Robert W. Zajdel scite author profile

Tropomyosins are present in various muscle (skeletal, cardiac, and smooth) and non-muscle cells with different isoforms characteristic of specific cell types. We describe here a novel smooth/striated chimeric isoform that was expressed in developing chick heart in addition to the classically described TM-4 type. This novel alpha-Tm tropomyosin isoform, designated as alpha-Tm-2, contains exon 2a (in place of exon 2b). The known striated muscle isoform (alpha-Tm-1) was also expressed in embryonic hearts along with the striated muscle isoform of TM-4. In adult heart, TM-4 was expressed, however, expression of both alpha-Tm-1 and alpha-Tm-2 isoforms was drastically reduced or downregulated. Interestingly, we were unable to detect the expression of alpha-Tm-2 in embryonic and adult skeletal muscle, however, the alpha-Tm-1 isoform is expressed in embryonic and adult skeletal muscle. Examination of other possible isoforms of the alpha-TM gene, i.e., alpha-smooth muscle tropomyosin (alpha-Sm), alpha-Fibroblast-1 (alpha-F1), and alpha-Fibroblast-2 (alpha-F2) revealed expression in embryonic hearts and a significant reduction of each of these isoforms in adult heart. In order to elucidate the role of the newly discovered tropomyosin isoform in chicken, we ectopically expressed the GFP fusion protein of alpha-Tm-1 and alpha-Tm-2 separately into cardiomyocytes isolated from neonatal rats. Each isoform was incorporated into organized myofibrils. Our results suggest that the alpha-TM gene may undergo both positive and negative transcriptional control in chicken hearts during development.

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Characterization of a TM‐4 type tropomyosin that is essential for myofibrillogenesis and contractile activity in embryonic hearts of the Mexican axolotl*

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Zajdel

McLean

et al. 2002

J of Cellular Biochemistry

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A striated muscle isoform of a Tropomyosin (TM-4) gene was characterized and found to be necessary for contractile function in embryonic heart. The full-length clone of this isoform was isolated from the Mexican axolotl (Ambystoma mexicanum) and named Axolotl Tropomyosin Cardiac-3 (ATmC-3). The gene encoded a cardiac-specific tropomyosin protein with 284 amino acid residues that demonstrated high homology to the Xenopus cardiac TM-4 type tropomyosin. Northern blot analysis indicates a transcript of approximately 1.25 kb in size. RT-PCR and in situ hybridization demonstrated that this isoform is predominantly in cardiac tissue. Our laboratory uses an animal model that carries a cardiac lethal mutation (gene c), this mutation results in a greatly diminished level of tropomyosin protein in the ventricle. Transfection of ATmC-3 DNA into mutant hearts increased tropomyosin levels and promoted myofibrillogenesis. ATmC-3 expression was blocked in normal hearts by transfection of exon-specific anti-sense oligonucleotide (AS-ODN). RT-PCR confirmed lower transcript expression of ATmC-3 and in vitro analysis confirmed the specificity of the ATmC-3 exon 2 anti-sense oligonucleotide. These AS-ODN treated hearts also had a disruption of myofibril organization and disruption of synchronous contractions. These results demonstrated that a striated muscle isoform of the TM-4 gene was expressed embryonically and was necessary for normal structure and function of the ventricle.

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Tropomyosin expression and dynamics in developing avian embryonic muscles

Wang

Thurston

Essandoh

et al. 2008

Cell Motil. Cytoskeleton

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The expression of striated muscle proteins occurs early in the developing embryo in the somites and forming heart. A major component of the assembling myofibrils is the actin-binding protein tropomyosin. In vertebrates, there are four genes for tropomyosin (TM), each of which can be alternatively spliced. TPM1 can generate at least 10 different isoforms including the striated muscle-specific TPM1alpha and TPM1kappa. We have undertaken a detailed study of the expression of various TM isoforms in 2-day-old (stage HH 10-12; 33 h) heart and somites, the progenitor of future skeletal muscles. Both TPM1alpha and TPM1kappa are expressed transiently in embryonic heart while TPM1alpha is expressed in somites. Both RT-PCR and in situ hybridization data suggest that TPM1kappa is expressed in embryonic heart whereas TPM1alpha is expressed in embryonic heart, and also in the branchial arch region of somites, and in the somites. Photobleaching studies of Yellow Fluorescent Protein-TPM1alpha and -TPM1kappa expressed in cultured avian cardiomyocytes revealed that the dynamics of the two probes was the same in both premyofibrils and in mature myofibrils. This was in sharp contrast to skeletal muscle cells in which the fluorescent proteins were more dynamic in premyofibrils. We speculate that the differences in the two muscles is due to the appearance of nebulin in the skeletal myocytes premyofibrils transform into mature myofibrils.

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Robert W. Zajdel

Expression of a novel cardiac-specific tropomyosin isoform in humans

Identification, characterization, and expression of a novel α‐tropomyosin isoform in cardiac tissues in developing chicken

Characterization of a TM‐4 type tropomyosin that is essential for myofibrillogenesis and contractile activity in embryonic hearts of the Mexican axolotl*

Tropomyosin expression and dynamics in developing avian embryonic muscles

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