Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.13.3 (
histidine kinase
)
2,405
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ly-6C is a differentiation antigen that distinguishes T-lymphocyte subsets. In concordance with previous results, splenocytes from
NOD
mice do not express the epitope recognized by anti-Ly-6C monoclonal antibodies (MoAbs), including MoAb
HK1
.4 in this study, and cannot be stimulated to proliferate in response to
HK1
.4. However, when splenocytes from
NOD
mice were stimulated in vitro with the anti-CD3 MoAb 145-2C11, T lymphocytes expressing Ly-6C were detected after 48 h of stimulation, with as many as 25% of lymphocytes expressing this antigen with prolonged passage in culture. Most of the cells expressing Ly-6C were Thy-1.2+, CD4+, and CD8- and proliferated after stimulation with
HK1
.4. To further understand the failure of
NOD
splenocytes to express Ly-6C, freshly isolated cells were stimulated with alpha/beta-interferon (IFN-alpha/beta) and IFN-gamma. Although these lymphokines induced expression of Ly-6A and Ly-6C in splenocytes from C57BL/6J mice and Ly-6A in
NOD
cells, Ly-6C was not induced on
NOD
cells. Because Ly-6C expression on splenocytes was a marker of activation via the CD3 T-lymphocyte receptor complex, we also examined expression of Ly-6C on T lymphocytes within islets showing insulitis in vivo. Lymphocytes that were Ly-6C+ were identified within islets on histological sections of pancreas, whereas Ly-6C+ cells in the spleen from the same mouse could not be detected. Our findings imply functional abnormality in expression of Ly-6C in
NOD
mice.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Expression of Ly-6C by T lymphocytes of NOD mice after CD3-complex stimulation. Identification of activated cells during insulitis of prediabetic mice. 216 2
Recognition and response to non self is essential to development and survival of all organisms. It can occur between individuals of the same species or between different organisms. Fungi are established models for conspecific non self recognition in the form of vegetative incompatibility (VI), a genetically controlled process initiating a programmed cell death (PCD) leading to the rejection of a fusion cell between genetically different isolates of the same species. In Podospora anserina VI is controlled by members of the hnwd gene family encoding for proteins analogous to
NOD
Like Receptors (NLR) immune receptors in eukaryotes. It was hypothesized that the hnwd controlled VI reaction was derived from the fungal innate immune response. Here we analyze the P. anserina transcriptional responses to two bacterial species, Serratia fonticola to which P. anserina survives and S. marcescens to which P. anserina succumbs, and compare these to the transcriptional response induced under VI conditions. Transcriptional responses to both bacteria largely overlap, however the number of genes regulated and magnitude of regulation is more important when P. anserina survives. Transcriptional responses to bacteria also overlap with the VI reaction for both up or down regulated gene sets. Genes up regulated tend to be clustered in the genome, and display limited phylogenetic distribution. In all three responses we observed genes related to autophagy to be up-regulated. Autophagy contributes to the fungal survival in all three conditions. Genes encoding for secondary metabolites and
histidine kinase
signaling are also up regulated in all three conditions. Transcriptional responses also display differences. Genes involved in response to oxidative stress, or encoding small secreted proteins are essentially expressed in response to bacteria, while genes encoding NLR proteins are expressed during VI. Most functions encoded in response to bacteria favor survival of the fungus while most functions up regulated during VI would lead to cell death. These differences are discussed in the frame of a multilayered response to non self in fungi.
...
PMID:Overlapping Podospora anserina Transcriptional Responses to Bacterial and Fungal Non Self Indicate a Multilayered Innate Immune Response. 2714 75
