Abstract
Gasdermin E (GSDME), also known as deafness autosomal dominant 5 (DFNA5) and previously identified to be an inducer of regulated cell death, is frequently epigenetically inactivated in different cancer types, suggesting that GSDME is a tumor suppressor gene. In this study, we aimed to evaluate the tumor-suppressive effects of GSDME in two intestinal cancer mouse models. To mimic the silencing of GSDME by methylation as observed in human cancers, a Gsdme knockout (KO) mouse was developed. The effect of GSDME on tumorigenesis was studied both in a chemically induced and in a genetic intestinal cancer mouse model, as strong evidence shows that GSDME plays a role in human colorectal cancer and representative mouse models for intestinal cancer are available. Azoxymethane (AOM) was used to induce colorectal tumors in the chemically induced intestinal cancer model (n = 100). For the genetic intestinal cancer model, Apc1638N/+ mice were used (n = 37). In both experiments, the number of mice bearing microscopic proliferative lesions, the number and type of lesions per mouse and the histopathological features of the adenocarcinomas were compared between Gsdme KO and wild type (WT) mice. Unfortunately, we found no major differences between Gsdme KO and WT mice, neither for the number of affected mice nor for the multiplicity of proliferative lesions in the mice. However, recent breakthroughs on gasdermin function indicate that GSDME is an executioner of necrotic cell death. Therefore, it is possible that GSDME may be important for creating an inflammatory microenvironment around the tumor. This is in line with the trend towards more severe inflammation in WT compared to Gsdme KO mice, that we observed in our study. We conclude that the effect of GSDME in tumor biology is probably more subtle than previously thought.
Highlights
We evaluated the tumor-suppressive effects of Gasdermin E (GSDME) in two intestinal cancer mouse models
May be in creating an inflammatory microenvironment around the tumor, by induction of necrosis or pyroptosis. This is in line with what we found in our study; moderate mucosal inflammation in the small intestine was more often present in Apc1638N/+ Gsdme wild type (WT) compared to Apc1638N/+ Gsdme KO
We expected more affected Gsdme KO mice and more adenocarcinomas or proliferative lesions in the Gsdme KO compared to the WT mice
Summary
Gasdermin E (GSDME), known as deafness autosomal dominant 5 (DFNA5), was discovered in our lab as a gene responsible for a specific form of nonsyndromic, autosomal dominant hearing loss [1].Previously, we demonstrated that GSDME has the capacity to induce regulated cell death [2,3,4].Since its discovery in 1998, a number of studies on GSDME have been published, pointing towards a possible involvement in cancer [2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17]. GSDME as a possible tumor suppressor gene [11,13,14]. GSDME methylation was previously shown in primary gastric [14], breast [6,7,12], and colorectal cancer [5,9,13]. In vitro studies showed an increase in cellular invasiveness, colony numbers, colony size, and cell growth in colorectal cancer cell lines after GSDME knock-down [13]. Forced expression of GSDME, on the other hand, decreased cell growth and colony forming ability. These data suggested that GSDME is a tumor suppressor gene, which is often epigenetically inactivated through DNA methylation in different types of cancer
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