TP63 gain-of-function mutations cause premature ovarian insufficiency by inducing oocyte apoptosis
Chengzi Huang, … , Zi-Jiang Chen, Shidou Zhao
Chengzi Huang, … , Zi-Jiang Chen, Shidou Zhao
Published March 1, 2023
Citation Information: J Clin Invest. 2023;133(5):e162315. https://doi.org/10.1172/JCI162315.
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Research Article Genetics Reproductive biology

TP63 gain-of-function mutations cause premature ovarian insufficiency by inducing oocyte apoptosis

Abstract

The transcription factor p63 guards genome integrity in the female germline, and its mutations have been reported in patients with premature ovarian insufficiency (POI). However, the precise contribution of the TP63 gene to the pathogenesis of POI needs to be further determined. Here, in 1,030 Chinese patients with POI, we identified 6 heterozygous mutations of the TP63 gene that impaired the C-terminal transactivation-inhibitory domain (TID) of the TAp63α protein and resulted in tetramer formation and constitutive activation of the mutant proteins. The mutant proteins induced cell apoptosis by increasing the expression of apoptosis-inducing factors in vitro. We next introduced a premature stop codon and selectively deleted the TID of TAp63α in mice and observed rapid depletion of the p63+/ΔTID mouse oocytes through apoptosis after birth. Finally, to further verify the pathogenicity of the mutation p.R647C in the TID that was present in 3 patients, we generated p63+/R647C mice and also found accelerated oocyte loss, but to a lesser degree than in the p63+/ΔTID mice. Together, these findings show that TID-related variants causing constitutive activation of TAp63α lead to POI by inducing oocyte apoptosis, which will facilitate the genetic diagnosis of POI in patients and provide a potential therapeutic target for extending female fertility.

Authors

Chengzi Huang, Simin Zhao, Yajuan Yang, Ting Guo, Hanni Ke, Xin Mi, Yingying Qin, Zi-Jiang Chen, Shidou Zhao

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Figure 3

Generation and characterization of p63+/ΔTID mice.

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Generation and characterization of p63+/ΔTID mice. (A) Strategy for the ...
(A) Strategy for the generation of p63+/ΔTID (referred to in the figures as HET) mice. The c.1828_1829insGA (NM_001127259.1) mutation was introduced into exon 14, leading to the formation of a stop codon and loss of the TID. The primers used for genotyping the WT and p63+/ΔTID mice are shown. For, forward; Rev, reverse. (B) Agarose gel electrophoresis of the PCR products obtained from genomic DNA of WT and p63+/ΔTID mice. Sanger sequencing confirmed the creation of the insert mutation. (C) Western blot analysis of p63 expression in protein extracts from P1 WT and p63+/ΔTID mouse ovaries. β-Actin was used as the loading control. (D) IF staining for DDX4 (green) and p63 (red) in ovary sections from P1 WT and p63+/ΔTID mice. Cell nuclei were counterstained with DAPI (blue). Scale bars: 50 μM. (E) Gross morphology of 4M WT and p63+/ΔTID females. (F) No significant difference in body weights was observed between 4M WT and p63+/ΔTID mice. n = 6 per group. An unpaired, 2-tailed Student’s t test was used for the comparison of the 2 groups. (G) Number of pups obtained by crossing p63+/ΔTID males (green line) and p63+/ΔTID females (red line) with WT mice for a period of 6 months. n = 6 per group.