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Specialized stellate cells offer a privileged route for rapid water flux in <i>Drosophila</i> renal tubule

Pablo Cabrero, Selim Terhzaz, Anthony J. Dornan, Saurav Ghimire, Heather L. Holmes, Daniel R. Turin, Michael F. Romero, Shireen A. Davies, Julian A. T. Dow

2020Proceedings of the National Academy of Sciences53 citationsDOIOpen Access PDF

Abstract

tubule has 2 main secretory cell types: active cation-transporting principal cells, wherein the aquaglyceroporins localize to opposite plasma membranes, and small stellate cells, the site of the chloride shunt conductance, with these AQPs localizing to opposite plasma membranes. This suggests a model in which osmotically obliged water flows through the stellate cells. Consistent with this model, fluorescently labeled dextran, an in vivo marker of membrane water permeability, is trapped in the basal infoldings of the stellate cells after kinin diuretic peptide stimulation, confirming that these cells provide the major route for transepithelial water flux. The spatial segregation of these components of epithelial water transport may help to explain the unique success of the higher insects in regulating their internal environments.

Topics & Concepts

TubuleMalpighian tubule systemRenal tubuleInsectDrosophila (subgenus)Proximal tubuleWater transportBiologyCell biologyHepatic stellate cellEcologyChemistryKidneyBiochemistryEnvironmental scienceLarvaEndocrinologyWater flowEnvironmental engineeringGeneMidgutPhysiological and biochemical adaptationsNeurobiology and Insect Physiology ResearchInsect and Arachnid Ecology and Behavior
Specialized stellate cells offer a privileged route for rapid water flux in <i>Drosophila</i> renal tubule | Litcius