The politics of collective repair: examining object-relations in a postwork society

In this article we look at repair as an emergent focus of recent activism in affluent societies, where a number of groups are reclaiming practices of repair as a form of political and ecological action. Ranging from those that fight for legislative change to those groups who are trying to support ecological and social change through everyday life practices, repair is beginning to surface tensions in everyday life and as such poses opportunities for its transformation. We survey a few of the practices that make up this movement in its various articulations, to take stock of their current political import. While we suggest that these practices can be seen as an emergent lifestyle movement, they should not be seen as presenting a unified statement. Rather, we aim to show that they articulate a spectrum of political positions, particularly in relation to the three specific issues of property, pedagogy and sociality. These three dimensions are all facets of current internal discrepancies of repair practices and moreover express potential bifurcations as this movement evolves. Drawing on a diverse methodology that includes discourse analysis and participant observation, we suggest some of the ways in which this growing area of activity could play a significant role in resisting the commodification of the everyday and inventing postwork alternatives

Ovalbumin serves as a neo-transplantation antigen in retinal pigment epithelial cells.

PURPOSE: Our long-term goal is to determine the optimal methods for inducing allograft tolerance to facilitate transplantation of retinal pigment epithelial cells or stem cells for the treatment of retinal degenerative diseases. These goals have been hampered by the extreme complexity of allograft rejection and the heterogeneity of responding T cells. The current studies were undertaken to develop a simplified transplant model for studying rejection and tolerance in the unique environment of the eye. METHODS: To provide a defined transplantation antigen, transgenic C57BL/6 (B6) mice were produced, which express the exogenous chicken egg ovalbumin (OVA) gene under the regulation of the mouse tyrosinase related protein-1 (TRP-1) promoter that is transcriptionally active in retinal pigmented epithelial (RPE) cells. To determine whether the transgene was expressed as a neo-transplantation antigen, RPE from TRP-1-OVA mice were injected into the subretinal space of B6 mice or B6 mice expressing the OVA-specific (OT1) TCR transgenes and examined for inflammatory cell infiltration. RESULTS: The TRP-1-OVA transgenic mice expressed OVA mRNA in the brain and eye but not the heart or kidney. RPE cells from TRP-1-OVA transgenic mice expressed mRNA and protein encoded by the OVA gene and RPE expressing TRP-1-OVA induced an inflammatory response within the subretinal space of OT1 mice but not in B6 mice. CONCLUSIONS: OVA serves as a defined, neo-transplantation antigen in RPE that is recognized by mice whose CD8+ T cells recognize OVA peptide. These observations provide new tools for future studies of the mechanisms of rejection and prolongation of RPE transplants in the eye

Gene-based vaccines and immunotherapeutics

DNA vaccines, comprised of plasmid DNA encoding proteins from pathogens, allergens, and tumors, are being evaluated as prophylactic vaccines and therapeutic treatments for infectious diseases, allergies, and cancer; plasmids encoding normal human proteins are likewise being tested as vaccines and treatments for autoimmune diseases. Examples of in vivo prophylaxis and immunotherapy, based on different types of immune responses (humoral and cellular), in a variety of disease models and under evaluation in early phase human clinical trials are presented. Viral vectors continue to show better levels of expression than those achieved by DNA plasmid vectors. We have focused our clinical efforts, at this time, on the use of recombinant viral vectors for both vaccine as well as cytokine gene transfer studies. We currently have four clinical programs in cancer immunotherapy. Two nonspecific immunotherapy programs are underway that apply adenoviral vectors for the transfer of cytokine genes into tumors in situ. An adenovirus-IFNγ construct (TG1042) is currently being tested in phase II clinical trials in cutaneous lymphoma. A similar construct, adenovirus-IL2 (TG1024), also injected directly into solid tumors, is currently being tested in patients with solid tumors (about one-half of which are melanoma). Encouraging results are seen in both programs. Two cancer vaccine immunotherapy programs focus on two cancer-associated antigens: human papilloma virus E6 and E7 proteins and the epithelial cancer-associated antigen MUC1. Both are encoded by a highly attenuated vaccinia virus vector [modified vaccinia Ankara (MVA)] and both are coexpressed with IL-2. Encouraging results seen in both of these programs are described