Abstract
ASPP2 is a pro-apoptotic protein that stimulates the p53-mediated
apoptotic response. The C terminus of ASPP2 contains
ankyrin (Ank) repeats and a SH3 domain, which mediate its
interactions with numerous partner proteins such as p53,NF B,
and Bcl-2. It also contains a proline-rich domain (ASPP2 Pro),
whose structure and function are unclear. Here we used biophysical
and biochemical methods to study the structure and the
interactions of ASPP2 Pro, to gain insight into its biological role.
We show, using biophysical and computational methods, that
the ASPP2 Pro domain is natively unfolded. We found that the
ASPP2 Pro domain interacts with the ASPP2 Ank-SH3
domains, and mapped the interaction sites in both domains.
Using a combination of peptide array screening, biophysical and
biochemical techniques, we found that ASPP2 Ank-SH3, but
not ASPP2 Pro, mediates interactions of ASPP2 with peptides
derived from its partner proteins. ASPP2 Pro-Ank-SH3 bound a
peptide derived from its partner protein NF B weaker than
ASPP2 Ank-SH3 bound this peptide. This suggested that the
presence of the proline-rich domain inhibited the interactions
mediated by the Ank-SH3 domains. Furthermore, a peptide from
ASPP2 Pro competed with a peptide derived from NF B on binding
to ASPP2 Ank-SH3. Based on our results, we propose a model
in which the interaction between theASPP2domains regulates the
intermolecular interactions of ASPP2 with its partner proteins.
Original language | Undefined/Unknown |
---|---|
Pages (from-to) | 18990-18999 |
Number of pages | 10 |
Journal | Journal of Biological Chemistry |
Volume | 283 |
Issue number | 27 |
Publication status | Published - 2008 |