The ΔN Isoform of the p73 Gene Is Induced during the G₀→G₁ Transition in Primary Human T Cells.

p73 is a member of the p53-family of transcription factors (p73, p53 and p63). A truncated form of p73 (ΔNp73) also exists that lacks the transcriptional activation domain and inhibits both p53 & p73. However, ΔNp73 transcripts have not been reported in normal tissues or peripheral blood. We now show for the first time that ΔNp73 mRNA and protein are not present in quiescent (G₀), primary human T cells but are induced post the G₀→G₁ cell cycle commitment point following stimulation with anti-CD3/CD28 or PMA/ionomycin. The ΔNp73 transcript could be produced either by activation of a promoter in intron 3 or from the 5′ P1 promoter by alternative splicing. Bisulfite sequencing shows that the intron 3 promoter is hypermethylated in T cells in G₀ and throughout the cell cycle while the 5′ P1 promoter remains largely unmethylated. 5′-RACE results with quiescent and stimulated T cells verify that ΔNp73 transcripts originate from the P1 promoter. Additionally, RT-PCR analyses show that the transcript originating from the P1 promoter is present in G₀ and mature ΔNp73 mRNA is produced by cell cycle-dependent splicing during the G₀→G₁ transition. We investigated the function of ΔNp73 during G₀→G₁ by inhibiting its induction with two different siRNAs. Microarray analyses show that expression of mRNA encoding a number of cell cycle regulators like E2F1, TCFL2 and CDT1 during G₀→G₁ are dependent on ΔNp73 and ΔNp73 represses the expression of the pro-apoptotic PUMA, a known p73 target. We conclude that ΔNp73 is produced in normal, human T cells during cell cycle entry and regulates normal gene expression. Moreover, the intron 3 promoter is hypermethylated, the ΔNp73 transcript originates at the P1 promoter and ΔNp73 mRNA is produced by cell cycle-dependent splicing.