TIS11b belongs to the tristetraprolin family of zinc-finger proteins, which target short-lived mRNA for degradation. This study shows that the cAMP pathway up-regulates TIS11b expression and modulates its function in mRNA decay through PKA-dependent phosphorylation of two highly conserved phosphosites.
MerTK expression in circulating innate immune cells is increased in patients with septic shock in comparison with healthy volunteers and trauma patients. Persistent MerTK overexpression after septic shock is associated with adverse outcome. The role of this family of receptors in the pathophysiology of injury-induced immune dysfunctions deserves to be specifically investigated.
Angiogenesis inhibitors have shown clinical benefits in patients with advanced cancer, but further therapeutic improvement is needed. We have previously shown that the zinc finger protein 36, C3H type-like 1 (ZFP36L1) enhances vascular endothelial growth factor (VEGF) mRNA decay through its interaction with AU-rich elements within VEGF 3 0 -untranslated region. In this study, we evaluated the possibility to develop an antiangiogenic and antitumoral strategy using the mRNA-destabilizing activity of ZFP36L1. We engineered a cell-penetrating ZFP36L1, by fusing it to the protein transduction domains (PTDs) TAT derived from HIV, or the polyarginine peptides R7 or R9. PTD-ZFP36L1 fusion proteins were expressed in bacterial cells and affinity-purified to homogeneity. TAT-, R7-and R9-ZFP36L1 were efficiently internalized into living cells and decreased both endogenous VEGF mRNA half-life and VEGF protein levels in vitro. Importantly, a single injection of R9-TIS11b fusion protein into a high-VEGF expressing tissue in vivo (in this study, the mouse adrenal gland) markedly decreased VEGF expression. We further evaluated the effect of R9-ZFP36L1 on tumor growth using Lewis Lung Carcinoma (LL/2) cells implanted subcutaneously into nude mice. Intratumoral injection of R9-ZFP36L1 significantly reduced tumor growth and markedly decreased the expression of multiple angiogenic and inflammatory cytokines, including VEGF, acidic fibroblast growth factor, tumor necrosis factor a, interleukin (IL)-1a and IL-6, with a concomitant obliteration of tumor vascularization. These findings indicate that R9-ZFP36L1 fusion protein may represent a novel antiangiogenic and antitumoral agent, and supports the emerging idea that modulation of mRNA stability represents a promising therapeutic approach to treat cancer.
ObjectivesSeptic syndromes are the leading cause of death in intensive care units. They are characterized by the development of immune dysfunctions such as endotoxin tolerance (ET), whose intensity and duration are associated with increased risk of nosocomial infections and mortality. Alarmins S100A8 and S100A9 have been shown to be increased after septic shock. Importantly, a delayed S100A9 mRNA increase predicts hospital-acquired infection in patients. The aim of this study was to investigate the regulation of S100A8 and S100A9 mRNA expression in an ex vivo model of ET.Subjects and MeasurementsET was reproduced ex vivo by priming healthy peripheral blood mononuclear cells (number of donors = 9 to 10) with low-dose endotoxin (2 ng/ml) before stimulation with high dose endotoxin (100 ng/ml). S100A8 and S100A9 mRNA levels were measured by quantitative real-time polymerase chain reactions.Main ResultsET was established by observing decreased TNFα and increased IL-10 transcriptomic responses to two subsequent endotoxin challenges. Interestingly, ET was associated with increased S100A8 and S100A9 mRNA expression ex vivo. We showed that IL-10 played a role in this process, since S100A8 and S100A9 mRNA increases were significantly abrogated by IL-10 blockade in the model. Conversely, treatment with rIFN-γ, a pro-inflammatory and immunostimulating molecule known to block ET induction, was able to restore normal S100A8 and S100A9 mRNA in this model.ConclusionsIn this ex vivo model, we observed that S100A8 and S100A9 mRNA expression was significantly increased during ET. This reproduced ex vivo the observations we had previously made in septic shock patients. Interestingly, IL-10 blockade and rIFN-γ treatment partially abrogated S100A8/A9 mRNA increases in this model. Pending confirmation in larger, independent clinical studies, these preliminary results suggest that S100A8 and S100A9 mRNA levels might be used as surrogate markers of ET and as stratification tools for personalized immunotherapy in septic shock patients.
Mus musculus is the classic mammalian model for biomedical research. Despite global efforts to standardize breeding and experimental procedures, the undefined composition and interindividual diversity of the microbiota of laboratory mice remains a limitation. In an attempt to standardize the gut microbiome in preclinical mouse studies, here we report the development of a simplified mouse microbiota composed of 15 strains from 7 of the 20 most prevalent bacterial families representative of the fecal microbiota of C57BL/6J Specific (and Opportunistic) Pathogen-Free (SPF/SOPF) animals and the derivation of a standardized gnotobiotic mouse model called GM15. GM15 recapitulates extensively the functionalities found in the C57BL/6J SOPF microbiota metagenome, and GM15 animals are phenotypically similar to SOPF or SPF animals in two different facilities. They are also less sensitive to the deleterious effects of post-weaning malnutrition. In this work, we show that the GM15 model provides increased reproducibility and robustness of preclinical studies by limiting the confounding effect of fluctuation in microbiota composition, and offers opportunities for research focused on how the microbiota shapes host physiology in health and disease.
25 26 Mus musculus is the classic mammalian model for biomedical research. Despite global efforts 27 in standardizing breeding and experimental procedures, the undefined nature and inter-28 individual diversity of laboratory mouse microbiota remains a limitation. In an attempt to 29 standardize preclinical studies, we have developed a simplified mouse microbiota composed 30 of 15 strains from 7 of the 20 most prevalent bacterial families representative of the fecal 31 microbiota found in specific opportunistic-and pathogen-free (SOPF) C57BL/6J animals and 32 derived a standardized gnotobiotic mouse model called GM15. GM15 recapitulates extensively 33 the functionalities found in C57BL/6J SOPF microbiota metagenome and GM15 animals are 34 phenotypically similar to SOPF. They even perform better in a model of post-weaning 35 malnutrition. The GM15 model ensures an increased reproducibility and robustness of 36 preclinical studies by limiting the confounding effect of microbiota composition fluctuation and 37 offers new possibilities for research focusing on how the microbiota shapes host physiology in 38 health and diseases. 39 40
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