Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:Q86TM3 (cage)
 29,987 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Survival of gastrointestinal cancer remains dismal, especially for metastasized disease. For various cancers, especially melanoma and lung cancer, immunotherapy has been proven to confer survival benefits, but results for gastrointestinal cancer have been disappointing. Hence, there is substantial interest in exploring the usefulness of adaptive immune system education with respect to anti-cancer responses though vaccination. Encouragingly, even fairly non-specific approaches to vaccination and immune system stimulation, involving for instance influenza vaccines, have shown promising results, eliciting hopes that selection of specific antigens for vaccination may prove useful for at least a subset of gastrointestinal cancers. It is widely recognized that immune recognition and initiation of responses are hampered by a lack of T cell help, or by suppressive cancer-associated factors. In this review we will discuss the hurdles that limit efficacy of conventional cancer therapeutic vaccination methods (e.g., peptide vaccines, dendritic cell vaccination). In addition, we will outline other forms of treatment (e.g., radiotherapy, chemotherapy, oncolytic viruses) that also cause the release of antigens through immunogenic tumor cell death and can thus be considered unconventional vaccination methods (i.e., in situ vaccination). Finally, we focus on the potential additive value that vaccination strategies may have for improving the effect immunotherapy. Overall, a picture will emerge that although the field has made substantial progress, successful immunotherapy through the combination with cancer antigen vaccination, including that for gastrointestinal cancers, is still in its infancy, prompting further intensification of the research effort in this respect.
 ...
PMID:Opportunities for Conventional and in Situ Cancer Vaccine Strategies and Combination with Immunotherapy for Gastrointestinal Cancers, A Review. 3236 38

Naturally occurring and computationally ab initio designed protein cages can now be considered as extremely suitable materials for new developments in nanotechnology. Via self-assembly from single identical or non-identical protomers large oligomeric particles can be formed. Virus-like particles have today found a number of quite successful applications in the development of new vaccines. Complex chimeric nanoparticles can serve as suitable platforms for the presentation of natural or designed antigens to the immune system of the host. The scaffolds can be cage forming highly symmetric biological macromolecules like lumazine synthase or symmetric self-assembling virus-like particles generated by computational ab initio design. Symmetric nanoparticle carriers display a structurally ordered array of immunogens. This feature can lead to a more favorable interaction with B-cell receptors, in comparison to the administration of single recombinant immunogens. Several pre-clinical animal studies and clinical studies have recently pointed out the efficiency of nanoparticle antigens produced recombinantly in creating strong immune responses against infectious diseases like HIV, Malaria, Borrelia, Influenza.
 ...
PMID:Second career of a biosynthetic enzyme: Lumazine synthase as a virus-like nanoparticle in vaccine development. 3271 52

The addition of a methyl group to the N6 position of adenosine (m6A) is the most common posttranscriptional RNA modification, and it regulates most steps of RNA metabolism including splicing, stability, translation, nuclear-export, and RNA structures. Besides cellular RNA, m6A modifications have also been detected on viral RNA. A range of recent studies have demonstrated the crucial roles of m6A in the virus-host interactions; however, m6A cellular machineries are only characterized in limited mammalian species. Herein, we aim to present comprehensive evolutionary insights into major m6A writers, erasers, and readers and draw a comparative structural analysis between avian and mammalian m6A-associated machineries. The comparative collinearity on the chromosomal scale revealed that the majority of m6A-related genes were found less syntenic even among avian species. Genetic analysis of avian m6A erasers revealed a distinct phylogenetic clustering compared to mammalian orthologs and shared a weak percent (55%) identity with mammalian species with low identity percentage (55%). The overall comparative three-dimensional (3D) structure analyses among different mammalian species were maintained through synonymous structural mutations. Unlike erasers, the putative 3D structures in the active sites as for the aromatic cage in YTH-domain of YTHDC1 and two pivotal loops in MTD-domains in METTL3 exhibited structural alterations in chicken. In conjunction with in silico investigations, influenza viruses significantly downregulated gene the transcription of m6A writers and erasers, whereas m6A readers were moderately regulated in chicken fibroblasts. In light of these findings, future detailed biochemical and crystallographic studies are warranted to define the roles of m6A machinery in regulating both viral and cellular RNA metabolism in avian species.
 ...
PMID:Structural and Virus Regulatory Insights Into Avian N6-Methyladenosine (m6A) Machinery. 3276 Jul 18

Large numbers of rodents are often used in the study of disease progression and in the evaluation of its potential treatments. To avoid subjective observation and to minimize home cage interference, we developed a computerized home cage monitoring system (HCMS100) based on a standard cage rack adapted with a single laser beam and a detector mounted on each cage, enabling to monitor mice movements based on laser beam interruptions. This retrofit system provided continuous and uninterrupted monitoring of spontaneous movement of a group of mice in a home cage. Validity was evaluated using disease state induced by LPS modelling bacterial infection and by influenza virus. RESULTS: Spontaneous activity of different number of mice (2-8) per cage showed the expected circadian rhythm with increased activity during the night, and its extent dependent on the number of mice in the cage. Females and males show similar circadian rhythm. Intranasal LPS administration and pulmonary infection with live influenza virus resulted in major reduction of mice activity along disease progression. Increase in activity over time was a good indicator of the recovery process from both LPS exposure and the flu infection. CONCLUSIONS: HCMS100 was shown to be a reliable, inexpensive, easy to use system that requires no changes in the common housing of various experimental animals (mice, hamsters, rats etc.). With minimal intervention, HCMS100 provides a continuous record of group activity with clear pattern of circadian rhythm, allowing long term recording of home cage activity even in restricted access environments.
 ...
PMID:Group activity of mice in communal home cage used as an indicator of disease progression and rate of recovery: Effects of LPS and influenza virus. 3276 85

Influenza viruses are presumed, but not conclusively known, to spread among humans by several possible routes. We provide evidence of a mode of transmission seldom considered for influenza: airborne virus transport on microscopic particles called "aerosolized fomites." In the guinea pig model of influenza virus transmission, we show that the airborne particulates produced by infected animals are mainly non-respiratory in origin. Surprisingly, we find that an uninfected, virus-immune guinea pig whose body is contaminated with influenza virus can transmit the virus through the air to a susceptible partner in a separate cage. We further demonstrate that aerosolized fomites can be generated from inanimate objects, such as by manually rubbing a paper tissue contaminated with influenza virus. Our data suggest that aerosolized fomites may contribute to influenza virus transmission in animal models of human influenza, if not among humans themselves, with important but understudied implications for public health.
 ...
PMID:Influenza A virus is transmissible via aerosolized fomites. 3281 26


<< Previous 1 2 3 4 5 6