In the concert of OMICs technologies, proteomics is particularly important because it reveals changes in the active players of the cell and has thus a close relationship to the phenotypic changes observed. While proteomic studies of in vitro-grown microbial pathogens

are routinely established in many labs, in vivo proteomic approaches are still rare. Here, we will review the challenges and recent developments of proteomic analysis of microbial pathogens derived from cell culture or in vivo infection settings and summarize some lessons that have been learned from these studies.”
“The human cytomegalovirus UL34 gene encodes a sequence-specific DNA binding protein that downregulates expression of the viral immune evasion selleck chemical gene US3. Analysis of the viral genome identified 14 potential UL34 binding sites. Using mobility shift experiments, UL34 bound to AR-13324 supplier all predicted sites that were assayed (7 of 14). Furthermore, the UL34 binding site present within the regulatory region of the US9 gene downregulates expression in a manner similar to that seen for the US3

gene.”
“The host-pathogen interaction represents a complex and dynamic biological system. The outcome of this interaction is dependent on the microbial pathogen properties to establish infection and the ability of the host to control infection. Although bacterial pathogens have evolved a variety of strategies to subvert host defense functions, several general mechanisms have been shown to be shared among these pathogens. As a result,

host effectors that are critical for pathogen entry, survival and replication inside the host cells have become a new paradigm for antimicrobial targeting. This review focuses on the potential utility of a proteomics approach in defining the host-pathogen ifenprodil interaction from the host’s perspective.”
“Apoptosis induction is an important host defense mechanism to control viral infection, which is antagonized by viral proteins. Murine cytomegalovirus m41.1 encodes a viral inhibitor of BAK oligomerization (vIBO) that blocks the mitochondrial apoptosis mediator BAK. However, its importance for viral fitness in vivo has not been investigated. Here, we show that an m41.1-deficient virus attains reduced titers in salivary glands of wild-type but not Bak1(-/-) mice, indicating a requirement of BAK inhibition for optimal dissemination in vivo.”
“Immune proteomics is an increasingly powerful tool for the investigation of the adaptive immune response to natural encounters between micro-organisms and their hosts. The versatile species Staphylococcus aureus serves to illustrate how these techniques can be employed to appreciate the complexity and diversity of the host-pathogen interactions in unprecedented detail and completeness.