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(Circulation Research. 2006;99:915.)
© 2006 American Heart Association, Inc.

Editorials

TRP Channels and the Regulation of Vascular Permeability

New Insights From the Lung Microvasculature

Fitz-Roy E. Curry, Catherine A. Glass

From the Department of Physiology and Membrane Biology, School of Medicine, University of California, Davis.

Correspondence to Fitz-Roy E. Curry, University of California, Department of Human Physiology, University of California, Davis School of Medicine, One Shields Avenue, Davis, CA 95616. E-mail fecurry@ucdavis.edu

See related article, pages 988–995

Key Words: TRP channels • endothelial barrier permeability • acute lung injury

An extract of the first 250 words of the full text is provided, because this article has no abstract.

One of the most widely recognized mechanisms to initiate an inflammatory response is calcium entry into endothelial cells.^1–3 Recent investigations have demonstrated that there are multiple mechanisms which determine calcium flux into endothelial cells (including ligand gated calcium channels, store operated calcium channels and mechanosensitive channels), and that these different mechanisms are preferentially distributed between different endothelial cells. The functional consequences of these observations for regulation of vascular tone and remodeling are beginning to be understood^4,5 but this is not the case for the regulation of endothelial barrier function in intact organs. In this issue Alvarez et al describe an important example of segmental vascular permeability regulation in lung.⁶ They demonstrate that activation of the vanilloid subset of the family of calcium channels known as transient receptor potential channels (in this case the TRPV4 channels) preferentially increased the permeability of the endothelial and epithelial layers of the primary gas exchanging septal regions of the lung microvasculature whereas other calcium channels, such as the store operated calcium channels, increased permeability outside the primary gas exchange regions (so called extra-alveolar regions). These are important observations because disruption of the endothelium at the septal barrier is more likely to cause alveolar flooding and impair gas exchange than disruption in extra-alveolar vessels.

So far at least 28 mammalian TRP isoforms have been discovered. TRP channels have been subdivided into 3 main classes, TRPC (canonical), TRPM (melastatin), and TRPV (vanilloid) although more recently other classes have also been proposed (TRPP [polycystin], TRPML [mucolipin], and TRPA . . . [Full Text of this Article]

Related Article:

Transient Receptor Potential Vanilloid 4–Mediated Disruption of the Alveolar Septal Barrier: A Novel Mechanism of Acute Lung Injury

Diego F. Alvarez, Judy A. King, David Weber, Emile Addison, Wolfgang Liedtke, and Mary I. Townsley
Circ. Res. 2006 99: 988-995. [Abstract] [Full Text] [PDF]