Abstract
The giant muscle protein titin (connectin) is assumed to play a crucial role in the control of Z-disk assembly. Analysis of the Z-disk region of titin/connectin revealed a novel 45 residue repeat that is spliced in variable copy numbers. The repeat region is coexpressed in normal human myocardium in size variants corresponding to between 5 and 7 repeats. Smaller isoforms can be detected in muscles with thinner Z-disks like M. psoas. Sequence analysis of chicken breast muscle titin/connectin reveals that in this tissue, where Z-disks are thin, only two Z-repeats are expressed. The greatly variable thickness of Z-disks is therefore correlated to a region of variable length in titin/connectin, constructed from a novel protein building block. Transfection experiments in myogenic cell lines demonstrate that overexpression of the entire integral Z-disk region of titin leads to a disruption of sarcomere assembly. The differentially expressed titin/connectin regions, however, show no dominant-negative effects on myofibril assembly and are not targeted to Z-disks. This supports the idea that the Z-repeat region of titin/connectin is responsible for the control Z-disk thickness as an element of highly variable length, due to extensive differential splicing.
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