Hideo Ichimura scite author profile

Acute lung injury (ALI), which is associated with a mortality of 30-40%, is attributable to inflammation that develops rapidly across the lung's vast vascular surface, involving an entire lung or even both lungs. No specific mechanism explains this extensive inflammatory spread, probably because of the lack of approaches for detecting signal conduction in lung capillaries. Here, we addressed this question by applying the photolytic uncaging approach to induce focal increases in Ca 2+ levels in targeted endothelial cells of alveolar capillaries. Uncaging caused Ca 2+ levels to increase not only in the targeted cell, but also in vascular locations up to 150 mm from the target site, indicating that Ca 2+ was conducted from the capillary to adjacent vessels. No such conduction was evident in mouse lungs lacking endothelial connexin 43 (Cx43), or in rat lungs in which we pretreated vessels with peptide inhibitors of Cx43. These findings provide the first direct evidence to our knowledge that interendothelial Ca 2+ conduction occurs in the lung capillary bed and that Cx43-containing gap junctions mediate the conduction. A proinflammatory effect was evident in that induction of increases in Ca 2+ levels in the capillary activated expression of the leukocyte adherence receptor P-selectin in venules. Further, peptide inhibitors of Cx43 completely blocked thrombin-induced microvascular permeability increases. Together, our findings reveal a novel role for Cx43-mediated gap junctions, namely as conduits for the spread of proinflammatory signals in the lung capillary bed. Gap junctional mechanisms require further consideration in the understanding of ALI.

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Rigid-rod polyesters with flexible side chains. 4. Thermotropic behavior and phase structures in polyesters based on 1,4-dialkyl esters of pyromellitic acid and 4,4'-biphenol

Watanabe¹,

Harkness²,

Sone³

et al. 1994

Macromolecules

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Mechano-oxidative coupling by mitochondria induces proinflammatory responses in lung venular capillaries

Ichimura¹,

Parthasarathi²,

Quadri³

et al. 2003

J. Clin. Invest.

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Elevation of lung capillary pressure causes exocytosis of the leukocyte adhesion receptor P-selectin in endothelial cells (ECs), indicating that lung ECs generate a proinflammatory response to pressure-induced stress. To define underlying mechanisms, we followed the EC signaling sequence leading to P-selectin exocytosis through application of real-time, in situ fluorescence microscopy in lung capillaries. Pressure elevation increased the amplitude of cytosolic Ca2+ oscillations that triggered increases in the amplitude of mitochondrial Ca2+ oscillations and in reactive oxygen species (ROS) production. Responses to blockers of the Ca2+ oscillations and of mitochondrial electron transport indicated that the ROS production was Ca2+ dependent and of mitochondrial origin. A new proinflammatory mechanism was revealed in that pressure-induced exocytosis of P-selectin was inhibited by both antioxidants and mitochondrial inhibitors, indicating that the exocytosis was driven by mitochondrial ROS. In this signaling pathway mitochondria coupled pressure-induced Ca2+ oscillations to the production of ROS that in turn acted as diffusible messengers to activate P-selectin exocytosis. These findings implicate mitochondrial mechanisms in the lung’s proinflammatory response to pressure elevation and identify mitochondrial ROS as critical to P-selectin exocytosis in lung capillary ECs

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Connexin 43 mediates spread of Ca2+-dependent proinflammatory responses in lung capillaries

Parthasarathi¹,

Ichimura²,

Monma³

et al. 2006

J. Clin. Invest.

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Mechano-oxidative coupling by mitochondria induces proinflammatory responses in lung venular capillaries

Parthasarathi²,

et al. 2003

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Hideo Ichimura

Connexin 43 mediates spread of Ca2+ -dependent proinflammatory responses in lung capillaries

Rigid-rod polyesters with flexible side chains. 4. Thermotropic behavior and phase structures in polyesters based on 1,4-dialkyl esters of pyromellitic acid and 4,4'-biphenol

Mechano-oxidative coupling by mitochondria induces proinflammatory responses in lung venular capillaries

Connexin 43 mediates spread of Ca2+-dependent proinflammatory responses in lung capillaries

Mechano-oxidative coupling by mitochondria induces proinflammatory responses in lung venular capillaries

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