Molecular dissection of water and glycerol permeability of the aquaglyceroporin from Plasmodium falciparum by mutational analysis.

The selectivity of aquaporins for water and solutes is determined by pore diameter. Paradoxically, the wider pores of glycerol facilitators restrict water passage by an unknown mechanism. Earlier we characterized an aquaglyceroporin from Plasmodium falciparum with high permeability for both glycerol and water. We use point mutations to demonstrate that amino acids directly lining the pore are not responsible for the excellent water permeability of the Plasmodium aquaglyceroporin but affect permeability of pentitols. Within a conserved WET triad in the extracellular C-loop we identified a Plasmodium aquaglyceroporin-specific glutamate (E125) located in proximity to a conserved arginine (R196) at the pore mouth. Mutation of E125 to serine largely abolished water permeability. Concomitantly, the activation energy for water permeation was increased by 4 kcal/mol. Mutation of the adjacent tryptophan to cysteine led to irreversible inhibition of water passage by Hg(2+). This unequivocally proves the proximity of the couple W124/E125 close to the pore mouth. We conclude that in the Plasmodium aquaglyceroporin the electrostatic environment at the extracellular pore entry regulates water permeability.

[1]  Jonathan E. Allen,et al.  Genome sequence of the human malaria parasite Plasmodium falciparum , 2002, Nature.

[2]  Ronald M. Welch,et al.  Climatic Impact of Tropical Lowland Deforestation on Nearby Montane Cloud Forests , 2001, Science.

[3]  Andreas Engel,et al.  Structural determinants of water permeation through aquaporin-1 , 2000, Nature.

[4]  A. Engel,et al.  The importance of aquaporin water channel protein structures , 2000, The EMBO journal.

[5]  S. Deschamps,et al.  Switch from an Aquaporin to a Glycerol Channel by Two Amino Acids Substitution* , 1999, The Journal of Biological Chemistry.

[6]  K. Schulten,et al.  Control of the Selectivity of the Aquaporin Water Channel Family by Global Orientational Tuning , 2002, Science.

[7]  Andreas Engel,et al.  The three-dimensional structure of aquaporin-1 , 1997, Nature.

[8]  Bong-Gyoon Han,et al.  Structural basis of water-specific transport through the AQP1 water channel , 2001, Nature.

[9]  Eric Beitz,et al.  TeXshade: shading and labeling of multiple sequence alignments using LaTeX2e , 2000, Bioinform..

[10]  E. Beitz,et al.  A Single, Bi-functional Aquaglyceroporin in Blood-stagePlasmodium falciparum Malaria Parasites* , 2002, The Journal of Biological Chemistry.

[11]  Eric Beitz,et al.  TEXtopo: shaded membrane protein topology plots in LATEX2 , 2000, Bioinform..

[12]  D. Fu,et al.  Structure of a glycerol-conducting channel and the basis for its selectivity. , 2000, Science.

[13]  C. Maurel,et al.  The vacuolar membrane protein gamma‐TIP creates water specific channels in Xenopus oocytes. , 1993, The EMBO journal.

[14]  N. Guex,et al.  SWISS‐MODEL and the Swiss‐Pdb Viewer: An environment for comparative protein modeling , 1997, Electrophoresis.

[15]  G. Hummer,et al.  Water conduction through the hydrophobic channel of a carbon nanotube , 2001, Nature.

[16]  A. Cavalier,et al.  Aquaglyceroporins, one channel for two molecules. , 2002, Biochimica et biophysica acta.

[17]  K. Schulten,et al.  Energetics of glycerol conduction through aquaglyceroporin GlpF , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[18]  M. Borgnia,et al.  Reconstitution and functional comparison of purified GlpF and AqpZ, the glycerol and water channels from Escherichia coli , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[19]  A. Fersht,et al.  Hydrogen bonding and biological specificity analysed by protein engineering , 1985, Nature.

[20]  A. Cheng,et al.  Three-dimensional organization of a human water channel , 1997, Nature.

[21]  M. Yasui,et al.  Rapid gating and anion permeability of an intracellular aquaporin , 1999, Nature.

[22]  M. Borgnia,et al.  Cellular and molecular biology of the aquaporin water channels. , 1999, Annual review of biochemistry.