Abstract
Expression of the phosphatase of regenerating liver-3 (PRL-3) is known to promote tumor growth in gastrointestinal adenocarcinomas, and the incidence of tumor formation upon inflammatory events correlates with PRL-3 levels in mouse models. These carcinomas and their onset are associated with the impairment of intestinal cell homeostasis, which is regulated by a balanced number of Paneth cells and Lgr5 expressing intestinal stem cells (Lgr5+ ISCs). Nevertheless, the consequences of PRL-3 overexpression on cellular homeostasis and ISC fitness in vivo are unexplored. Here, we employ a doxycycline-inducible PRL-3 mouse strain to show that aberrant PRL-3 expression within a non-cancerous background leads to the death of Lgr5+ ISCs and to Paneth cell expansion. A higher dose of PRL-3, resulting from homozygous expression, led to mice dying early. A primary 3D intestinal culture model obtained from these mice confirmed the loss of Lgr5+ ISCs upon PRL-3 expression. The impaired intestinal organoid formation was rescued by a PRL inhibitor, providing a functional link to the observed phenotypes. These results demonstrate that elevated PRL-3 phosphatase activity in healthy intestinal epithelium impairs intestinal cell homeostasis, which correlates this cellular mechanism of tumor onset with PRL-3-mediated higher susceptibility to tumor formation upon inflammatory or mutational events.Key messages• Transgenic mice homozygous for PRL-3 overexpression die early.• PRL-3 heterozygous mice display disrupted intestinal self-renewal capacity.• PRL-3 overexpression alone does not induce tumorigenesis in the mouse intestine.• PRL-3 activity leads to the death of Lgr5+ ISCs and Paneth cell expansion.• Impairment of cell homeostasis correlates PRL-3 action with tumor onset mechanisms.
Highlights
phosphatase of regenerating liver-3 (PRL-3) (PTP4A3) belongs to the subfamily of the PRL proteins comprising three members (PRL-1, PRL-2, and PRL-3)
Expression and action of PRL-3 phosphatase are associated with malignant behavior in tumor progression and metastasis
We generated an inducible PRL-3 transgenic mouse model to conditionally overexpress human PRL-3 to mimic conditions observed in patients as close as possible
Summary
PRL-3 (PTP4A3) belongs to the subfamily of the PRL proteins comprising three members (PRL-1, PRL-2, and PRL-3). A PTP4A3 knockout mouse model was shown to be grossly normal, supporting non-essential roles for PRL-3 in healthy tissue [11]. These mice had a 50% reduced incidence of colon cancer formation when triggered by inflammation through the chemotoxins azoxymethane (AOM) and dextran sodium sulfate (DSS), reflecting a potential role for PRL-3 in cancer initiation [11]. In line with this study, a gain-of-function PRL-3 transgenic (TG) mouse model showed higher incidence of colon malignancy upon DSS treatment [12]. It is critical to further evaluate the consequence of PRL-3 expression in a gain-of-function mouse model system
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