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(Circulation Research. 1995;76:681-686.)
© 1995 American Heart Association, Inc.

Articles

Molecular Basis of Human Cardiac Troponin T Isoforms Expressed in the Developing, Adult, and Failing Heart

Page A. W. Anderson, Ann Greig, Trisha M. Mark, Nadia N. Malouf, Annette E. Oakeley, Ross M. Ungerleider, Paul D. Allen, Brian K. Kay

From the Departments of Biology (A.G., T.M.M., B.K.K.) and Pathology (N.N.M.), University of North Carolina, Chapel Hill; the Department of Anesthesiology, Brigham and Women's Hospital (P.D.A.), Boston, Mass; and the Departments of Surgery (R.M.U.) and Pediatrics, Division of Pediatric Cardiology (P.A.W.A., A.E.O.), Duke University, Durham, NC.

Correspondence to Page A.W. Anderson, MD, Professor of Pediatrics, Duke University Medical Center, Box 3218, Durham, NC 27710. E-mail ander005@mc.duke.edu.

Abstract Cardiac troponin T (cTnT), a protein essential for calcium-regulated myofibrillar ATPase activity, is expressed in the human heart as four isoforms (cTnT₁ through cTnT₄, numbered in the order of decreasing molecular size). The expression of these isoforms at the protein level has previously been found by us to differ in the normal and failing adult and fetal human heart. In the present study, we have cloned and sequenced four full-length cDNAs corresponding to the four native cTnT protein isoforms and have expressed these cDNAs in an in vitro transcription and translation system. The cDNAs differ by the variable inclusion of a 15- and a 30-nt exon in the 5' half of the coding region. These cDNAs yielded proteins that comigrate with the native isoforms, cTnT₁ through cTnT₄. Polyclonal antisera, raised against a synthetic peptide corresponding to the 10-residue peptide encoded by the 30-nt exon, reacted with the two human isoforms largest in molecular size (cTnT₁ and cTnT₂) and the two largest cTnT isoforms of the rabbit and rat. The isoforms cTnT₁ and cTnT₂, containing either both peptides encoded by the 30- and 15-nt exons or the peptide encoded by the 30-nt exon alone, are expressed in the fetal heart, with cTnT₂ being expressed at a very low level. cTnT₄, lacking both of these sequences, is expressed in the fetal heart and is reexpressed in the failing adult heart, whereas cTnT₃, containing the 5-residue peptide, is the dominant isoform in the adult heart. The identification and acquisition of these full-length clones that encode the four human cTnT isoforms should prove valuable in analyzing genomic DNA, identifying cTnT mutations in these alternatively spliced coding sequences and their splice sites, and studying the functional role of these isoform sequence differences in the normal and the diseased human heart.

Key Words: fetus • newborn • familial hypertrophic cardiomyopathy • rabbit • rat • alternative splicing

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