Tiina Henttinen

IFN-α Induced Adenosine Production on the Endothelium: A Mechanism Mediated by CD73 (Ecto-5′-Nucleotidase) Up-Regulation

CD73 (ecto-5′-nucleotidase; EC 3.1.3.5) participates in lymphocyte binding to endothelial cells and converts extracellular AMP into a potent anti-inflammatory substance adenosine. However, the regulation of expression and function of CD73 has remained largely unknown. In this study, we show that IFN-α produces a time- and dose-dependent long-term up-regulation of CD73 on endothelial cells, but not on lymphocytes both at protein and RNA levels. Moreover, CD73-mediated production of adenosine is increased after IFN-α treatment on endothelial cells, resulting in a decrease in the permeability of these cells. Subsequent to induction with PMA, FMLP, dibutyryl cAMP, thrombin, histamine, IL-1β, TNF-α, and LPS, no marked changes in the level of CD73 expression on endothelial cells are observed. We also show that CD73 is up-regulated in vivo on the vasculature after intravesical treatment of urinary bladder cancers with IFN-α. In conclusion, distinct behavior of lymphocyte and endothelial CD73 subsequent to cytokine treatment further emphasizes the existence of cell type-specific mechanisms in the regulation of CD73 expression and function. Overall, these results suggest that IFN-α is a relevant in vivo regulator of CD73 in the endothelial-leukocyte microenvironment in infections/inflammations, and thus has a fundamental role in controlling the extent of inflammation via CD73-dependent adenosine production.

The prototype endothelial marker PAL-E is a leukocyte trafficking molecule

Pathologische Anatomie Leiden-endothelium antibody has been used for more than 20 years as a marker for vascular endothelium. Despite its widespread use, the target of this antibody was only recently identified as plasmalemma vesicle-associated protein-1 (PV-1). However, no function has been identified for this molecule. Here we report that activation of human umbilical vein endothelial cells with tumor necrosis factor-alpha resulted in a remarkable redistribution of PV-1 toward the peripheral areas of the cells. Furthermore, in vitro endpoint transmigration experiments showed that transcellularly migrating lymphocytes are surrounded by rings containing PV-1 and caveolin-1. Moreover, PV-1 associates physically with vimentin. In addition, administration of anti-PV-1 antibody during capillary flow assays resulted in a significant inhibition of lymphocyte transmigration through the endothelial cell layer, whereas rolling and adhesion were unaffected. In vivo blockage of PV-1 by an antibody in acute peritonitis and air pouch model resulted in a significant decrease in the number of migrating leukocytes. Here we thus define leukocyte transendothelial migration as the first known function for PV-1.

Mini-PEG spacering of VAP-1-targeting 68Ga-DOTAVAP-P1 peptide improves PET imaging of inflammation.

BackgroundVascular adhesion protein-1 (VAP-1) is an adhesion molecule that plays a key role in recruiting leucocytes into sites of inflammation. We have previously shown that 68Gallium-labelled VAP-1-targeting peptide (68Ga-DOTAVAP-P1) is a positron emission tomography (PET) imaging agent, capable of visualising inflammation in rats, but disadvantaged by its short metabolic half-life and rapid clearance. We hypothesised that prolonging the metabolic half-life of 68Ga-DOTAVAP-P1 could further improve its imaging characteristics. In this study, we evaluated a new analogue of 68Ga-DOTAVAP-P1 modified with a mini-polyethylene glycol (PEG) spacer (68Ga-DOTAVAP-PEG-P1) for in vivo imaging of inflammation.MethodsWhole-body distribution kinetics and visualisation of inflammation in a rat model by the peptides 68Ga-DOTAVAP-P1 and 68Ga-DOTAVAP-PEG-P1 were evaluated in vivo by dynamic PET imaging and ex vivo by measuring the radioactivity of excised tissues. In addition, plasma samples were analysed by radio-HPLC for the in vivo stability of the peptides.ResultsThe peptide with the mini-PEG spacer showed slower renal excretion but similar liver uptake as the original peptide. At 60 min after injection, the standardised uptake value of the inflammation site was 0.33 ± 0.07 for 68Ga-DOTAVAP-P1 and 0.53 ± 0.01 for 68Ga-DOTAVAP-PEG-P1 by PET. In addition, inflammation-to-muscle ratios were 6.7 ± 1.3 and 7.3 ± 2.1 for 68Ga-DOTAVAP-P1 and 68Ga-DOTAVAP-PEG-P1, respectively. The proportion of unchanged peptide in circulation at 60 min after injection was significantly higher for 68Ga-DOTAVAP-PEG-P1 (76%) than for 68Ga-DOTAVAP-P1 (19%).ConclusionThe eight-carbon mini-PEG spacer prolonged the metabolic half-life of the 68Ga-DOTAVAP-P1 peptide, leading to higher target-to-background ratios and improved in vivo PET imaging of inflammation.

GIMAP GTPase Family Genes: Potential Modifiers in Autoimmune Diabetes, Asthma, and Allergy

GTPase of the immunity-associated protein (GIMAP) family members are differentially regulated during human Th cell differentiation and have been previously connected to immune-mediated disorders in animal studies. GIMAP4 is believed to contribute to the Th cell subtype–driven immunological balance via its role in T cell survival. GIMAP5 has a key role in BB-DR rat and NOD mouse lymphopenia. To elucidate GIMAP4 and GIMAP5 function and role in human immunity, we conducted a study combining genetic association in different immunological diseases and complementing functional analyses. Single nucleotide polymorphisms tagging the GIMAP haplotype variation were genotyped in Finnish type 1 diabetes (T1D) families and in a prospective Swedish asthma and allergic sensitization birth cohort. Initially, GIMAP5 rs6965571 was associated with risk for asthma and allergic sensitization (odds ratio [OR] 3.74, p = 0.00072, and OR 2.70, p = 0.0063, respectively) and protection from T1D (OR 0.64, p = 0.0058); GIMAP4 rs13222905 was associated with asthma (OR 1.28, p = 0.035) and allergic sensitization (OR 1.27, p = 0.0068). However, after false discovery rate correction for multiple testing, only the associations of GIMAP4 with allergic sensitization and GIMAP5 with asthma remained significant. In addition, transcription factor binding sites surrounding the associated loci were predicted. A gene–gene interaction in the T1D data were observed between the IL2RA rs2104286 and GIMAP4 rs9640279 (OR 1.52, p = 0.0064) and indicated between INS rs689 and GIMAP5 rs2286899. The follow-up functional analyses revealed lower IL-2RA expression upon GIMAP4 knockdown and an effect of GIMAP5 rs2286899 genotype on protein expression. Thus, the potential role of GIMAP4 and GIMAP5 as modifiers of immune-mediated diseases cannot be discarded.

Tubulin- and actin-associating GIMAP4 is required for IFN-γ secretion during Th cell differentiation

Although GTPase of the immunity‐associated protein (GIMAP) family are known to be most highly expressed in the cells of the immune system, their function and role remain still poorly characterized. Small GTPases in general are known to be involved in many cellular processes in a cell type‐specific manner and to contribute to specific differentiation processes. Among GIMAP family, GIMAP4 is the only member reported to have true GTPase activity, and its transcription is found to be differentially regulated during early human CD4+ T helper (Th) lymphocyte differentiation. GIMAP4 has been previously connected mainly with T‐ and B‐cell development and survival and T‐cell apoptosis. Here we show GIMAP4 to be localized into cytoskeletal elements and with the component of the trans golgi network, which suggests it to have a function in cellular transport processes. We demonstrate that depletion of GIMAP4 with RNAi results in downregulation of endoplasmic reticulum localizing chaperone VMA21. Most importantly, we discovered that GIMAP4 regulates secretion of cytokines in early differentiating human CD4+ Th lymphocytes and in particular the secretion of interferon‐γ also affecting its downstream targets.

Syndecan-1 regulates FGF8b responses in S115 mammary carcinoma cells

In murine mammary carcinoma cells Shionogi 115 (S115) testosterone induces phenotypical transformation which is largely due to expression of fibroblast growth factor (FGF) 8b. Concomitantly, the expression of the cell surface heparan sulfate proteoglycan syndecan-1 is down-regulated. However, if syndecan-1 expression is maintained by transfection with a testosterone-driven syndecan-1 construct, transformation does not occur. Here we have investigated how the down-regulation of syndecan-1 expression in testosterone-treated S115 cells and the high level of expression in syndecan-1 transfected cells influence the cellular responses toward FGF8b. Our results show that high level of syndecan-1 is associated with a decreased magnitude and duration of the FGF8b induced Erk phosphorylation. This effect was observed regardless whether the cells were stimulated directly with exogenous FGF8b or with testosterone to induce autocrine FGF8b production. Moreover, syndecan-1 transfected cells did not respond to FGF8b stimulation by increase in the intracellular free calcium, whereas untransfected cells displayed a rapid (10 s) induction. These data suggest that, in S115 cells, syndecan-1 acts as a modulator of FGF8b signaling that can limit cellular responses to FGF receptor activation. The decreased levels of syndecan-1 expression and upregulation of the FGF signaling system seen in many cancers may contribute to the proliferation of the malignant cells in vivo.