Lab

Telomere and Genome Stability Laboratory

Lab ID
ZDB-LAB-120109-1
PI / Directory
Ferreira, Miguel Godinho
Contact Person
Ferreira, Miguel Godinho
Email
mgferreira@igc.gulbenkian.pt
URL
http://sites.igc.gulbenkian.pt/telomere/
Address
Instituto Gulbenkian de Ciência Rua da Quinta Grande, 6. Apartado 14. 2781-901 Oeiras Portugal
Country
Portugal
Phone
+351 21 446 4654
Fax
+351 21 440 7970
Line Designation
nce
Genomic Features
Statement of Research Interest
Despite the crucial work performed in the mouse model system over the past 15 years, major disparities in telomere length between humans and mice (mouse telomeres are 5–10 times longer than those of humans) remain as an obstacle as to interpret the relevance of these studies for human health. Namely, the telomerase-deficient mouse showed no relevant phenotypic differences from its normal siblings, suggesting that—at least for laboratory mouse strains—aging and cancer are not direct consequences of the minor telomere shortening occurring throughout their lives.

To analyze the consequences of telomere dysfunction in the whole organism, we have chosen to work with zebrafish, an organism with naturally shorter telomeres. Our goal is to use the knowledge acquired on the molecular nature of telomere protection to understand the consequences of its failure at the organism level. Our base hypothesis implies that telomere dysfunction signals a cascade of events that triggers cellular senescence and organism aging. We will test this idea by manipulating telomere dysfunction (in a time- and tissue-specific manner), using transgenic zebrafish. Our vision is that enabling timely telomere protection in a few key tissues will postpone aging in the whole organism and, as a consequence, reduce the frequency of age-associated diseases, in particular, cancer.

We have two main projects running in our lab. The first concerns the broader question of whether telomere defects are cell-autonomous or, alternatively, whether telomere dysfunction acquired in specific tissues somehow signals other organs, thereby coordinating organism aging. The second question relies on a more straightforward use of telomerase-mutant zebrafish to genetically determine the stage at which telomerase expression is required during cancer development, using an established model of invasive melanoma.
Lab Members
Zebrafish Publications of lab members