1. Activation, Permeability, and Inhibition of Astrocytic and Neuronal Large Pore (Hemi)channels*♦
- Author
-
Morten Schak Nielsen, Johannes Pauli Hofgaard, Kirstine Calloe, Bruce R. Ransom, Daniel Bloch Hansen, Thomas Hartig Braunstein, Zu Cheng Ye, and Nanna MacAulay
- Subjects
endocrine system ,Cell Membrane Permeability ,Mice, 129 Strain ,Connexin ,Gadolinium ,macromolecular substances ,Biochemistry ,Divalent ,Membrane Potentials ,Rats, Sprague-Dawley ,Xenopus laevis ,Neurobiology ,Cell Line, Tumor ,Ethidium ,medicine ,Animals ,Molecular Biology ,Fluorescent Dyes ,chemistry.chemical_classification ,Membrane potential ,Mice, Knockout ,Neurons ,musculoskeletal, neural, and ocular physiology ,Purinergic receptor ,Benzenesulfonates ,Gap Junctions ,Cell Biology ,Pannexin ,Mice, Inbred C57BL ,Electrophysiology ,medicine.anatomical_structure ,chemistry ,nervous system ,Astrocytes ,Connexin 43 ,Biophysics ,Carbenoxolone ,Oocytes ,Membrane channel ,Receptors, Purinergic P2X7 ,Astrocyte - Abstract
Astrocytes and neurons express several large pore (hemi)channels that may open in response to various stimuli, allowing fluorescent dyes, ions, and cytoplasmic molecules such as ATP and glutamate to permeate. Several of these large pore (hemi)channels have similar characteristics with regard to activation, permeability, and inhibitor sensitivity. Consequently, their behaviors and roles in astrocytic and neuronal (patho)physiology remain undefined. We took advantage of the Xenopus laevis expression system to determine the individual characteristics of several large pore channels in isolation. Expression of connexins Cx26, Cx30, Cx36, or Cx43, the pannexins Px1 or Px2, or the purinergic receptor P2X7 yielded functional (hemi)channels with isoform-specific characteristics. Connexin hemichannels had distinct sensitivity to alterations of extracellular Ca(2+) and their permeability to dyes and small atomic ions (conductance) were not proportional. Px1 and Px2 exhibited conductance at positive membrane potentials, but only Px1 displayed detectable fluorescent dye uptake. P2X7, in the absence of Px1, was permeable to fluorescent dyes in an agonist-dependent manner. The large pore channels displayed overlapping sensitivity to the inhibitors Brilliant Blue, gadolinium, and carbenoxolone. These results demonstrated isoform-specific characteristics among the large pore membrane channels; an open (hemi)channel is not a nonselective channel. With these isoform-specific properties in mind, we characterized the divalent cation-sensitive permeation pathway in primary cultured astrocytes. We observed no activation of membrane conductance or Cx43-mediated dye uptake in astrocytes nor in Cx43-expressing C6 cells. Our data underscore that although Cx43-mediated transport is observed in overexpressing cell systems, such transport may not be detectable in native cells under comparable experimental conditions.
- Published
- 2014