Differential regulation of Apak by various DNA damage signals

19q13.12 KRAB zinc-finger protein ZNF383 represses p53 signaling pathway by interacting with p53

As one of the most important tumor suppressors, the activity of p53 is precisely regulated. However, the mechanism of p53 regulation is still being elucidated and new regulatory molecules for p53 have also been frequently identified. Our previous works revealed that two members of the KRAB zinc-finger protein (KZFP) family Apak and PISA, which are located on human 19q13.12, participated in the regulation of p53 signaling pathway. KZFPs genes are mainly amplified via tandem in situ duplication during evolution, which indicates that similar sequences and functions may be conserved in evolutionarily and physically close KZFPs. Here, we revealed that ZNF383, another member of the KZFPs mapped at 19q13.12, could inhibit p53-mediated apoptosis and the activation of IFN-β pathway by decreasing the H3K36me2 level at p53's binding sites and the attenuating the binding of p53 to its target genes. We further explored the effect of other KZFPs clustered on 19q13.12 on p53, and found that 85% of these KZFPs exerted p53-repressive activity. Intriguingly, an acidic amino acid-enriched sequence, the SAcL motif in the zinc-finger domains of these KZFPs, was found to be critical for p53 binding. Taken together, our findings revealed the KZFPs cluster located at 19q13.12 not only was involved in p53 regulation but also exhibited different features in the selective regulation of p53 and functional mechanisms, and for the first time, confirmed a motif in KZFPs that mediates the interaction of KZFPs and p53. These results would enrich the knowledge on the role, sequence features, and functional mechanisms of the KZFP family in p53 regulation.

Apak competes with p53 for direct binding to intron 1 of p53AIP1 to regulate apoptosis

The KRAB-type zinc-finger protein Apak was recently identified as a negative regulator of p53-mediated apoptosis. However, the mechanism of this selective regulation is not fully understood. Here, we show that Apak recognizes the TCTTN2−30TTGT consensus sequence through its zinc-fingers. This sequence is specifically found in intron 1 of the proapoptotic p53 target gene p53AIP1 and largely overlaps with the p53-binding sequence. Apak competes with p53 for binding to this site to inhibit p53AIP1 expression. Upon DNA damage, Apak dissociates from the DNA, which abolishes its inhibitory effect on p53-mediated apoptosis.

ARF-dependent regulation of ATM and p53 associated KZNF (Apak) protein activity in response to oncogenic stress

The KRAB-type zinc-finger protein Apak (ATM and p53 associated KZNF protein) specifically suppresses p53-mediated apoptosis. Upon DNA damage, Apak is phosphorylated and inhibited by ATM kinase, resulting in p53 activation. However, how Apak is regulated in response to oncogenic stress remains unknown. Here we show that upon oncogene activation, Apak is inhibited in the tumor suppressor ARF-dependent but ATM-independent manner. Oncogene-induced ARF protein directly interacts with Apak and competes with p53 to bind to Apak, resulting in Apak dissociation from p53. Thus, Apak is differentially regulated in the ARF and ATM-dependent manner in response to oncogenic stress and DNA damage, respectively.