Andreas Bergmann, Ph.D.
1996, Max-Planck-Institute/University of Tubingen, Germany
UT M. D. Anderson Cancer Center
Biochemistry and Molecular Biology
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Andreas Bergmann, Ph.D. 1996, Max-Planck-Institute/University of Tubingen, Germany UT M. D. Anderson Cancer Center |
Research Interests: Genetic control of programmed cell
death; apoptosis; survival signaling; Drosophila; carcinogenesis
We are utilizing the highly accessible genetic model system Drosophila melanogaster to gain a comprehensive understanding of the biological principles that underlie the regulation of apoptosis in the context of a multicellular organism. In Drosophila, a large number of cells die during development in a similar manner as in vertebrates. Therefore, molecular genetic studies in Drosophila promise considerable potential for advancing our understanding of the basic control mechanisms involved in the regulation of apoptosis in vertebrates including humans. Knowledge obtained in these studies may provide new insights into diseases that are associated with altered rates of apoptosis.
Two major projects are currently under study in the lab.
1. We have developed a novel genetic screening method to identify genes involved in cell death control and execution in Drosophila. However, unexpectedly, we also identified genes involved in growth control and tumor suppression. These interesting genes and their role in normal development are currently under intensive study in the lab.
2. We are also interested to determine why cells die when they develop abnormally. Apparently, an unknown intrinsic mechanism monitors the cell’s ability to develop correctly, and activates the apoptotic program if it fails to do so. There is virtually nothing known about the underlying mechanisms of this process. We are using several approaches to identify these mechanisms including gene array analysis, genetic screening and promoter analysis.
A tutorial in our lab will provide a detailed introduction into modern Drosophila techniques with emphasis on visualizing gene activity and cell death in wild-type and various mutant background, phenotypic analysis, generating transgenic flies and small scale genetic screens. In addition, students will gain experience in basic molecular biology and protein chemistry. The experiments will be aided by state-of-the-art facilities.
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Fan Y, Bergmann A (2008) Distinct Mechanisms of Apoptosis-induced Compensatory Proliferation in Proliferating and Differentiating Eye Tissues in Drosophila.Developmental Cell. In press.
Lee TV, Ding T, Chen Z, Scherr M, Lackey M, Bolduc C, Bergmann A (2008) The E1-ubiquitin-acitivating-enzyme uba1 in Drosophila controls apoptosis autonomously and tissue growth non-autonomously. Development 135, 43-52, doi:10.1242/dev.011288.
Bergmann A (2007) Autophagy and Cell Death: No longer at Odds. Cell. In press.
Srivastava M, Scherr H, Lackey M, Xu D, Chen Z, Lu J, Bergmann A (2007) ARK, the Apaf-1 related killer in Drosophila, requires diverse domains for its activity. Cell Death and Differentiation 14, 92-102.
Mendes CS, Arama E, Brown S, Scherr H, Srivastava M, Bergmann A, Steller H and Mollereau B. (2006) Cytochrome-c-d regulates developmental apoptosis in the Drosophila retina. EMBO Reports 7, 933-939.
Bergmann A (2006) IKKε: Not just NF-κB. Current Biology. 16:R588-R590.
Herz H-M, Chen Z, Scherr H, Lackey M, Bolduc C and Bergmann A (2006) vps25 mosaics display non-autonomous cell survival and overgrowth, and autonomous apoptosis. Development 133, 1871-1880.
Xu D, Wang Y, Willecke R, Chen Z, Ding T and Bergmann A (2006) The effector caspase drICE function in developmental and irradiation-induced cell death in Drosophila. Cell Death and Differentiation advance online publication, 28 April 2006; doi:10.1038/sj.cdd.4401920.
Srivastava M, Scherr H, Lackey M, Xu D, Chen Z, Lu J and Bergmann A (2006) Genetic dissection of ark, the Apaf-1-related killer in Drosophila, reveals a complex function of the WD40 repeats for the control of Ark activity. Cell Death and Differentiation advance online publication, 28 April 2006; doi:10.1038/sj.cdd.4401931.
Arama E, Bader M, Srivastava M, Bergmann A and Steller H (2006) The two Drosophila cytochrome c proteins can function in both respiration and caspase activation. EMBO J. 25, 232-243.
Werz C, Lee TV, Lee PL, Lackey M, Stein DS and Bergmann A (2005) Mis-specified cells die by an active gene-directed process, or undergo developmental transformation by suppression of cell death in Drosophila. Development 132, 5343-5352.
Xu D, Li Y, Arcaro M, Lackey M and Bergmann A (2005) The CARD-carrying caspase Dronc is essential for most, but not all, developmental cell death in Drosophila. Development 132, 2125-2134.
Cashio P, Lee TV and Bergmann A (2005) Genetic Control of Programmed Cell Death in Drosophilamelanogaster. Seminars in Cell & Developmental Biology 16, 225-35.
Bergmann A and Lane ME (2003) HIDden Targets of miRNAs for Growth Control. Trends in Biochemical Science 28, 461-463.
Bergmann A, Yang, YPA and Srivastava M (2003) Regulators of IAP function: Coming to Grips with the Grim Reaper. Current Opinion in Cell Biology 15, 717-724.
Program Affiliation:
Program in Genes and Development