Mercury and zinc differentially inhibit shark and human CFTR orthologues: Involvement of shark cysteine 102

Academic Article

Abstract

  • The apical membrane is an important site of mercury toxicity in shark rectal gland tubular cells. We compared the effects of mercury and other thiol-reacting agents on shark CFTR (sCFTR) and human CFTR (hCFTR) chloride channels using two-electrode voltage clamping of cRNA microinjected Xenopus laevis oocytes. Chloride conductance was stimulated by perfusing with 10 μM forskolin (FOR) and 1 mM IBMX, and then thio-reactive species were added. In oocytes expressing sCFTR, FOR + IBMX mean stimulated Cl- conductance was inhibited 69% by 1 μM mercuric chloride and 78% by 5 μM mercuric chloride (IC50 of 0.8 μM). Despite comparable stimulation of conductance, hCFTR was insensitive to 1 μM HgCl2 and maximum inhibition was 15% at the highest concentration used (5 μM). Subsequent exposure to glutathione (GSH) did not reverse the inhibition of sCFTR by mercury, but dithiothreitol (DTT) completely reversed this inhibition. Zinc (50-200 μM) also reversibly inhibited sCFTR (40-75%) but did not significantly inhibit hCFTR. Similar inhibition of sCFTR but not hCFTR was observed with an organic mercurial, p-chloromercuriphenylsulfonic acid (pCMBS). The first membrane spanning domain (MSD1) of sCFTR contains two unique cysteines, C102 and C303. A chimeric construct replacing MSD1 of hCFTR with the corresponding sequence of sCFTR was highly sensitive to mercury. Site-specific mutations introducing the first but not the second shark unique cysteine in hCFTR MSD1 resulted in full sensitivity to mercury. These experiments demonstrate a profound difference in the sensitivity of shark vs. human CFTR to inhibition by three thiol-reactive substances, an effect that involves C102 in the shark orthologue. Copyright © 2006 the American Physiological Society.
  • Digital Object Identifier (doi)

    Author List

  • Weber GJ; Mehr AP; Sirota JC; Aller SG; Decker SE; Dawson DC; Forrest JN
  • Volume

  • 290
  • Issue

  • 3