Pitzhanger Manor, Soane, Gandy and an interpretation

[EN] This article is the analysis of a drawing that Joseph Gandy made for John Soane. Its aim is to reveal its mysteries, the way in how it point to Soane without “naming him” directly and to think about the argument and the scenography that drawing contains, beyond Gandy’s the technical skill[ES] Este artículo es el análisis de un dibujo que Joseph Gandy hizo para John Soane, Su objetivo es desvelar los misterios que plantea y que acaban señalando a Soane sin "nombrarlo" directamente, y a partir de aquí, reflexionar sobre el contenido argumental y escenográfico que el dibujo contiene, más allá de la habilidad técnica de Gandy.Martínez Mindeguia, F. (2015). Pitzhanger Manor, Soane, Gandy y una interpretación. EGA. Revista de Expresión Gráfica Arquitectónica. 20(25):120-127. doi:10.4995/ega.2015.3342.SWORD1201272025Divitiis, B., 2003. A Newly Discovered Volume from the Office of Sir John Soane. The Burlington Magazine, 145(1200), pp.180-198.Divitiis, B., 2005. New Drawings for the interiors of the Breakfast Room and Library at Pitzhanger Manor. Architectural History, 48, pp.163-172.Furján, H., & Furjan, H. (1997). The Specular Spectacle of the House of the Collector. Assemblage, (34), 56. doi:10.2307/3171253Furján, H., 1983. Sir John Soanne's Spectacular Thetre. AA Files, 47, pp. 12-22.Hénin, E. (2011). Parrhasius and the Stage Curtain: Theatre, Metapainting and the Idea of Representation in the Seventeenth Century. Theatricality in Early Modern Art and Architecture, 48-61. doi:10.1002/9781444396744.ch4Lukacher, B., 1983. Phantasmagoria and Emanations: Lighting Effects in the Architectural Fantasies of Joseph Michael Gandy. AA Files, 4, pp.40-48.Lukacher, B., 1987. John Soane and his Draughtsman Josep Michael Gandy. Daidalos, 25, pp.51-64.Lukacher, B., 2006. Joseph Gandy: An Architectural Visionary in Georgian England. Londres: Thames & Hudson.Middleton, R., 1992. Introduction. Le Camus de Mézières, N., 1780. The Genius of architecture, or, The analogy of that art with our sensations. Santa Monica: Getty Center for the History of Art and Humanities, pp.17-64.Moleón, P., 2001. John Soane (1753-1837) y la razón poética. Madrid: Mairea.Pelletier, L., 2006. Architecture in Words: Theatre, language and the sensuous space of architecture. Londres: Routledge.Price, U., 1810. Essays on the Picturesque. Londres: Maxman, vol.1.Richardson, M. y Stevens, M.A., eds., 1999. John Soane Architect: Master of Space and Light. Londres: Royal Academy of Arts.Van Eck, C., 2007. Classical Rhetorical and the Visual Arts in Early Modern Europe. Nueva York: Cambridge University Press.Zeitlin, J., ed., 1913. Hazlitt On English Literature: An Introduction to the Appreciation of Literature. Nueva York: Oxford University Press

An MHC class Ib–restricted CD8 T cell response confers antiviral immunity

Although immunity against intracellular pathogens is primarily provided by CD8 T lymphocytes that recognize pathogen-derived peptides presented by major histocompatibility complex (MHC) class Ia molecules, MHC class Ib–restricted CD8 T cells have been implicated in antiviral immunity. Using mouse polyoma virus (PyV), we found that MHC class Ia–deficient (Kb−/−Db−/−) mice efficiently control this persistently infecting mouse pathogen. CD8 T cell depletion mitigates clearance of PyV in Kb−/−Db−/− mice. We identified the ligand for PyV-specific CD8 T cells in Kb−/−Db−/− mice as a nonamer peptide from the VP2 capsid protein presented by Q9, a member of the β2 microglobulin–associated Qa-2 family. Using Q9-VP2 tetramers, we monitored delayed but progressive expansion of these antigen-specific CD8αβ T cells in Kb−/−Db−/− mice. Importantly, we demonstrate that Q9-VP2–specific CD8 T cells more effectively clear wild-type PyV than a VP2 epitopenull mutant PyV. Finally, we show that wild-type mice also generate Q9-restricted VP2 epitope–specific CD8 T cells to PyV infection. To our knowledge, this is the first evidence for a defined MHC class Ib–restricted antiviral CD8 T cell response that contributes to host defense. This study motivates efforts to uncover MHC class Ib–restricted CD8 T cell responses in other viral infections, and given the limited polymorphism of MHC class Ib molecules, it raises the possibility of developing peptide-based viral vaccines having broad coverage across MHC haplotypes

Incomplete Cd8+ T Lymphocyte Differentiation as a Mechanism for Subdominant Cytotoxic T Lymphocyte Responses to a Viral Antigen

CD8+ cytotoxic T lymphocytes (CTLs) recognize antigen in the context of major histocompatibility complex (MHC) class I molecules. Class I epitopes have been classified as dominant or subdominant depending on the magnitude of the CTL response to the epitope. In this report, we have examined the in vitro memory CTL response of H-2d haplotype murine CD8+ T lymphocytes specific for a dominant and subdominant epitope of influenza hemagglutinin using activation marker expression and staining with soluble tetrameric MHC–peptide complexes. Immune CD8+ T lymphocytes specific for the dominant HA204-210 epitope give rise to CTL effectors that display activation markers, stain with the HA204 tetramer, and exhibit effector functions (i.e., cytolytic activity and cytokine synthesis). In contrast, stimulation of memory CD8+ T lymphocytes directed to the subdominant HA210-219 epitope results in the generation of a large population of activated CD8+ T cells that exhibit weak cytolytic activity and fail to stain with the HA210 tetramer. After additional rounds of restimulation with antigen, the HA210-219–specific subdominant CD8+ T lymphocytes give rise to daughter cells that acquire antigen-specific CTL effector activity and transition from a HA210 tetramer–negative to a tetramer-positive phenotype. These results suggest a novel mechanism to account for weak CD8+ CTL responses to subdominant epitopes at the level of CD8+ T lymphocyte differentiation into effector CTL. The implications of these findings for CD8+ T lymphocyte activation are discussed

Continuous recruitment of naive T cells contributes to heterogeneity of antiviral CD8 T cells during persistent infection

Numerous microbes establish persistent infections, accompanied by antigen-specific CD8 T cell activation. Pathogen-specific T cells in chronically infected hosts are often phenotypically and functionally variable, as well as distinct from T cells responding to nonpersistent infections; this phenotypic heterogeneity has been attributed to an ongoing reencounter with antigen. Paradoxically, maintenance of memory CD8 T cells to acutely resolved infections is antigen independent, whereas there is a dependence on antigen for T cell survival in chronically infected hosts. Using two chronic viral infections, we demonstrate that new naive antigen-specific CD8 T cells are primed after the acute phase of infection. These newly recruited T cells are phenotypically distinct from those primed earlier. Long-lived antiviral CD8 T cells are defective in self-renewal, and lack of thymic output results in the decline of virus-specific CD8 T cells, indicating that newly generated T cells preserve antiviral CD8 T cell populations during chronic infection. These findings reveal a novel role for antigen in maintaining virus-specific CD8 T cells during persistent infection and provide insight toward understanding T cell differentiation in chronic infection

The Differentiation and Protective Function of Cytolytic CD4 T Cells in influenza infection

CD4 T cells that recognize peptide antigen in the context of class II MHC can differentiate into various subsets that are characterized by their helper functions. However, increasing evidence indicates that CD4 cells with direct cytolytic activity (CD4 CTL) play a role in chronic as well as acute infections, such as influenza A virus (IAV) infection. In the last couple of decades, techniques to measure the frequency and activity of these cytolytic cells has demonstrated their abundance in infections, such as human immunodeficiency virus, mouse pox, murine gamma herpes virus, cytomegalovirus, Epstein–Barr virus, and influenza among others. We now appreciate a greater role for CD4 CTL as direct effectors in viral infections and antitumor immunity through their ability to acquire perforin-mediated cytolytic activity and contribution to lysis of virally infected targets or tumors. As early as the 1980s, CD4 T cell clones with cytolytic potential were identified after influenza virus infection, yet much of this early work was dependent on in vitro culture and little was known about the physiological relevance of CD4 CTL. Here, we discuss the direct role CD4 CTL play in protection against lethal IAV infection and the factors that drive the generation of perforin-mediated lytic activity in CD4 cells in vivo during IAV infection. While focusing on CD4 CTL generated during IAV infection, we pull comparisons from the literature in other antiviral and antitumor systems. Further, we highlight what is currently known about CD4 CTL secondary and memory responses, as well as vaccination strategies to induce these potent killer cells that provide an extra layer of cell-mediated immune protection against heterosubtypic IAV infection

CD8+ T cell concentration determines their efficiency in killing cognate antigen–expressing syngeneic mammalian cells in vitro and in mouse tissues

We describe a quantitative model for assessing the cytolytic activity of antigen-specific CD8+ T cells in vitro and in vivo in which the concentration of antigen-specific CD8+ T cells determines the efficiency with which these cells kill cognate antigen–expressing melanoma cells in packed cell pellets, in three-dimensional collagen-fibrin gels in vitro, and in established melanomas in vivo. In combination with a clonogenic assay for melanoma cells, collagen-fibrin gels are 4,500–5,500-fold more sensitive than the packed cell pellet–type assays generally used to measure CD8+ T cell cytolytic activity. An equation previously used to describe neutrophil bactericidal activity in vitro and in vivo also describes antigen-specific CD8+ T cell–mediated cytolysis of cognate antigen-expressing melanoma cells in collagen-fibrin gels in vitro and in transplanted tumors in vivo. We have used this equation to calculate the critical concentration of antigen-specific CD8+ T cells, which is the concentration of these cells required to hold constant the concentration of a growing population of cognate antigen-expressing melanoma cells. It is ∼3.5 × 105/ml collagen-fibrin gel in vitro and ∼3 × 106/ml or /g melanoma for previously published studies of ex vivo–activated adoptively transferred tumor antigen–specific CD8+ T cell killing of cognate antigen–expressing melanoma cells in established tumors in vivo. The antigen-specific CD8+ T cell concentration required to kill 100% of 2 × 107/ml cognate antigen-expressing melanoma cells in collagen fibrin gels is ≥107/ml of gel

Antiviral CD8+ T cell effector activities in situ are regulated by target cell type

In the lungs of mice infected with influenza, the activity of cytotoxic T lymphocytes is modulated by the type of target cell encountered

PD-1 Dynamically Regulates Inflammation and Development of Brain-Resident Memory CD8 T Cells During Persistent Viral Encephalitis

Programmed cell death-1 (PD-1) receptor signaling dampens the functionality of T cells faced with repetitive antigenic stimulation from chronic infections or tumors. Using intracerebral (i.c.) inoculation with mouse polyomavirus (MuPyV), we have shown that CD8 T cells establish a PD-1hi, tissue-resident memory population in the brains (bTRM) of mice with a low-level persistent infection. In MuPyV encephalitis, PD-L1 was expressed on infiltrating myeloid cells, microglia and astrocytes, but not on oligodendrocytes. Engagement of PD-1 on anti-MuPyV CD8 T cells limited their effector activity. NanoString gene expression analysis showed that neuroinflammation was higher in PD-L1−/− than wild type mice at day 8 post-infection, the peak of the MuPyV-specific CD8 response. During the persistent phase of infection, however, the absence of PD-1 signaling was found to be associated with a lower inflammatory response than in wild type mice. Genetic disruption and intracerebroventricular blockade of PD-1 signaling resulted in an increase in number of MuPyV-specific CD8 bTRM and the fraction of these cells expressing CD103, the αE integrin commonly used to define tissue-resident T cells. However, PD-L1−/− mice persistently infected with MuPyV showed impaired virus control upon i.c. re-infection with MuPyV. Collectively, these data reveal a temporal duality in PD-1-mediated regulation of MuPyV-associated neuroinflammation. PD-1 signaling limited the severity of neuroinflammation during acute infection but sustained a level of inflammation during persistent infection for maintaining control of virus re-infection