GILZ promotes production of peripherally induced Treg cells and mediates the crosstalk between glucocorticoids and TGF-β signaling

Summary: Regulatory T (Treg) cells expressing the transcription factor forkhead box P3 (FoxP3) control immune responses and prevent autoimmunity. Treatment with glucocorticoids (GCs) has been shown to increase Treg cell frequency, but the mechanisms of their action on Treg cell induction are largely unknown. Here, we report that glucocorticoid-induced leucine zipper (GILZ), a protein induced by GCs, promotes Treg cell production. In mice, GILZ overexpression causes an increase in Treg cell number, whereas GILZ deficiency results in impaired generation of peripheral Treg cells (pTreg), associated with increased spontaneous and experimental intestinal inflammation. Mechanistically, we found that GILZ is required for GCs to cooperate with TGF-β in FoxP3 induction, while it enhances TGF-β signaling by binding to and promoting Smad2 phosphorylation and activation of FoxP3 expression. Thus, our results establish an essential GILZ-mediated link between the anti-inflammatory action of GCs and the regulation of TGF-β-dependent pTreg production. : Peripherally induced Treg cells (pTreg) are generated outside of the thymus and regulate responses to foreign antigens. In this manuscript, Riccardi and colleagues demonstrate that glucocorticoid-induced protein GILZ controls generation of pTreg cells and colon homeostasis. GILZ promotes TGF-β-induced phosphorylation of Smad2 and the expression of FoxP3. Thus, GILZ mediates a synergy between glucocorticoids and TGF-β in pTreg cell induction. GILZ is essential for Treg induction by glucocorticoids and their anti-inflammatory activity

Glucocorticoid-Induced Leucine Zipper Inhibits Interferon-Gamma Production in B Cells and Suppresses Colitis in Mice

Glucocorticoid-induced leucine zipper (GILZ) is transcriptionally upregulated by glucocorticoids (GCs) and mediates many of the anti-inflammatory effects of GCs. Since B cell activity has been linked to cytokine production and modulation of inflammatory responses, we herein investigated the role of GILZ in B cells during colitis development. B cell-specific gilz knock-out (gilz B cKO) mice exhibited increased production of the pro-inflammatory cytokine IFN-γ in B cells, and consequently CD4+ T cell activation. Increased IFN-γ production in B cells was associated with enhanced transcriptional activity of the transcription factor activator protein-1 (AP-1) on the IFN-γ promoter. Moreover, GILZ deficiency in B cells was linked to enhanced susceptibility to experimental colitis in mice, and this was reversed by administering GILZ protein. Interestingly, we observed increased production of IFN-γ in both B and T cells infiltrating the lamina propria (LP) of gilz B cKO mice. Together, these findings indicate that GILZ controls IFN-γ production in B cells, which also affects T cell activity, and increased production of IFN-γ by B and T cells in LP is associated with predisposition to inflammatory colitis in mice

Image guidance using 3D-ultrasound (3D-US) for daily positioning of lumpectomy cavity for boost irradiation

<p>Abstract</p> <p>Purpose</p> <p>The goal of this study was to evaluate the use of 3D ultrasound (3DUS) breast IGRT for electron and photon lumpectomy site boost treatments.</p> <p>Materials and methods</p> <p>20 patients with a prescribed photon or electron boost were enrolled in this study. 3DUS images were acquired both at time of simulation, to form a coregistered CT/3DUS dataset, and at the time of daily treatment delivery. Intrafractional motion between treatment and simulation 3DUS datasets were calculated to determine IGRT shifts. Photon shifts were evaluated isocentrically, while electron shifts were evaluated in the beam's-eye-view. Volume differences between simulation and first boost fraction were calculated. Further, to control for the effect of change in seroma/cavity volume due to time lapse between the 2 sets of images, interfraction IGRT shifts using the first boost fraction as reference for all subsequent treatment fractions were also calculated.</p> <p>Results</p> <p>For photon boosts, IGRT shifts were 1.1 ± 0.5 cm and 50% of fractions required a shift >1.0 cm. Volume change between simulation and boost was 49 ± 31%. Shifts when using the first boost fraction as reference were 0.8 ± 0.4 cm and 24% required a shift >1.0 cm. For electron boosts, shifts were 1.0 ± 0.5 cm and 52% fell outside the dosimetric penumbra. Interfraction analysis relative to the first fraction noted the shifts to be 0.8 ± 0.4 cm and 36% fell outside the penumbra.</p> <p>Conclusion</p> <p>The lumpectomy cavity can shift significantly during fractionated radiation therapy. 3DUS can be used to image the cavity and correct for interfractional motion. Further studies to better define the protocol for clinical application of IGRT in breast cancer is needed.</p

Neonatal Thyroid Function in Seveso 25 Years after Maternal Exposure to Dioxin

Andrea Baccarelli and colleagues show that maternal exposure to a dioxin following the industrial accident in Seveso, Italy in 1976 is associated with modified neonatal thyroid function even many years later

The Italian National Register of infants with congenital hypothyroidism: twenty years of surveillance and study of congenital hypothyroidism

All the Italian Centres in charge of screening, diagnosis, and follow-up of infants with congenital hypothyroidism participate in the Italian National Registry of affected infants, which performs the nationwide surveillance of the disease. It was established in 1987 as a program of the Health Ministry and is coordinated by the Istituto Superiore di Sanità. The early diagnosis performed by the nationwide newborn screening programme, the prompt treatment and the appropriate clinical management of the patients carried out by the Follow-up Centres, and the surveillance of the disease performed by the National Register of infants with congenital hypothyroidism are the components of an integrated approach to the disease which has been successfully established in our country

NOTCH1-mutated chronic lymphocytic leukemia displays high endoplasmic reticulum stress response with druggable potential

IntroductionConstitutive activation of NOTCH1-wild-type (NT1-WT) signaling is associated with poor outcomes in chronic lymphocytic leukemia (CLL), and NOTCH1 mutation (c.7541_7542delCT), which potentiates NOTCH1 signaling, worsens the prognosis. However, the specific mechanisms of NOTCH1 deregulation are still poorly understood. Accumulative evidence mentioned endoplasmic reticulum (ER) stress/unfolded protein response (UPR) as a key targetable pathway in CLL. In this study, we investigated the impact of NOTCH1 deregulation on CLL cell response to ER stress induction, with the aim of identifying new therapeutic opportunities for CLL.MethodsWe performed a bioinformatics analysis of NOTCH1-mutated (NT1-M) and NT1-WT CLL to identify differentially expressed genes (DEGs) using the rank product test. Quantitative real-time polymerase chain reaction (qPCR), Western blotting, cytosolic Ca2+, and annexin V/propidium iodide (PI) assay were used to detect curcumin ER stress induction effects. A median-effect equation was used for drug combination tests. The experimental mouse model Eμ-TCL1 was used to evaluate the impact of ER stress exacerbation by curcumin treatment on the progression of leukemic cells and NOTCH1 signaling.Results and discussionBioinformatics analysis revealed gene enrichment of the components of the ER stress/UPR pathway in NT1-M compared to those in NT1-WT CLL. Ectopic expression of NOTCH1 mutation upregulated the levels of ER stress response markers in the PGA1 CLL cell line. Primary NT1-M CLL was more sensitive to curcumin as documented by a significant perturbation in Ca2+ homeostasis and higher expression of ER stress/UPR markers compared to NT1-WT cells. It was also accompanied by a significantly higher apoptotic response mediated by C/EBP homologous protein (CHOP) expression, caspase 4 cleavage, and downregulation of NOTCH1 signaling in NT1-M CLL cells. Curcumin potentiated the apoptotic effect of venetoclax in NT1-M CLL cells. In Eμ-TCL1 leukemic mice, the administration of curcumin activated ER stress in splenic B cells ex vivo and significantly reduced the percentage of CD19+/CD5+ cells infiltrating the spleen, liver, and bone marrow (BM). These cellular effects were associated with reduced NOTCH1 activity in leukemic cells and resulted in prolonged survival of curcumin-treated mice. Overall, our results indicate that ER stress induction in NT1-M CLL might represent a new therapeutic opportunity for these high-risk CLL patients and improve the therapeutic effect of drugs currently used in CLL

Feedback avbildning av cellulär dynamik med fluorescensmikroskopi

In biology, it is common to study cultured cells (in vitro) with fluorescence time-lapse microscopy. The cells are recorded for longer period of time and can later be viewed at an accelerated speed. During the acquisition some live cells tend to migrate. This can be a problem if the cell’s migration speed is high enough to move outside the field of view (FOV) during the acquisition time. The cells that moves outside the FOV can no longer be recorded and the information about them will be lost. This thesis presents scripts that have been developed for ZEN (blue) to be able to track a specific migrating cell of interest in real-time with automated control of imaging parameters. The microscope stage position is modified on-the-fly to have the tracked cell in the center of the FOV for the whole experiment. Three different types of experiments to track migrating NK cells were performed with the scripts. The results show that the scripts were able to track one NK cell for more than 1 hour in both conventional wide-field and lattice light-sheet microscopy. The segmentation was inaccurate when one or more objects were in close proximity to the tracked cell. By applying a watershed algorithm the segmentation result can be improved in some cases.Inom cellulär biologi är det vanligt att studera odlade celler (in vitro) med time- lapse-mikroskopi. Flertals bilder tas på cellerna under en längre tidsperiod och när experimentet är klart så kan man titta på bilderna som en video. Under förvärvet av bilderna så tenderar vissa levande celler att migrera. Ett problem som kan uppstå är om cellens migrationshastighet är tillräckligt hög för att röra sig utanför synfältet under anskaffningstiden. De celler som rör sig utanför synfältet kan inte längre avbildas och informationen om dem kommer att gå förlorad. I denna avhandling presenteras programmeringskoder som har utvecklats för ZEN (blue) som kan spåra en specifik migrerande cell i realtid med automatiserad kontroll av bildbehandlings parametrar. Mikroskopets scenposition modifieras under experimentets gång för att få den spårade cellen kontinuerligt i mitten av synfältet. Tre olika sorters experiment i kombination med programmeringskoderna utfördes för att spåra NK-celler. Resultaten visar att programmeringskoderna lyckades spåra en NK-cell i mer än 1 timme i både ett bredfältsfluorescensmikroskop och ett lattice light-sheet mikroskop. Segmenteringen var felaktig när ett eller flera objekt var i närheten av den spårade cellen. Genom att tillämpa en watershed algoritm kan segmenteringsresultatet förbättras i vissa fall

Feedback avbildning av cellulär dynamik med fluorescensmikroskopi

In biology, it is common to study cultured cells (in vitro) with fluorescence time-lapse microscopy. The cells are recorded for longer period of time and can later be viewed at an accelerated speed. During the acquisition some live cells tend to migrate. This can be a problem if the cell’s migration speed is high enough to move outside the field of view (FOV) during the acquisition time. The cells that moves outside the FOV can no longer be recorded and the information about them will be lost. This thesis presents scripts that have been developed for ZEN (blue) to be able to track a specific migrating cell of interest in real-time with automated control of imaging parameters. The microscope stage position is modified on-the-fly to have the tracked cell in the center of the FOV for the whole experiment. Three different types of experiments to track migrating NK cells were performed with the scripts. The results show that the scripts were able to track one NK cell for more than 1 hour in both conventional wide-field and lattice light-sheet microscopy. The segmentation was inaccurate when one or more objects were in close proximity to the tracked cell. By applying a watershed algorithm the segmentation result can be improved in some cases.Inom cellulär biologi är det vanligt att studera odlade celler (in vitro) med time- lapse-mikroskopi. Flertals bilder tas på cellerna under en längre tidsperiod och när experimentet är klart så kan man titta på bilderna som en video. Under förvärvet av bilderna så tenderar vissa levande celler att migrera. Ett problem som kan uppstå är om cellens migrationshastighet är tillräckligt hög för att röra sig utanför synfältet under anskaffningstiden. De celler som rör sig utanför synfältet kan inte längre avbildas och informationen om dem kommer att gå förlorad. I denna avhandling presenteras programmeringskoder som har utvecklats för ZEN (blue) som kan spåra en specifik migrerande cell i realtid med automatiserad kontroll av bildbehandlings parametrar. Mikroskopets scenposition modifieras under experimentets gång för att få den spårade cellen kontinuerligt i mitten av synfältet. Tre olika sorters experiment i kombination med programmeringskoderna utfördes för att spåra NK-celler. Resultaten visar att programmeringskoderna lyckades spåra en NK-cell i mer än 1 timme i både ett bredfältsfluorescensmikroskop och ett lattice light-sheet mikroskop. Segmenteringen var felaktig när ett eller flera objekt var i närheten av den spårade cellen. Genom att tillämpa en watershed algoritm kan segmenteringsresultatet förbättras i vissa fall