Anna Greka scite author profile

The broadly expressed transient receptor potential (TRP) family of ion channels are permeant to cations, most resulting in increased intracellular calcium. However, their regulation and gating is not well understood. Here, we report that growth factor stimulation initiates the rapid translocation of the transient receptor potential ion channel, TRPC5, from vesicles held in reserve just under the plasma membrane. This process, which we term 'rapid vesicular insertion of TRP' (RiVIT), dramatically increases membrane-associated TRPC5 channels and functional TRPC5 current, resulting in tight spatial-temporal control of these Ca(2+)-permeant nonselective channels. Epidermal growth factor (EGF)-induced incorporation of functional TRP channels requires phosphatidylinositide 3-kinase (PI(3)K), the Rho GTPase Rac1 and phosphatidylinositol 4-phosphate 5-kinase (PIP(5)K alpha). The increase in TRPC5 availability affects neurite extension rates in cultured hippocampal neurons, and may be a general mechanism for initiating Ca(2+) influx and cell morphological changes in response to stimuli.

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Cell Biology and Pathology of Podocytes

Greka

Mündel

2012

Annu. Rev. Physiol.

446

447

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As an integral member of the filtration barrier in the kidney glomerulus, the podocyte is in a unique geographical position: It is exposed to chemical signals from the urinary space (Bowman’s capsule), it receives and transmits chemical and mechanical signals to/from the glomerular basement membrane upon which it elaborates, and it receives chemical and mechanical signals from the vascular space with which it also communicates. As with every cell, the ability of the podocyte to receive signals from the surrounding environment and to translate them to the intracellular milieu is dependent largely on molecules residing on the cell membrane. These molecules are the first-line soldiers in the ongoing battle to sense the environment, to respond to friendly signals, and to defend against injurious foes. In this review, we take a membrane biologist’s view of the podocyte, examining the many membrane receptors, channels, and other signaling molecules that have been implicated in podocyte biology. Although we attempt to be comprehensive, our goal is not to capture every membrane-mediated pathway but rather to emphasize that this approach may be fruitful in understanding the podocyte and its unique properties.

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Anna Greka

Rapid vesicular translocation and insertion of TRP channels

Cell Biology and Pathology of Podocytes

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