Background: The expression of several genes is modulated during neuroblastoma differentiation. The retinoblastoma family proteins, pRb, p107 and pRb2/p130, act in the repression of proliferation genes, interacting mainly with the E2F transcription factors.
Procedure and results: In this study, we found that, in neuroblastoma cell lines, pRb and p107 proteins decreased, undergoing progressive dephosphorylation, whereas pRb2/p130 increased at late stages of differentiation. B-myb expression was down-regulated in association with the up-regulation of pRb2/p130, the major partner of E2F on the E2F site of the B-myb promoter in differentiated cells. Transfection of each of the retinoblastoma family genes in neuroblastoma cells was able to induce neural differentiation, to inhibit 3H-thymidine incorporation, and to down-regulate B-myb promoter activity.
Conclusions: In conclusion, our data suggest a major contribution of retinoblastoma proteins, and especially of pRb2/p130, in B-myb promoter regulation and demonstrate the induction of neural differentiation by p107 and pRb2/p130, suggesting a role of these proteins in triggering differentiation-specific genes.