March 21, 2022. The laboratory mouse is an experimental model widely used in preclinical biomedical research. The efficacy of drugs and their possible adverse effects can be determined in this system, also having the capacity to mimic human diseases to understand the mechanisms of their appearance and identify treatments to combat them. For example, murine models of cancer, neurodegenerative and metabolic pathologies are widely studied in this model animal. In this sense, it should be reminded that every drug that is administered to a patient has undergone at least one control in the mouse.
However, there are aspects of mouse biology that are largely unknown to us such as its epigenetics (modifications upon the DNA controlling the cell’s availability of its own genetic information). Up until now, hundreds of global studies of the human epigenome have been developed, but to a lesser extent in the rodent. An article recently published in the journal Epigenetics by the group of Dr. Manel Esteller, Director of the Josep Carreras Leukaemia Research Institute (IJC), ICREA Research Professor and Chairman of Genetics at the University of Barcelona, validates a new genomic platform that, in one shot, studies 285,000 epigenetic control points in the mouse genome, particularly DNA methylation sites.
“ For human DNA, there are small chips called “microarrays” that allow us to study thousands of epigenetic switches in our genome easily, quickly and automatically. Until very recently these devices did not exist in the mouse and what we have done is check the effectiveness and versatility of the first prototype designed for this purpose”, states Dr. Esteller and adds that “ the regulators of all the murine genes are inserted in this platform and, when mouse DNA is added, it shines red or green depending on their activation status. ”
Researchers have verified the reliability of the new system by analyzing the same samples several times obtaining identical results and they have proven to be useful not only in fresh samples but also in archival specimens. The data also confirm that each mouse tissue and organ has its own epigenome that allows it to function in a specific manner despite the fact that all the cells in the specimen share the same genome.
The mouse epigenomic microarray also makes it possible to detect changes due to mutations in epigenetic genes or when DNA demethylating drugs are used and, according to Dr. Esteller, “ this is important because both situations occur in patients with leukemia or lymphoma, so equivalencies of these mouse data can be transferred to human patients ”, concludes the researcher.
Reference article :
Garcia-Prieto CA, Álvarez-Errico D, Musulen E, Bueno-Costa A, Vazquez BN, Vaquero A, Esteller M . Validation of a DNA methylation microarray for 285,000 CpG sites in the mouse genome. Epigenetics , doi.org/10.1080/15592294.2022.2053816, 2022.
Epigenetics
Experimental study
Animal tissue samples
Validation of a DNA methylation microarray for 285,000 CpG sites in the mouse genome
21-Mar-2022
ME is a consultant for Ferrer International and Quimatryx. The remanining authors declare that they have no conflict of interest.