Abstract
We have isolated and sequenced full-length cDNA clones from a rabbit uterine library which encode the smooth muscle sarco(endo)plasmic reticulum Ca2+-ATPase. These cDNAs resulted from an alternative splice of the cardiac/slow-twitch Ca2+-ATPase gene transcript, and encoded a protein identical to rabbit cardiac/slow-twitch Ca2+-ATPase except for the replacement of the carboxyl-terminal four amino acids with an extended and relatively hydrophobic sequence of 49 amino acids. This cDNA was virtually identical to the alternatively spliced product of the cardiac/slow-twitch Ca2+-ATPase gene recently identified in human kidney (Lytton, J., and MacLennan, D. H. (1988) J. Biol. Chem. 263, 15024-15031) and rat non-muscle tissues (Gunteski-Hamblin, A.-M., Greeb, J., and Shull, G. (1988) J. Biol. Chem. 263, 15032-15040). S1 nuclease mapping of total cellular RNA from a variety of tissues demonstrated that cardiac muscle expressed the cardiac/slow-twitch isoform almost exclusively, most smooth muscle and non-muscle tissues expressed the alternatively spliced smooth/non-muscle isoform almost exclusively, and a few tissues expressed both isoforms in varying amounts. Thus, regulation of alternative splicing of the cardiac/slow-twitch Ca2+-ATPase gene transcript is tissue-specific. The expression of the smooth/non-muscle isoform in every tissue tested supports the hypothesis that this molecule represents the "housekeeping" endoplasmic reticulum Ca2+-ATPase.
Highlights
We have isolated and sequenced full-length cDNA by plasmalemma1 depolarizations, as well as by various chemical agonists which do not smoothmusclesarco(endo)plasmicreticulum
ATPase.ThesecDNAsresultedfroman alternative chanical coupling) (Casteels, 1980).The lattergroup of agents splice of the cardiac/slow-twitch Ca2+-ATPasegene induce the rapid formationof inositol 1,4,54risphosphate transcript, and encoded a protein identical to rabbit (Baron et al, 1984; Hashimoto et al, 1986), which has been cardiac/slow-twitch CaZ+-ATPaseexceptforthe re- shown to release calcium from intracellular stores in both placement of the carboxyl-terminal four amino acids smooth muscle (Somlyo et al, 1985) andother cell types with an extended andrelatively hydrophobic sequence of 49 amino acids.This cDNA was virtually identical to the alternatively spliced product othf e cardiac/slowtwitch Ca2+-ATPasegene recently identified in human kidney
The expres- cluding ryanodine sensitivity)similar to calcium release sion of the smooth/non-muscle isoformin every tissue through the channeolf striated muscle sarcoplasmic reticulum tested supports the hypothesis that this molecule represents the“housekeeping”endoplasmicreticulum Ca2+-ATPase
Summary
NaCl was added to a final concentration of0.4 M from a 5 M stock, the reaction was cooled slowlyto 42 "C,and allowed to anneal at that. All. ATPase cDNAs as describedby Lytton and MacLennan (1988).Full- efforts were made to remove adventitioustissue from this length clones were obtained by screening both size-fractionated libraries at high stringency using a probe from the cardiac/slow-twitch. 4 and 5 ated cDNA (see Fig. 1).Nucleotide sequencing of the full- show the results of S1 nuclease digestion using probes from length clone displayed a molecule identical to the cardiac/ the alternativesplice site region of cardiac/slow-twitch muscle slow-twitch sarcoplasmic reticulum Ca2+-ATPas(eMac- (probe A) and smooth/non-muscle (probe B) isoforms, re-. This cDNA encoded aproteinidentical muscle RNA, low levelsof a 363-nucleotideprotected with the one from cardiac/slow-twitch muscle, except for the band were visible This 363-nucleotide band was replacement of the carboxyl-terminal four amino acids with the predominant protected species in non-muscle tissues and an extended sequence of 49 amino acids (see Fig. 2). M e tG l U Asn AlaHisThr LYS ThrValGluGluVal Leu GlyHisPheGlyValAmGlu Ser ThrGlyLeu Ser LeuGluGlnVal ~ y ~a y Ls ~ U ~ y Gn 1 u Arq T r
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
