This is a renewal application for support for year 27 of Cell Transformation by Bovine Papillomavirus (R01 CA37157). This grant supported the discovery of the unique mechanism of action of the bovine papillomavirus E5 oncoprotein, a 44-amino acid very hydrophobic protein that is essentially an isolated transmembrane domain. We showed that the E5 protein binds to the transmembrane domain of the PDGF ? receptor, resulting in ligand-independent receptor activation. Detailed analysis of this interaction is providing new insights into transmembrane domain recognition and allowed us to develop a novel approach to manipulate cell behavior with artificial, small transmembrane proteins modeled on the viral protein. In an exciting advance in this funding period, we reprogrammed the E5 protein so that it no longer recognizes the PDGF receptor, but instead specifically activates the human erythropoietin receptor, driving erythroid differentiation of human hematopoietic progenitor cells. We propose here to extend our in-depth analysis of the interaction of the E5 protein and the PDGF ? receptor, with a particular attention to obtaining novel insights into the molecular basis of specific protein recognition within cell membranes, a process that underlies numerous biological processes, including many cancers. We will also develop small transmembrane proteins as potent biological agents against cancer and related diseases. We will isolate E5 mutants that recognize PDGF ? receptor mutants, to determine the rules responsible for highly-specific interactions between transmembrane helices. We will use related approaches to identify and characterize E5 mutants that inhibit PDGF ? receptor signaling. We will construct and analyze peptides to characterize the interaction between the E5 protein and the PDGF ? receptor transmembrane domain at the biochemical level. Finally, we will isolate and characterize small transmembrane proteins that modulate the HIV co-receptor, CCR5, a multipass transmembrane protein. These experiments should continue to provide important new insights into an unusual viral oncogene product and protein recognition within cell membranes, as well as providing new approaches to modulate important biological processes.
This grant supported the discovery of the unique mechanism of action of a cancer-causing protein from an animal papillomavirus. Continuing analysis of this mechanism will provide new molecular insight into a class of protein interactions that control cancer and other important biological processes. In addition, on the basis of these studies, we will continue to develop a novel protein engineering method to control biological processes, including infection by human immunodeficiency virus, an important co-factor in many cancers.
Petti, Lisa M; Marlatt, Sara A; Luo, Yong et al. (2018) Regulation of C-C chemokine receptor 5 (CCR5) stability by Lys197 and by transmembrane protein aptamers that target it for lysosomal degradation. J Biol Chem 293:8787-8801 |
He, Li; Steinocher, Helena; Shelar, Ashish et al. (2017) Single methyl groups can act as toggle switches to specify transmembrane Protein-protein interactions. Elife 6: |
Karabadzhak, Alexander G; Petti, Lisa M; Barrera, Francisco N et al. (2017) Two transmembrane dimers of the bovine papillomavirus E5 oncoprotein clamp the PDGF ? receptor in an active dimeric conformation. Proc Natl Acad Sci U S A 114:E7262-E7271 |
DiMaio, Daniel (2016) Thank You, Edward. Merci, Louis. PLoS Pathog 12:e1005320 |
Heim, Erin N; Marston, Jez L; Federman, Ross S et al. (2015) Biologically active LIL proteins built with minimal chemical diversity. Proc Natl Acad Sci U S A 112:E4717-25 |
Cohen, Emily B; Jun, Susan J; Bears, Zachary et al. (2014) Mapping the homodimer interface of an optimized, artificial, transmembrane protein activator of the human erythropoietin receptor. PLoS One 9:e95593 |
Dimaio, Daniel (2014) Is virology dead? MBio 5:e01003-14 |
DiMaio, Daniel (2014) Viral miniproteins. Annu Rev Microbiol 68:21-43 |
Chacón, Kelly M; Petti, Lisa M; Scheideman, Elizabeth H et al. (2014) De novo selection of oncogenes. Proc Natl Acad Sci U S A 111:E6-E14 |
DiMaio, Daniel; Petti, Lisa M (2013) The E5 proteins. Virology 445:99-114 |
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