p53, p63 and p73–solos, alliances and feuds among family members

UM Moll, S Erster, A Zaika - Biochimica et Biophysica Acta (BBA)-Reviews …, 2001 - Elsevier
UM Moll, S Erster, A Zaika
Biochimica et Biophysica Acta (BBA)-Reviews on Cancer, 2001Elsevier
p53 controls crucial stress responses that play a major role in preventing malignant
transformation. Hence, inactivation of p53 is the single most common genetic defect in
human cancer. With the recent discovery of two close structural homologs, p63 en p73, we
are getting a broader view of a fascinating gene family that links developmental biology with
tumor biology. While unique roles are apparent for each of these genes, intimate
biochemical cross-talk among family members suggests a functional network that might …
p53 controls crucial stress responses that play a major role in preventing malignant transformation. Hence, inactivation of p53 is the single most common genetic defect in human cancer. With the recent discovery of two close structural homologs, p63 en p73, we are getting a broader view of a fascinating gene family that links developmental biology with tumor biology. While unique roles are apparent for each of these genes, intimate biochemical cross-talk among family members suggests a functional network that might influence many different aspects of individual gene action. The most interesting part of this family network derives from the fact that the p63 and p73 genes are based on the ‘two-genes-in-one’ idea, encoding both agonist and antagonist in the same open reading frame. In this review, we attempt to present an overview of the current status of this fast moving field.
Elsevier