Abstract
Retinoblastoma protein (RB) is a tumor suppressor gene product involved in embryogenesis and cell cycle progression. One of the major mechanisms leading to RB dysfunction is complex formation with viral oncoproteins using the common RB binding motif Leu × Cys × Glu (LXCXE) which has also been identified in cellular ligands, e.g., RBP‐1 and RBP‐2. p107, a cellular protein with RB sequence homology, has been shown to bind to the same viral oncoproteins associating with RB and is therefore thought to contribute to cell cycle regulation. It has recently been suggested that insulin stimulates gene transcription through direct association with an, as yet, unidentified intracellular transcription factor. Due to the central roles of RB and p107 in coupling external growth signals with the progression of the cell cycle clock, we have hypothesized that these two proteins might be candidates for mediating the effects of insulin of DNA. We report here the identification of a region in the B‐chain of human insulin that has the sequence LXCXE. Based on this finding we predict that the insulin B‐chain may interact with RB and/or p107. Since we have also identified sequences hydropathically related to LXCXE in insulin‐like growth factor I (IGF‐I) and II (IGF‐II), but not in relaxin, nerve growth factor, epidermal growth factor, glucagon or β‐endorphin, we further proposed that both IGF‐I and ‐II may assemble with RB and / or p107, too. Moreover, binding sites on RB and p107 identical with those suggested for viral oncoproteins and cellular ligands are predicted for insulin/IGF‐I/IGF‐II by using the hydropathic complementarity approach. Our proposal of associations between insulin/IGF‐I/IGF‐II and RB/p107 might be important for the understanding of cell growth regulation.