University of Rochester
Department of Biology
River Campus Box 270211
Rochester, New York 14627-0211
Hutchison 432 (office)
Hutchison 425 (lab)
(585) 275-6636 (office)
(585) 275-6637 (lab)
Our research focus is on understanding the mechanisms of longevity and cancer resistance. Aging is the major cause of death in developed countries. By finding ways to delay aging it will be possible to delay the onset of multiple age-related diseases. Cancer is another major killer in developed world, where 25% of human mortality is caused by cancer. Cancer incidence increases exponentially with age and to achieve long-life species must evolve efficient tumor suppressor mechanisms. Our goal is to understand such mechanisms in mammalian species that are naturally cancer-resistant.
Anticancer mechanisms in the long-lived rodents the naked mole-rat and Eastern grey squirrel
Cancer affects most, if not all, classes of vertebrates. The major tumor suppressor pathway appear to be conserved among mammalian species, however, the cancer rates are strikingly different. For example, up to 95% of mice die from cancer, whereas another rodent, the naked mole rat appears to be cancer proof. Human cancer mortality is 25%, which is in somewhat in-between the mouse and the naked mole-rat. In addition to its cancer resistance naked mole-rat is highly interesting due to its longevity. It has the maximum lifespan of 30 years, which is almost 10 times longer than a similar size mouse. We recently discovered that the naked mole-rat has a novel anticancer mechanism named “early contact inhibition” that contribute to its cancer resistance. We are interested in the genes and signaling pathways involved in early contact inhibition and in other mechanisms that contribute to naked mole-rat longevity and cancer resistance. Eastern grey squirrel is another very interesting rodent. Grey squirrels are common in cities and parks across the United States, but a few people know that these rodents have a maximum lifespan of 24 years. Squirrels express extremely high telomerase activity in all tissues, comparable to human tumor tissue. High telomerase activity is generally associated with increased cancer risk, therefore squirrels must possess unique mechanisms that allow them to stay cancer free despite the high telomerase activity.
Yeast Sir2 gene is a histone deacetylase involved in gene silencing. Furthermore overespression of Sir2 extends yeast lifespan and promotes genome stability. Mammals have seven homologs of Sir2 named sirtuins (SIRT1-SIRT7). Deletion of mouse SIRT6 leads to premature aging and genomic instability. We are interested in the role of SIRT6 in genome stability and stress resistance.
Anticancer mechanisms in whales
If all mammals were equally susceptible to oncogenic mutations and had equal tumor suppressor mechanisms one would expect that the rate of cancer would be proportional to the species body size and longevity. This is because greater number of cells and greater number of cell divisions would increase the chances of malignant transformation. Mammals range in body size from 30 g mouse to 110,000,000 g blue whale. If up to 95% of mice die of cancer by the age of 2 years it is paradoxical how come blue whales do not succumb to cancer in the womb. This fundamental question is named “Peto’s paradox” after Sir Richard Peto, who described it in 1975. The most plausible solution to Peto’s paradox is that the large and long-lived species have evolved superior anticancer systems. We are interested in understanding these mechanisms with the goal of using them to prevent human cancer.
To learn more about our research, please visit our lab website Gorbunova Lab.