Albert J. Fornace Jr.
Albert J. Fornace Jr. (born 1949) is a professor in the departments of Biochemistry and Molecular & Cellular Biology, Oncology, and Radiation Medicine at Georgetown University. He has also been awarded the Molecular Cancer Research Chair at Lombardi Comprehensive Cancer Center, joining Georgetown in 2006 from the Harvard School of Public Health. Earlier, he was chief of the Gene Response Section at the National Cancer Institute. He graduated from La Salle College High School in Philadelphia, Pennsylvania (1967), and received his B.S. (1970) and M.D. (1972) from the Jefferson-Penn State joint pre-medical/medical program.
Research career
Fornace has made a variety of notable discoveries in the fields of cancer research, molecular biology, radiation biology, and toxicology with particular emphasis on understanding stress-signaling mechanisms in both normal and cancer cells. This has focused on understanding how cells and organisms respond to genotoxic (DNA damaging) agents, such as radiation, that can cause cancer – as well as being used for its treatment. He was one of the first to show that human and other mammalian cells can respond at the gene level to genotoxic stress, and isolated many of the first known DNA-damage-inducible genes.[1] This included the GADD45A gene[2] and other members of the GADD (growth-arrest and DNA-damage inducible) group.[3]
His laboratory went on to show that many of these genes have roles in growth control[4], DNA repair[5], and resistance to cancer[6], and he has had made important contributions in the characterization of pathways (such as TP53) involved in these critical cellular processes.[7] He has been a pioneer in the use of genomic and metabolomic approaches to understand system-wide effects of damaging agents like radiation.[8][9] In the case of metabolomics, Fornace is the founding director of the Waters Center of Innovation at Georgetown University.
Many of Fornace's studies have used ionizing and UV radiation as model stress agents. These studies also have practical implications for health risks of radiation, assessment of radiation injury, as well as cancer treatment. Since 2010, he has directed a NASA Specialized Center of Research to assess cancer risk during long-term space missions.[10][11]
Earlier studies focused on DNA repair and DNA recombination. Using sensitive DNA strand break assays in human cells, he was the first to show scission events by nucleotide excision repair[12], as well as recombination of chromosomal DNA containing damaged DNA.[13] While in Dr. Jerry Crabtree’s laboratory, he elucidated a type of common regional genetic duplication event that occurs over an evolutionary time scale in humans.[14]
Fornace has more than 375 publications with over 34,000 citations in Web of Science (42,000 in Google Scholar). He has mentored many research fellows and students who have gone on to successful scientific careers.[15] While at the NIH he received a variety of awards including the Public Health Service Outstanding Service Medal. At Georgetown University he received the Medical Center Leadership in Research Award. In the radiation field he has received multiple awards including the Radiation Research Society Excellence in Mentoring Award as well as the Failla Award of the Radiation Research Society, which is the annual career award to an outstanding member of the radiation research community in recognition of a history of major contributions to the field.
References
- ^ Fornace, A. J., Jr, Alamo, I. J., and Hollander, M. C. DNA damage-inducible transcripts in mammalian cells. Proc Natl Acad Sci U S A 85: 8800-8804, 1988.
- ^ Liebermann, D. A., & Hoffman, B. (2013). Gadd45 stress sensor genes. New York: Springer. ISBN 978-1-4614-8289-5
- ^ Fornace, A. J., Jr, Nebert, D. W., Hollander, M. C., Luethy, J. D., Papathanasiou, M., Fargnoli, J., and Holbrook, N. J. Mammalian genes coordinately regulated by growth arrest signals and DNA-damaging agents. Mol Cell Biol 9: 4196-4203, 1989.
- ^ Bulavin, D. V., Higashimoto, Y., Popoff, I. J., Gaarde, W. A., Basrur, V., Potapova, O., Appella, E., and Fornace, A. J., Jr. Initiation of a G2/M checkpoint after ultraviolet radiation requires p38 kinase. Nature 411: 102-107, 2001.
- ^ Smith, M. L., Chen, I. T., Zhan, Q., Bae, I., Chen, C. Y., Gilmer, T. M., Kastan, M. B., O’Connor, P. M., and Fornace, A. J., Jr. Interaction of the p53-regulated protein Gadd45 with proliferating cell nuclear antigen. Science 266: 1376-1380, 1994.
- ^ Kastan, M. B., Zhan, Q., el-Deiry, W. S., Carrier, F., Jacks, T., Walsh, W. V., Plunkett, B. S., Vogelstein, B., and Fornace, A. J., Jr. A mammalian cell cycle checkpoint pathway utilizing p53 and GADD45 is defective in ataxia-telangiectasia. Cell 71: 587-597, 1992.
- ^ Fornace, A. J., Jr. Mammalian genes induced by radiation; activation of genes associated with growth control. Annual Rev. Genetics 26: 507-526, 1992.
- ^ Amundson, S. A., Bittner, M., Chen, Y., Trent, J., Meltzer, P., and Fornace, A. J., Jr. Fluorescent cDNA microarray hybridization reveals complexity and heterogeneity of cellular genotoxic stress responses. Oncogene 18: 3666-3672, 1999.
- ^ Coy, S. L., Cheema, A. K., Tyburski, J. B., Laiakis, E. C., Collins, S. P., and Fornace, A. J., jr. Radiation metabolomics and its potential in biodosimetry. Int J Radiat Biol 87: 802-823, 2011.
- ^ Datta, K., Suman, S., Kallakury, B. V., and Fornace, A. J., Jr. Exposure to heavy ion radiation induces persistent oxidative stress in mouse intestine. PLoS One 7: e42224, 2012.
- ^ Mironova, N. Cancer and spaceflight. Aerospace America, 30-35, 2014
- ^ Fornace, A. J., Jr, Kohn, K. W., and Kann, H. E. J. DNA single-strand breaks during repair of UV damage in human fibroblasts and abnormalities of repair in xeroderma pigmentosum. Proc Natl Acad Sci U S A 73: 39-43, 1976.
- ^ Fornace, A. J., Jr. Recombination of parent and daughter strand DNA after UV-irradiation in mammalian cells. Nature 304: 552-554, 1983.
- ^ Fornace, A. J., Jr, Cummings, D. E., Comeau, C. M., Kant, J. A., and Crabtree, G. R. Single-copy inverted repeats associated with regional genetic duplications in gamma fibrinogen and immunoglobulin genes. Science 224: 161-164, 1984.
- ^ Professor Albert J. Fornace Jr. Laboratory: "People". Retrieved July 14, 2017.