Identification and characterization of a novel human cDNA encoding a 21 kDa pRb-associated protein

Abstract

The retinoblastoma protein (pRb) functions as a critical master regulator in cell cycle regulation, which is an important cell-regulatory process, through its interaction with various cellular proteins. Using the C-terminus of human pRb and the yeast two-hybrid system, a novel protein named RBP21 that contains 187 amino acid residues with a calculated molecular weight of 21 kDa was identified as a pRb-binding protein. Sequence analysis indicates that RBP21 shares homology with other retinoblastoma-binding proteins in the pRb-binding motif LxCxE at the C-terminal region. In vitro specific interaction between pRb and RBP21 was confirmed using in vitro translation products. When overexpressed in COS-7 cells, RBP21 could co-immunoprecipitate with pRb. This interaction requires the LxCxE motif of RBP21 and the entire pocket region of pRb. Each point mutation of the conserved amino acid residues in pRb-binding motif of RBP21 abolished its specific interaction with pRb. RH mapping result showed that this novel gene was mapped to chromosome region 15q21.1–21.3. Northern blot analysis suggested that RBP21 was widely expressed in various human tissues and cancer cell lines. When expressed in HeLa cells as a green fluorescent protein fusion, RBP21 was distributed throughout the cell.