Project description:Examination of ribosome-bound mRNA at five timepoints (in duplicates) during oocyte meiosis (prophase I (0 hrs), early pro-metaphase I (2 hrs), pro-metaphase I (4 hrs), late pro-metaphase I (6 hrs), and late metaphase I (8 hrs)).

Project description:In homeostatic scaling, the cellular mechanisms that detect the offset from the set-point, the duration of the offset and implement a cellular response are not well-understood. To understand the time-dependent dynamics,we manipulated activity for 2 hrs to induce the process of up or down-scaling and metabolically labelled nascent proteins using BONCAT. We analyzed the newly synthesized proteins that exhibited significant increases or decreases in expression in response to activity manipulations and identified 168 proteins. Then, to obtain a temporal trajectory of the cellular response, we compared the proteins synthesized within 2 and 24 hrs of an activity manipulation. Surprisingly, there was little overlap in the significantly regulated newly synthesized proteins identified in the early- and late-response datasets. There was, however, overlap in the functional categories that are modulated early and late, indicating that within protein function groups, different proteomic choices can be made to effect early and late homeostatic responses.

Project description:With 350 million carriers worldwide who may suffer from serious sequelae, including hepatocellular carcinoma, chronic hepatitis B virus (CHB) infection remains an important health issue. Current antiviral therapies hardly eradicate the virus. Therefore, there are still imperative need to develop new therapeutic strategies and predictors for treatment response to cure the disease and avoid futile treatment. By taking the advantage of having the paired liver biopsy samples of IFNalpha responders before/after treatment and pretreatment samples from responders and non-responders, we could characterize the intrahepatic expression profiles associated with necroinflammatory activity and the profiles/signature potentially predictive of response to IFNalpha therapy for CHB in this study.

Project description:With 350 million carriers worldwide who may suffer from serious sequelae, including hepatocellular carcinoma, chronic hepatitis B virus (CHB) infection remains an important health issue. Current antiviral therapies hardly eradicate the virus. Therefore, there are still imperative need to develop new therapeutic strategies and predictors for treatment response to cure the disease and avoid futile treatment. By taking the advantage of having the paired liver biopsy samples of IFNalpha responders before/after treatment and pretreatment samples from responders and non-responders, we could characterize the intrahepatic expression profiles associated with necroinflammatory activity and the profiles/signature potentially predictive of response to IFNalpha therapy for CHB in this study.

Project description:Wild-type (JRS4) and irr mutant (JRS550) Group A Streptococcus (GAS) strains growing in either early or late exponential phase Keywords = Human Keywords = Neutrophils Keywords = Bacterial Keywords = Gene Regulation Keywords = Inflammation Keywords: other

Project description:Clostridioides difficile infection (CDI) is a common cause of antibiotic-associated colitis. C. difficile proliferates and produces toxins that damage the colonic epithelium, leading to symptoms ranging from mild diarrhea to severe pseudomembranous colitis. The host's innate response to CDI occurs in two phases: an early phase in which neutrophils reduce the bacterial load, and a late phase involving repair mechanisms to restore epithelial integrity. Group 3 innate lymphoid cells (ILC3s) are crucial in protecting the gut from CDI. Previous studies have shown that ILC3 production of IL-22 is essential in the late phase of CDI for epithelial repair and maintaining an intestinal microbiota that competes with C. difficile, preventing its expansion. Our study finds that ILC3s also protect during the early stages of CDI by sustaining neutrophils through GM-CSF. Less neutrophil production, accumulation and activation was evident in ILC3-deficient mice than in wild-type (WT) mice, which led to exacerbated symptoms, impaired pathogen clearance, a compromised epithelial barrier, and increased mortality. The adoptive transfer of ILC3s into ILC3-deficient mice restored neutrophil responses and improved disease outcomes. Both in vitro and in vivo experiments revealed that GM-CSF production by ILC3s is crucial for neutrophil production and effective resistance during CDI. Using mice lacking NKp46+ ILC3s, we found that this subset significantly contributes to GM-CSF production in CDI. These findings highlight the critical role of the ILC3-neutrophil connection in early innate responses to CDI. Enhancing ILC3 production of GM-CSF could be a promising strategy for improving host defense against CDI and other enteric infections.

Project description:Neutrophil extracellular trap (NET) formation has emerged as an important response against various pathogens; it also plays a role in chronic inflammation, autoimmunity, and cancer. Despite a growing understanding of the mechanisms underlying NET formation, much remains to be elucidated. We previously showed that in human neutrophils activated with different classes of physiological stimuli, NET formation features both early and late events that are controlled by discrete signaling pathways. However, the nature of these events has remained elusive. We now report that PAD4 inhibition only affects the early phase of NETosis, as do distinct signaling intermediates (TAK1, MEK, p38 MAPK). Accordingly, the inducible citrullination of residue R2 on histone H3 is an early neutrophil response that is regulated by these kinases; other arginine residues on histones H3 and H4 do not seem to be citrullinated. Conversely, chromatin decondensation is a belated event in NET formation, that is impaired by the inhibition of most signaling pathways known to control the phenomenon. We additionally show that neutrophils can condition themselves to be poised for rapid NET formation, and that this represents another late process. Similarly, activated neutrophils release a number of endogenous proteic factors that promote and largely mediate NET generation, and this is yet another late process. Our data shed new light on the cellular processes underlying NET formation, and unveil some unsuspected facets of the phenomenon. In view of the involvement of NETs in both homeostasis and several pathologies, our findings are of broad relevance.

Project description:Although neutrophils have been linked to the formation of the pre-metastatic niche, the mechanism of their migration to distant uninvolved tissues has remained elusive. We report that bone marrow neutrophils from mice with early-stage cancers exhibited much more spontaneous migration to tissues. These cells lacked immunosuppressive activity but had elevated rates of oxidative phosphorylation and glycolysis, and much more production of ATP. Their enhanced spontaneous migration was mediated by the binding of ATP to purinergic receptors. In ectopic tumor models and the late stages of cancers, bone marrow neutrophils demonstrated potent immunosuppressive activity. However, these cells had metabolic and migratory activity indistinguishable from that of control neutrophils. A similar pattern of migration was observed in neutrophils and polymorphonuclear myeloid-derived suppressor cells from patients with cancer. These results elucidate the dynamic changes that neutrophils undergo in cancer and demonstrate the mechanism of neutrophils’ contribution to early tumor dissemination.

Project description:With 350 million carriers worldwide who may suffer from serious sequelae, including hepatocellular carcinoma, chronic hepatitis B virus (CHB) infection remains an important health issue. Current antiviral therapies hardly eradicate the virus. Therefore, there are still imperative need to develop new therapeutic strategies and predictors for treatment response to cure the disease and avoid futile treatment. By taking the advantage of having the paired liver biopsy samples of IFNalpha responders before/after treatment and pretreatment samples from responders and non-responders, we could characterize the intrahepatic expression profiles associated with necroinflammatory activity and the profiles/signature potentially predictive of response to IFNalpha therapy for CHB in this study. RNA was extracted from pairedliver tissues for gene expression analysis. The gene expression profiles of seven paired liver biopsy samples of IFNalpha responders before/after treatment and other 3 pre- treatment samples were obtained by Affymatrix U133plus2 microarray. We also pooled samples of 11 responders and 11 non-responders to perform affymatrix EXON ST 1.0 array. This dataset is part of the TransQST collection.

Project description:We report on changes in gene expression resulting from the ecdysone-directed broad-based transcriptional regulatory hierarchy in Drosophila melanogaster leg imaginal discs by comparing expression in white1118 third-instar larvae (-18 hrs relative to pupariation) and white prepupae (0 hrs) to examine the transcriptional effects of the late larval ecdysone pulse, as well comparing expression in white1118 and broad5 white prepupal leg imaginal discs to examine the transcriptional effects of the early ecdysone responder, broad. Using this approach, we were able to identify critical leg disc elongation genes that are differentially regulated in broad mutants