11 research outputs found

    Intercellular adhesion molecule 2 regulates diapedesis hotspots by allowing neutrophil crawling against the direction of flow

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    Intercellular adhesion molecules (ICAMs) are cell surface proteins that play a crucial role in the body’s immune response and inflammatory processes. ICAM1 and ICAM2 are two ICAM family members expressed on the surface of various cell types, including endothelial cells. They mediate the interaction between immune cells and endothelial cells, which are critical for the trafficking of leukocytes across the blood vessel wall during inflammation. Although ICAM1 plays a prominent role in the leukocyte extravasation cascade, it is less clear if ICAM2 strengthens ICAM1 function or has a separate function in the cascade. With CRISPR–)Cas9 technology, endothelial cells were depleted for ICAM1,ICAM2, or both, and we found that neutrophils favored ICAM1 over ICAM2 to adhere to. However, the absence of only ICAM2 resulted in neutrophils that were unable to find the transmigration hotspot, i.e. the preferred exit site. Moreover, we found that ICAM2 deficiency prevented neutrophils to migrate against the flow. Due to this deficiency, we concluded that ICAM2 helps neutrophils find the preferred exit sites and thereby contributes to efficient leukocyte extravasation

    Semen quality in men with disseminated testicular cancer:relation with human chorionic gonadotropin beta-subunit and pituitary gonadal hormones

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    Objective: To compare the semen quality and hormonal status between patients with testicular cancer and normal versus increased serum levels of beta-hCG. Design: Retrospective study. Setting: Academic research environment. Patient(s): All 203 patients with testicular cancer who required chemotherapy in the period 1995-2003 were included. Intervention(s): In 107 patients semen samples were stored by cryopreservation; 62 patients could be analyzed because both semen was stored and hormones were determined before starting chemotherapy (median age 25 years, range 17-49 years). Main Outcome Measure(s): Total motile sperm count, T, E(2), LH, FSH, and PRL. Result(s): Total motile sperm count was decreased in patients with increased beta-hCG (median 11.9 x 10(6)) compared with patients with normal beta-hCG (median 21.5 x 10(6)). Testosterone, E(2), and PRL were significantly higher in patients with increased beta-hCG levels, whereas LH and FSH were lower. Semen quality was significantly and negatively correlated with beta-hCG, E(2), and PRL. Conclusion(s): Patients with increased beta-hCG had an inferior spermatogenesis compared with patients with normal beta-hCG. Increased beta-hCG appears to be associated with impaired spermatogenesis and increased levels of E(2) and PRL. (Fertil Steril (R) 2009;91:2481-6. (c) 2009 by American Society for Reproductive Medicine.

    Visualizing endogenous Rho activity with an improved localization-based, genetically encoded biosensor

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    Rho GTPases are regulatory proteins, which orchestrate cell features such as morphology, polarity and movement. Therefore, probing Rho GTPase activity is key to understanding processes such as development and cell migration. Localization-based reporters for active Rho GTPases are attractive probes to study Rho GTPase-mediated processes in real time with subcellular resolution in living cells and tissue. Until now, relocation Rho biosensors (sensors that relocalize to the native location of active Rho GTPase) seem to have been only useful in certain organisms and have not been characterized well. In this paper, we systematically examined the contribution of the fluorescent protein and Rho-binding peptides on the performance of localization-based sensors. To test the performance, we compared relocation efficiency and specificity in cell-based assays. We identified several improved localization-based, genetically encoded fluorescent biosensors for detecting endogenous Rho activity. This enables a broader application of Rho relocation biosensors, which was demonstrated by using the improved biosensor to visualize Rho activity during several cellular processes, such as cell division, migration and G protein-coupled receptor signaling. Owing to the improved avidity of the new biosensors for Rho activity, cellular processes regulated by Rho can be better understood. This article has an associated First Person interview with the first author of the paper

    Differential Expression of Estrogen Receptors α and β mRNA During Differentiation of Human Osteoblast SV-HFO Cells

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    Estrogens have been shown to be essential for maintaining a sufficiently high bone mineral density and ERα expression has been demonstrated in bone cells. Recently, a novel estrogen receptor, estrogen receptor β (ERβ) has been identified. Here we demonstrate that also ERβ is expressed in human osteoblasts, and that ERα and ERβ are differentially expressed during human osteoblast differentiation. ERβ mRNA expression increased gradually during osteoblast culture, resulting in an average increase of 9.9±5.3 fold (mean±S.D., n=3) at day 21 (mineralization phase) as compared to day 6 (proliferation phase). In contrast, ERα mRNA expression levels increased only slightly until day 10 (2.3±1.7 fold) and than remained constant. The observed differential regulation of ERα and β is suggestive for an additional functional role of ERβ to ERα in bone metabolism

    Endothelial transmigration hotspots limit vascular leakage through heterogeneous expression of ICAM-1

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    Upon inflammation, leukocytes leave the circulation by crossing the endothelial monolayer at specific transmigration “hotspot” regions. Although these regions support leukocyte transmigration, their functionality is not clear. We found that endothelial hotspots function to limit vascular leakage during transmigration events. Using the photoconvertible probe mEos4b, we traced back and identified original endothelial transmigration hotspots. Using this method, we show that the heterogeneous distribution of ICAM-1 determines the location of the transmigration hotspot. Interestingly, the loss of ICAM-1 heterogeneity either by CRISPR/Cas9-induced knockout of ICAM-1 or equalizing the distribution of ICAM-1 in all endothelial cells results in the loss of TEM hotspots but not necessarily in reduced TEM events. Functionally, the loss of endothelial hotspots results in increased vascular leakage during TEM. Mechanistically, we demonstrate that the 3 extracellular Ig-like domains of ICAM-1 are crucial for hotspot recognition. However, the intracellular tail of ICAM-1 and the 4th Ig-like dimerization domain are not involved, indicating that intracellular signaling or ICAM-1 dimerization is not required for hotspot recognition. Together, we discovered that hotspots function to limit vascular leakage during inflammation-induced extravasation

    Endothelial transmigration hotspots limit vascular leakage through heterogeneous expression of ICAM-1

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    Upon inflammation, leukocytes leave the circulation by crossing the endothelial monolayer at specific transmigration “hotspot” regions. Although these regions support leukocyte transmigration, their functionality is not clear. We found that endothelial hotspots function to limit vascular leakage during transmigration events. Using the photoconvertible probe mEos4b, we traced back and identified original endothelial transmigration hotspots. Using this method, we show that the heterogeneous distribution of ICAM-1 determines the location of the transmigration hotspot. Interestingly, the loss of ICAM-1 heterogeneity either by CRISPR/Cas9-induced knockout of ICAM-1 or equalizing the distribution of ICAM-1 in all endothelial cells results in the loss of TEM hotspots but not necessarily in reduced TEM events. Functionally, the loss of endothelial hotspots results in increased vascular leakage during TEM. Mechanistically, we demonstrate that the 3 extracellular Ig-like domains of ICAM-1 are crucial for hotspot recognition. However, the intracellular tail of ICAM-1 and the 4th Ig-like dimerization domain are not involved, indicating that intracellular signaling or ICAM-1 dimerization is not required for hotspot recognition. Together, we discovered that hotspots function to limit vascular leakage during inflammation-induced extravasation

    Endothelial Focal Adhesions Are Functional Obstacles for Leukocytes During Basolateral Crawling

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    An inflammatory response requires leukocytes to migrate from the circulation across the vascular lining into the tissue to clear the invading pathogen. Whereas a lot of attention is focused on how leukocytes make their way through the endothelial monolayer, it is less clear how leukocytes migrate underneath the endothelium before they enter the tissue. Upon finalization of the diapedesis step, leukocytes reside in the subendothelial space and encounter endothelial focal adhesions. Using TIRF microscopy, we show that neutrophils navigate around these focal adhesions. Neutrophils recognize focal adhesions as physical obstacles and deform to get around them. Increasing the number of focal adhesions by silencing the small GTPase RhoJ slows down basolateral crawling of neutrophils. However, apical crawling and diapedesis itself are not affected by RhoJ depletion. Increasing the number of focal adhesions drastically by expressing the Rac1 GEF Tiam1 make neutrophils to avoid migrating underneath these Tiam1-expressing endothelial cells. Together, our results show that focal adhesions mark the basolateral migration path of neutrophils

    A turquoise fluorescence lifetime-based biosensor for quantitative imaging of intracellular calcium

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    The most successful genetically encoded calcium indicators (GECIs) employ an intensity or ratiometric readout. Despite a large calcium-dependent change in fluorescence intensity, the quantification of calcium concentrations with GECIs is problematic, which is further complicated by the sensitivity of all GECIs to changes in the pH in the biological range. Here, we report on a sensing strategy in which a conformational change directly modifies the fluorescence quantum yield and fluorescence lifetime of a circular permutated turquoise fluorescent protein. The fluorescence lifetime is an absolute parameter that enables straightforward quantification, eliminating intensity-related artifacts. An engineering strategy that optimizes lifetime contrast led to a biosensor that shows a 3-fold change in the calcium-dependent quantum yield and a fluorescence lifetime change of 1.3 ns. We dub the biosensor Turquoise Calcium Fluorescence LIfeTime Sensor (Tq-Ca-FLITS). The response of the calcium sensor is insensitive to pH between 6.2–9. As a result, Tq-Ca-FLITS enables robust measurements of intracellular calcium concentrations by fluorescence lifetime imaging. We demonstrate quantitative imaging of calcium concentrations with the turquoise GECI in single endothelial cells and human-derived organoids

    Endothelial junctional membrane protrusions serve as hotspots for neutrophil transmigration.

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    Upon inflammation, leukocytes rapidly transmigrate across the endothelium to enter the inflamed tissue. Evidence accumulates that leukocytes use preferred exit sites, though it is not yet clear how these hotspots in the endothelium are defined and how they are recognized by the leukocyte. Using lattice light sheet microscopy, we discovered that leukocytes prefer endothelial membrane protrusions at cell junctions for transmigration. Phenotypically, these junctional membrane protrusions are present in an asymmetric manner, meaning that one endothelial cell shows the protrusion and the adjacent one does not. Consequently, leukocytes cross the junction by migrating underneath the protruding endothelial cell. These protrusions depend on Rac1 activity and by using a photo-activatable Rac1 probe, we could artificially generate local exit-sites for leukocytes. Overall, we have discovered a new mechanism that uses local induced junctional membrane protrusions to facilitate/steer the leukocyte escape/exit from inflamed vessel walls
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