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Angiogenesis and vascular remodeling are driven by extensive endothelial cell movements. Here, we present in vivo evidence that endothelial cell movements are associated with oscillating lamellipodia-like structures, which emerge from cell junctions in the direction of cell movements. High-resolution time-lapse imaging of these junction-based lamellipodia (JBL) shows dynamic and distinct deployment of junctional proteins, such as F-actin, VE-cadherin and ZO1, during JBL oscillations. Upon initiation, F-actin and VE-cadherin are broadly distributed within JBL, whereas ZO1 remains at cell junctions. Subsequently, a new junction is formed at the front of the JBL, which then merges with the proximal junction. Rac1 inhibition interferes with JBL oscillations and disrupts cell elongation—similar to a truncation in ve-cadherin preventing VE-cad/F-actin interaction. Taken together, our observations suggest an oscillating ratchet-like mechanism, which is used by endothelial cells to move over each other and thus provides the physical means for cell rearrangements. During the formation of the zebrafish dorsal longitudinal anastomotic vessel, blood vessels connect in a process called anastomosis. Using live imaging, the authors here show that endothelial cell movements during blood vessel anastomosis are associated with oscillating lamellipodia-like structures, oriented in the direction of the movements and emerging at endothelial cell junctions.

Background Throughout Europe, Ixodes ricinus transmits numerous pathogens. Its widespread distribution is not limited to rural but also includes urbanized areas. To date, comprehensive data on pathogen carrier rates of I. ricinus ticks in urban areas of Switzerland is lacking. Results Ixodes ricinus ticks sampled at 18 (sub-) urban collection sites throughout Switzerland showed carrier rates of 0% for tick-borne encephalitis virus, 18.0% for Borrelia burgdorferi ( sensu lato ), 2.5% for Borrelia miyamotoi , 13.5% for Rickettsia spp., 1.4% for Anaplasma phagocytophilum , 6.2% for \" Candidatus Neoehrlichia mikurensis\", and 0.8% for Babesia venatorum ( Babesia sp., EU1). Site-specific prevalence at collection sites with n > 45 ticks ( n = 9) significantly differed for B. burgdorferi ( s.l. ), Rickettsia spp., and \" Ca. N. mikurensis\", but were not related to the habitat type. Three hundred fifty eight out of 1078 I. ricinus ticks (33.2%) tested positive for at least one pathogen. Thereof, about 20% (71/358) were carrying two or three different potentially disease-causing agents. Using next generation sequencing, we could detect true pathogens, tick symbionts and organisms of environmental or human origin in ten selected samples. Conclusions Our data document the presence of pathogens in the (sub-) urban I. ricinus tick population in Switzerland, with carrier rates as high as those in rural regions. Carriage of multiple pathogens was repeatedly observed, demonstrating the risk of acquiring multiple infections as a consequence of a tick bite.

Angiogenesis and vascular remodeling are driven by a wide range of endothelial cell behaviors, such as cell divisions, cell movements, cell shape and polarity changes. To decipher the cellular and molecular mechanism of cell movements, we have analyzed the dynamics of different junctional components during blood vessel anastomosis in vivo. We show that endothelial cell movements are associated with oscillating lamellipodia-like structures, which are orientated in the direction of these movements. These structures emerge from endothelial cell junctions and we thus call them junction-based lamellipodia (JBL). High-resolution time-lapse imaging shows that JBL are formed by F-actin based protrusions at the front end of moving cells. These protrusions also contain diffusely distributed VE-cadherin, whereas the junctional protein ZO-1 (Zona occludens 1) remains at the junction. Subsequently, a new junction is formed at the front of the JBL and the proximal junction is pulled towards the newly established distal junction. JBL function is highly dependent on F-actin dynamics. Inhibition of F-actin polymerization prevents JBL formation, whereas Rac-1 inhibition interferes with JBL oscillations. Both interventions disrupt endothelial junction formation and cell elongation. To examine the role of VE-cadherin (encoded by cdh5 gene) in this process, we generated a targeted mutation in VE-cadherin gene (cdh5ubs25), which prevents VE-cad/F-actin interaction. Although homozygous ve-cadherin mutants form JBL, these JBL are less dynamic and do not promote endothelial cell elongation. Taken together, our observations suggest a novel oscillating ratchet-like mechanism, which is used by endothelial cells to move along or over each other and thus provides the physical means for cell rearrangements.

Vascular network formation requires the fusion of newly formed blood vessels and the emergence of a patent lumen between the newly established connections so that blood flow can start. Lumen formation has been shown to depend on the late endosomal/lysosomal pathway in various organs of animal tubular systems. Here, we identified a late endosomal/lysosomal vesicular fraction (Rab7/Lamp2) in early zebrafish angiogenic sprouts, which appears to contribute to apical membrane growth during lumen formation. To study the effect of the late endocytic pathway on vascular development, we generated mutant alleles for all three rab7 genes in zebrafish (rab7a, rab7ba, rab7bb). All rab7 genes are expressed in wild-type zebrafish and we did not detect any compensatory effects by the other rab7 isoforms in single knockout mutants, which were all viable. Only the triple mutant was lethal suggesting some functional redundancy. However, the different rab7 isoforms fulfil also at least partially independent functions because eggs laid from mothers lacking two rab7 (rab7a and/or rab7bb). showed reduced survival and contained enlarged yolk granules, suggesting maternal contribution of these two rab7. Finally, we observed minor effects on lumen formation in embryos which still express one copy of rab7. Our results support the notion that the late endocytic/lysosomal compartment contributes to lumen expansion.