alpha, -beta, and -gamma. Interestingly, these diaryl acetylenic retinoids, which are potent agonists only for RAR beta and RAR gamma, but not for RAR alpha, in transactivation assays, are able to inhibit AP1-dependent gene expression through RAR alpha. Thus these analogs can differentially affect the transactivation and AP1 antagonistic functions of RAR alpha. These results demonstrate that the transactivation and AP1 antagonistic functions are separable, and it should be possible to develop retinoids that are completely specific for AP1 antagonism through all RARs. Furthermore, using an RAR-selective ligand, we also demonstrate the separation of ligand binding and AP1 antagonism functions of RARs.

Molecular biology primer for the pediatric pathologist

Recent advances in the knowledge of molecular events of cell growth and differentiation have provided considerable gains to the understanding of neoplasia. Along with this understanding, molecular biology has yielded many new techniques of great potential for diagnostic use. This review illustrates, in general terms, current models of gene regulation, intracellular signal transduction, and the regulation of cell division that are relevant to pediatric pathologists. These concepts are used to examine the molecular pathology of three pediatric tumors: retinoblastoma, Wilms' tumor, and neuroblastoma. In addition, molecular biology techniques potentially useful to pediatric pathologists are discussed, with examples of some possible applications of these techniques. Hopefully, this review portrays the relevance of molecular biology to pediatric pathologists and serves as a useful guide to the interpretation of the molecular pathology literature.