The telomerase inhibitor PinX1 is a major haploinsufficient tumor suppressor essential for chromosome stability in mice
Xiao Zhen Zhou, … , Roderick Bronson, Kun Ping Lu
Xiao Zhen Zhou, … , Roderick Bronson, Kun Ping Lu
Published March 23, 2011
Citation Information: J Clin Invest. 2011;121(4):1266-1282. https://doi.org/10.1172/JCI43452.
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Research Article

The telomerase inhibitor PinX1 is a major haploinsufficient tumor suppressor essential for chromosome stability in mice

Abstract

Telomerase is activated in most human cancers and is critical for cancer cell growth. However, little is known about the significance of telomerase activation in chromosome instability and cancer initiation. The gene encoding the potent endogenous telomerase inhibitor PinX1 (PIN2/TRF1-interacting, telomerase inhibitor 1) is located at human chromosome 8p23, a region frequently exhibiting heterozygosity in many common human cancers, but the function or functions of PinX1 in development and tumorigenesis are unknown. Here we have shown that PinX1 is a haploinsufficient tumor suppressor essential for chromosome stability in mice. We found that PinX1 expression was reduced in most human breast cancer tissues and cell lines. Furthermore, PinX1 heterozygosity and PinX1 knockdown in mouse embryonic fibroblasts activated telomerase and led to concomitant telomerase-dependent chromosomal instability. Moreover, while PinX1-null mice were embryonic lethal, most PinX1+/– mice spontaneously developed malignant tumors with evidence of chromosome instability. Notably, most PinX1 mutant tumors were carcinomas and shared tissues of origin with human cancer types linked to 8p23. PinX1 knockout also shifted the tumor spectrum of p53 mutant mice from lymphoma toward epithelial carcinomas. Thus, PinX1 is a major haploinsufficient tumor suppressor essential for maintaining telomerase activity and chromosome stability. These findings uncover what we believe to be a novel role for PinX1 and telomerase in chromosome instability and cancer initiation and suggest that telomerase inhibition may be potentially used to treat cancers that overexpress telomerase.

Authors

Xiao Zhen Zhou, Pengyu Huang, Rong Shi, Tae Ho Lee, Gina Lu, Zhihong Zhang, Roderick Bronson, Kun Ping Lu

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Figure 4

PinX1 heterozygous knockout or knockdown leads to anaphase bridges, lagging chromosomes, and chromosome instability in MEFs.

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PinX1 heterozygous knockout or knockdown leads to anaphase bridges, lagg...
(AC) PinX1 knockout leads to anaphase bridges and chromosome instability at late passage. MEFs derived from PinX1+/+ and PinX1+/– littermates were continuously cultured using the 3T3 protocol and fixed at early (from 3 to 5) or late (~30) passage, followed by staining with DAPI to score for the frequency of anaphase bridges and/or lagging chromosomes (A and B) and by counting the number of chromosomes at metaphase chromosome spreads to score for aneuploidy (C). (DG) PinX1 knockdown leads to telomerase activation, telomere elongation, anaphase bridges, and chromosome instability at late passage. SV40 immortalized MEFs were stably infected with PinX1 shRNA or control viruses, followed by RT-PCR analysis (D) and TRAP assay using various amounts of telomerase-containing fractions (ng) (E) and semiquantified (Supplemental Figure 2C). Cells were continuously cultured, followed by analyzing telomere length using qFISH (F), anaphase bridges and/or lagging chromosomes at late (~20) passage (G). (HJ) Aneuploidy (H) and chromosome instability in PinX1+/– MEFs (I and J) at late passages. Insets show examples of chromosome translocations (left to right), the display color, the inverted DAPI counterstain, and the classification pseudocolor. Arrows in I and J point to chromosome fusions, while red arrows in insets point to centrosomes. Numbers indicate the chromosomal origin of each fragment. Insets in I show 3 examples of translocations between short arms of 2 different chromosomes, with each containing a centromere, while inset in J shows an example of a translocation between long arms of 2 different chromosomes, with 1 containing a centromere.