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Biophys J, December 2000, p. 3226-3234, Vol. 79, No. 6
and
*Department of Veterinary and Comparative Anatomy, Pharmacology,
and Physiology, Washington State University, Pullman, Washington
99164-6520 USA; Department of Anesthesiology and
Intensive Operative Medicine, University Hospital Mannheim, 68135 Mannheim, Germany; and European Molecular Biology
Laboratory, 69012 Heidelberg, Germany
Titin is a giant polypeptide that spans between the Z-
and M-lines of the cardiac muscle sarcomere and that develops force when extended. This force arises from titin's extensible I-band region, which consists mainly of three segment types: serially linked
immunoglobulin-like domains (Ig segments), interrupted by the PEVK
segment, and the N2B unique sequence. Recently it was reported that the
myocardium of large mammals co-expresses small (N2B) and large (N2BA)
cardiac isoforms and that the passive stiffness of cardiac myocytes
varies with the isoform expression ratio. To understand the molecular
basis of the differences in passive stiffness we investigated titin's
extensibility in bovine atrium, which expresses predominantly N2BA
titin, and compared it to that of rat, which expresses predominantly
N2B titin. Immunoelectron microscopy was used with antibodies that
flank the Ig segments, the PEVK segment, and the unique sequence of the
N2B element. The extension of the various segments was then determined
as a function of sarcomere length (SL). When slack sarcomeres of bovine atrium were stretched, the PEVK segment extended much more steeply and
the unique N2B sequence less steeply than in rat, while the Ig segments
behaved similarly in both species. However, the extensions normalized
with the segment's contour length (i.e., the fractional extensions) of
Ig, PEVK, and unique sequence segments all increase less steeply with
SL in cow than in rat. Considering that fractional extension determines
the level of entropic force, these differences in fractional extension
are expected to result in shallow and steep passive force-SL curves in
myocytes that express high levels of N2BA and N2B titin, respectively.
Thus, the findings provide a molecular basis for passive stiffness diversity.
Biophys J, December 2000, p. 3226-3234, Vol. 79, No. 6
© 2000 by the Biophysical Society 0006-3495/00/12/3226/09 $2.00
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