Abstract

Deciphering the roles of the individual subunits of the heteromeric Na,K-ATPase in the structure, function, and assembly of this enzyme has been complicated because most expression systems have endogenous levels of Na,K-ATPase activity. This problem has become even more significant in light of the recent identification of multiple isoforms for both the alpha and beta subunits. The baculovirus expression system, which uses the baculovirus Autographica californica to infect insect cells, affords two distinct advantages for the expression of the Na,K-ATPase; some insect cells have little or no levels of Na,K-ATPase, and baculovirus-infected cells produce extremely high levels of foreign protein. We have made two separate recombinant baculoviruses containing the rodent alpha 1 or beta 1 cDNAs and used them to infect the insect cell line Sf-9. The infected Sf-9 cells produce Na,K-ATPase subunit protein on the order of 5-10 micrograms of protein/ml of cultured cells. The rodent alpha 1 polypeptide produced in the Sf-9 cells is indistinguishable electrophoretically and antigenically from the native subunit. The expressed beta 1 subunit is also antigenically identical but has a higher electrophoretic mobility due to differential glycosylation by the infected Sf-9 cell. In contrast to other systems, when expressed alone, each individual Na,K-ATPase subunit is targeted to the infected Sf-9 plasma membrane. In contrast, when infected with a virus that induces the heavy chain of murine IgG, the infected Sf-9 cell retains the polypeptide in the endoplasmic reticulum. However, when both IgG light and heavy chains are expressed, the polypeptides are properly processed and secreted. When the Na,K-ATPase alpha 1 and beta 1 polypeptides are simultaneously expressed, they form detergent-resistant complexes that are functional. Ouabain-sensitive ATPase activity on the order of 5 mumol Pi/mg/h in infected Sf-9 membranes was dependent on the expression of both the alpha 1 and beta 1 subunits. Sodium-dependent phosphorylated intermediates were detected that were potassium- and ouabain-sensitive. No increase in ouabain-sensitive activity or phosphorylated intermediates was detected when either subunit was expressed alone. The alpha 1 beta 1-coinfected cells were also able to transport ions, as detected in 86Rb uptake experiments. Thus, the recombinant Na,K-ATPase expressed in insect cells is biologically active and is suitable for structural and functional analysis.

Highlights

  • From the Departmentof Cell Biology and Physiology, Washington University Schooolf Medicine, St

  • The expressej3d1 subunit is antigen- Elucidating the role of the individual subunits in Na,K

  • Two purified recombinant baculoviruses containingthe cDNAs coding for the rodent Na,K-ATPase a1 and 01 subsolubilized in 4% CHAPS in HBSfor 1 h a t 4 "C

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Summary

RESULTS

Two purified recombinant baculoviruses containingthe cDNAs coding for the rodent Na,K-ATPase a1 and 01 subsolubilized in 4% CHAPS in HBSfor 1 h a t 4 "C. To assay production of Na,K-ATPase polypeptides, infected Sf-9 cell membranes were immunoblotted 72 h after infection (Fig. 1). As shown, were preincubated in cycloheximide for 2 h and intracellular t h e a1 subunit islocalized primarily to the plasma membrane distribution of the immunoglobulin chains analyzed by conin the absence of expression of the the D l subunit. D l antiserum anda fluorescein-conjugatedanti-rabbit secondary antibody Both theal-and theDl-infected Sf-9cells show high expression of subunit polypeptide that is localized primarily to the plasmamembrane. In addition,even at high multiplicities of infection (MOI = 10) some cells could be detected which expressed only one or the other subunit (nosht own). T o demonstrate assembly of the a and p subunits in coinfected Sf-9 cells, membranes solubilized in 4% CHAPS were immunoprecipitated using aan-specific monoclonal antibody. When both heavy and light chains are simultaneouslyexpressed, the polypeptides are secreted into the medium

Individually Infected media I
DISCUSSION
Exprepsrsoetdeiennzyme Sacpteicviiftiyc PhosphoenzyMmoelar activity

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