Influenza A virus M2 ion channel protein: a structure-function analysis.

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J Virol. 1994 March; 68(3): 1551-1563

Influenza A virus M2 ion channel protein: a structure-function analysis.

L J Holsinger, D Nichani, L H Pinto and R A Lamb

Department of Biochemistry, Molecular Biology and Cell Biology, Northwestern University, Evanston, Illinois 60208-3500.

ABSTRACT

A structure-function analysis of the influenza A virus M2 ionchannel protein was performed. The M2 protein of human influenzavirus A/Udorn/72 and mutants containing changes on one faceof the putative alpha helix of the M2 transmembrane (TM) domain,several of which lead to amantadine resistance when found invirus, were expressed in oocytes of Xenopus laevis. The membranecurrents of oocytes expressing mutant M2 ion channels were measuredat both normal and low pH, and the amantadine-resistant mutantcontaining the change of alanine at residue 30 to threoninewas found to have a significantly attenuated low pH activationresponse. The specific activity of the channel current of theamantadine-resistant mutants was investigated by measuring themembrane current of individual oocytes followed by quantificationof the amount of M2 protein expressed in these single oocytesby immunoblotting analysis. The data indicate that changingresidues on this face of the putative alpha helix of the M2TM domain alters properties of the M2 ion channel. Some of theM2 proteins containing changes in the TM domain were found tobe modified by addition of an N-linked carbohydrate chain atan asparagine residue that is membrane proximal and which isnot modified in the wild-type M2 protein. These N-linked carbohydratechains were further modified by addition of polylactosaminoglycan.A glycosylated M2 mutant protein (M2 + V, A30T) exhibited anion channel activity with a voltage-activated, time-dependentkinetic component. Prevention of carbohydrate addition did notaffect the altered channel activity. The ability of the M2 proteinto tolerate deletions in the TM domain was examined by expressingthree mutants (del29-31, del28-31, and del27-31) containingdeletions of three, four, and five residues in the TM domain.No ion channel activity was detected from expression of M2 del29-31and del27-31, whereas expression of M2 del28-31 resulted inan ion channel activity that was activated by hyperpolarization(and not low pH) and was resistant to amantadine block. Examinationof the oligomeric form of M2 del28-31 indicated that the oligomeris different from wild-type M2, and the data were consistentwith M2 del28-31 forming a pentamer.

J Virol. 1994 March; 68(3): 1551-1563

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