Plasma extravasation (PE) was measured in adult Wistar rats by injecting Evans blue dye (EB) (20 mg kg-1) intravenously in the absence or presence of human urotensin II (U-II) (0.1-10 nmol kg-1). A consistent increase of PE was observed in specific organs (e.g., aorta, from 28.1 +/- 2.4 to 74.6 +/- 3.6 micro g EB g-1 dry tissue; P < 0.001) after an administration of 4.0 nmol kg-1 (a preselected optimal dose) of U-II. The effects of U-II (4.0 nmol kg-1) were compared with those of endothelin-1 (ET-1) (1.0 nmol kg-1). In the thoracic aorta and pancreas, U-II was active, while ET-1 was not. The two agents were equivalent in the heart and kidney, whereas, in the duodenum, ET-1 was more active than U-II. Increases of plasma extravasation induced by U-II, but not by ET-1, were reduced after treatment with [Orn8]U-II (0.3 micromol kg-1). This latter antagonist did not show any significant residual agonistic activity in vivo in the rat. Other specific receptor antagonists for ET-1, such as BQ-123 (endothelin type A (ETA) receptor) and BQ-788 (endothelin type B (ETB) receptor), and for the platelet activating factor (PAF), such as BN50730, failed to modify the action of U-II. The present study is the first report describing the modulator roles of U-II on vascular permeability in specific organs. Moreover, the action of U-II appears specific, since it is independent of the ET-1 and PAF signalling pathways.
The morbidity and mortality associated with type 1 diabetes are essentially related to the micro- and macrovascular complications that develop over time and lead to several diabetic complications, including hypertension, atherosclerosis, and retinopathy, as well as coronary and renal failure. Normally absent in physiological conditions, the bradykinin B1 receptor (BKB1-R) was recently found to be overexpressed in pathological conditions, including type 1 diabetes. In the present study, we evaluated the effect of the new BKB1-R antagonist, R-954 (Ac-Orn-[Oic2, alpha-MePhe5, D-betaNal7, Ile8]desArg9-bradykinin, on the increase in vascular permeability in streptozotocin (STZ)-diabetic mice. The capillary permeability to albumin was measured by quantifying the extravasation of albumin-bound Evans blue dye in selected target tissues (liver, pancreas, duodenum, ileum, spleen, heart, kidney, stomach, skin, muscle, and thyroid gland). Acute single administration of R-954 (300 microg/kg, i.v.) to type 1 diabetic mice 4 weeks after STZ significantly inhibited the enhanced vascular permeability in most tissues. These data provide further experimental evidence for the implication of BKB1-R in the enhanced vascular permeability associated with type 1 diabetes.
Antitumor efficacy of ECO-4601 appears to be associated with the exposure parameter AUC and/or sustained drug levels rather than C (max). These in vivo data constitute a rationale for clinical studies testing prolonged continuous administration of ECO-4601.
Optical imaging offers high sensitivity and portability at low cost. The design of an optimal "activatable" imaging agent could greatly decrease the background noise and increase specificity of the signal. Five different molecules have been used to quench basal fluorescence of an enzyme substrate labeled with Cy5, Cy5.5 or IR800 at a distance of 8 amino acids (32 Å): a 6 nm gold nanoparticle (NP), a 20 nm and a 30 nm iron oxide (FeO) NP, the black hole quencher BHQ-3 and the IRdye quencher QC-1. The quenching efficiencies were 99% for QC1-IR800, 98% for QC1-Cy5.5, 96% for 30 nm FeO NP-Cy5.5, 89% for BHQ3-Cy5, 84% for BHQ3-Cy5.5, 77-90% for 6 nm gold NP-Cy5.5, depending on the number of dyes around the NP, 79% for 20 nm FeO NP-Cy5.5 and 77% for Cy5.5-Cy5. Signal activation upon cleavage by the matrix metalloproteinase MMP9 was proportional to the quenching efficiencies, ranging from 3-fold with Cy5.5-Cy5 to 67-fold with QC1-IR800. This independent work reports on the properties of the dyes and quenchers explaining the superior performance of QC-1 and 30 nm FeO NPs.
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