Hepatocellular carcinoma (HCC) is currently expected to be the sixth most common cancer and the fourth leading cause of cancer-related death globally [1]. Therefore, to identify novel biomarkers for HCC is valuable. We previously applied a genome-wide cDNA microarray analysis in some HCC tissues and found that proliferating cell nuclear antigen (PCNA)-associated factor (KIAA0101/p15PAF) was one of the overexpressed genes in HCC tissues (unpublished data). KIAA0101 was first cloned and sequenced from cDNA libraries of immature myeloid leukemia cell line KG-1 [2]. KIAA0101 protein is an oncoprotein containing 111 amino acid residues with a conserved PCNA-binding motif (PIP-box, at amino acid residues 62–72), and also known as p15(PAF) or PAF15 [3], OEATC-1 (overexpressed in anaplastic thyroid carcinoma 1) [4], and L5 [5].
KIAA0101 is a cell-cycle regulated oncoprotein that regulates DNA synthesis, maintenance of DNA methylation, and DNA-damage bypass, through the interaction with the human sliding clamp PCNA [3, 6–14]. KIAA0101 is part of a DNA-replication complex with PCNA, DNA polymerase delta (DNA Pol δ), and the endonuclease Fen-1 in the replication foci [6]. KIAA0101 is primarily expressed during the S-phase of the cell cycle [7]. KIAA0101 expression is negatively regulated by the Rb/E2F complex; loss of Rb/E2F-mediated inhibition during the G1/S transition leads to upregulated KIAA0101 expression in the S-phase [7]. Then, KIAA0101 protein levels drop rapidly at the mitotic exit (late M and G1 phases) via polyubiquitination mediated by the anaphase-promoting complex/cyclosome (APC/C) complex, a cell cycle-regulated E3 ubiquitin ligase, leading to its degradation by the proteasome [8]. The depletion of KIAA0101 significantly decreases DNA synthesis [6–9], indicating that KIAA0101 modulates the function of PCNA as a processivity factor [10, 11]. KIAA0101 is an intrinsically disordered protein that binds via its central PIP-box to the front-face of PCNA and its N-terminus interacts with the inner ring of PCNA and pass through the PCNA from the back-face [10, 11]. UHRF1, an E3 ubiquitin ligase, ubiquitinates the N-terminal of KIAA0101 at Lys 15 and Lys 24 during the S-phase [9, 12]. Both the interaction of KIAA0101, via its PIP-box, with PCNA and the double mono-ubiquitylation at Lys 15 and Lys 24 by UHRF1 are required for KIAA0101 function in both DNA synthesis and maintenance of DNA methylation [9, 12–14]. Following UV-induced DNA damage, the resultant replication-fork-blocks trigger rapid, proteasome-dependent removal of Lys 15/24-ubiquitylated KIAA0101 from PCNA, which allows the interaction between monoubiquitinated PCNA and the translesion DNA synthesis (TLS) DNA polymerase eta (POLH) at stalled replisomes, thus facilitating the bypass of replication-fork-blocking lesions [9]. Following TLS-mediated damage bypass, the reassociation of KIAA010 with PCNA may help to promote the dissociation of PCNA-associated TLS polymerases from PCNA and consequently resumption of normal replication [9].
KIAA0101 is overexpressed in various solid tumors [3–6, 15, 16]. In hepatocellular carcinoma (HCC), only a few studies have directly investigated the expression of KIAA0101 by using different antibodies with nonunanimous results [17–19]. First, as the antibody for KIAA0101 was not commercially available, Guo et al. prepared their own polyclonal rabbit antibody against a full-length KIAA0101-His tag and they reported down-regulated KIAA0101 protein expression in HCC as compared with non-cancerous liver tissues [17]. Later, Yuan et al. used semiquantitative reverse-transcription polymerase chain reaction (RT-PCR) for measurements of KIAA0101 mRNA, and a mouse monoclonal antibody against a full-length KIAA0101-GST tag (clone 3C11-1F11, Abnova) for immunohistochemical (IHC) analysis; they reported overexpression of KIAA0101 at both mRNA and protein levels in approximately 60% of HCCs, and found the association of KIAA0101 overexpression with the high-grade tumor, high-stage tumor, and early tumor recurrence and thus poor prognosis [18]. Besides, Yuan et al. also found a correlation of KIAA0101 overexpression with p53 mutation; p53 mutation occurred in approximately 50% of HCCs in their study [18]. Lastly, Liu et al. reported that KIAA0101 gene has 2 transcriptional variants produced by alternative splicing, leading to 2 protein variants: (1) KIAA0101 tv1 protein, the canonical sequence of 111 amino acid residues containing the PIP-box, and (2) KIAA0101 tv2 protein, the alternative sequence of 65 amino acid residues not containing the PIP-box [19, 20]. Liu et al. showed overexpression of KIAA0101 tv1 at both mRNA and protein levels in about 70% of HCC tissues (about 40% in stage I-II, and 80% in stage III-IV HCCs) as assessed by semiquantitative RT-PCR, virtual northern blot, western blot, and IHC analysis [19]. For IHC analysis, Liu et al. used a goat polyclonal antibody against a peptide mapping at the C-terminus of KIAA0101 (sc-65163 antibody, Santa Cruz Biotechnology). In addition, Liu et al. found that doxorubicin (Adriamycin, ADR) treatment down-regulated the expression of KIAA0101 tv1 whereas the treatment increased the acetylation of p53 [19]. They also showed that the induced overexpression of KIAA0101 tv1 in cell lines by transfection could diminish the ADR-mediated apoptosis and could suppress the transcriptional activation of p53 and the acetylation of p53 [19]. Recently, Liu et al. showed that KIAA0101 tv2 was highly expressed in adjacent non-tumorous liver tissues (NTs) as compared to HCC tissues, and KIAA0101 tv2 could induce cell cycle arrest and apoptosis [20]. Using transfection, Liu et al. showed that KIAA0101 tv2 could inhibit the function of KIAA0101 tv1 by partially down-regulating KIAA0101 tv1, acting similar to KIAA0101 tv1 short hairpin RNA (shRNA) [20]. Taken together, the canonical KIAA0101 (KIAA0101 tv1) overexpression might be used as a novel biomarker for HCC.
Gene amplification of cyclin D1, the regulatory component of the cyclin D1-CDK4 complex controlling the cell cycle G1/S transition, has been detected and implicated in HCC development and progression [21–23]. However, it remains unknown whether gene amplification of KIAA0101, the cell-cycle regulated oncoprotein, occurs and causally correlates with the KIAA0101 overexpression in HCC. This question is relevant to the development of the optimal test(s) for KIAA0101 and the strategies to target KIAA0101 in HCC. Currently, detecting absolute gene copy number by Droplet Digital PCR (ddPCR) enables high-throughput, as compared with fluorescence in situ hybridization (FISH), while maintaining the sensitivity and precision [24]. Therefore, the present study aims to correlate KIAA0101 overexpression at the mRNA level, detected by quantitative real-time PCR, with KIAA0101 gene copy number alterations detected by ddPCR in our collected HCC tissues. This study also aims to determine the relationships between KIAA0101 protein expression detected by IHC and other clinicopathological factors of HCC.