Abstract
Nucleotides encoding glutamate, glutamine, aspartate, or asparagine residues within the stalk sector of the sarcoplasmic reticulum Ca2+-ATPase were altered by oligonucleotide-directed site-specific mutagenesis. The mutant cDNAs were expressed in COS-1 cells, and mutant Ca2+-ATPases were assayed for Ca2+ transport function and phosphoenzyme formation. Multiple mutations introduced into stalks, 1, 2, and 3 resulted in partial loss of Ca2+ transport function. In most cases, subsequent mutation of individual amino acids in the cluster had no effect on Ca2+ transport activity. In one cluster, however, it was possible to assign the reduction in Ca2+ transport activity to alterations of Asn111 and Asn114. The mutant Asn114 to alanine retained about 50% activity, whereas the change Asn111 to alanine retained only 10% activity. None of the mutations affected phosphorylation of the enzyme by ATP in the presence of Ca2+ or by inorganic phosphate in the absence of Ca2+. The combined experiments suggest that the reduced Ca2+ uptake observed in the Asn111 and Asn114 mutants was not due to a defect in enzyme activation by Ca2+ or in formation of the phosphorylated enzyme intermediate but rather to incompetent handling of the bound Ca2+ following ATP utilization. These results demonstrate that the acidic and amidated residues within the stalk region do not constitute the high affinity Ca2+-binding sites whose occupancy is required for enzyme activation. They may, however, act to sequester cytoplasmic Ca2+ and to channel it to domains that are involved in enzyme activation and cation translocation. Simultaneous mutation of 4 glutamate residues to alanine in the lumenal loop between transmembrane sequences M1 and M2 did not affect Ca2+ transport activity, indicating that acidic residues in this lumenal loop do not play an essential role in Ca2+ transport. Similarly, mutation of Glu192 and Asp196 in the beta-strand domain between stalk helices 2 and 3 did not affect Ca2+ transport activity, although mutation of Asp196 did diminish expression of the protein.
Highlights
Tate, or asparagine residues within the stalk sectoorf the sarcoplasmic reticulum Ca2+-ATPase were altered by oligonucleotide-directed site-specific mutagenesis
Multiple mu- plasmic to lumenal spaces for each mol of ATP hydrolyzed ptcciAsanullastuubrinCssots1ttiaeneeal2q4srrl+,u.ilthTenorhanthsarodstneowmosdmnpfeuuouvocCttereaaeatrdtnf,2iafot+iecnnitctttrAoitooavnswfnsinpCsttai1yaopnsaIlsod42ktsir+ostivtbot,irlafdaeaul1unlttnaaoe,snclr2pati,oaaintomrsaietonsnirin.ndgaesoIcton3anftaiimArvcntehisieodstnedsyus"t'.laritcbeneIaoddnastueunhistcnode,tnioe npaMs(1Iton9rnuld8uyec6cspph)tireuoiepmriftsetitaadh(krleIy.enk,ooees1fwmen9mqzn8ouyo0temoal)ne,.beccT1o,ue9uhml8(taeM2artp;kwhMauienceraiLiggfcrieehiLentatdenc1antap1ninnor0aoin,edn0ttee0akaai0nnill.nd(,mceM1Rotoi9ancde8cssie5tiLlhs;(etfBmIsonnrernoeaiaftsnehnirda,e,l 111ssei999ttnu788agd055lly.))e),., 50% activity, whereas the change Asn"' to alanine of cation transport coupled to ATP hydrolysis. retained only 10%activity
The combined experiments suggest that affinity sites on the cytoplasmic face of the sarcoplasmic the reduced Ca2+ uptake observed in the Asn"' and reticulum membrane (Inesi, 1987)
Summary
Tant was made 0.6 M in KC1 by the addition of 0.9 ml of a 2.5 M KC1 solution, and the suspension was centrifuged a t 100,000 X g for 60 min to sediment the microsomal fraction. Ca2+Uptake Assay-Ca2+ transport activity was assayed in a re- studiesof potential changes in Ca2+transportactivity in 'The abbreviations used are: TBS, Tris-buffered saline Ca2+-ATPaseStalk Mutants is complicated by the fact that thereenisdogenous expression in COS-1 (monkey kidney) cells of an alternatively spliced form of the slow twitchlcardiac Ca"-ATPase (Lytton and MacLennan, 1988;Gunteski-Hamblin et al, 1988) This problem was overcome by the use of a sandwich enzyme-linked immunosorbent assayprocedure, as described by Leberer and. TheA52 epitope was shown previously to be localized withinthe B trypticfragment
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