Isoform Diversity of Giant Proteins in Relation to Passive and Active Contractile Properties of Rabbit Skeletal Muscles

doi:10.1085/jgp.200509364

Published online 17 October 2005 doi:10.1085/jgp.200509364
The Rockefeller University Press, 0022-1295 $8.00
JGP, Volume 126, Number 5, 461-480

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ARTICLE

Isoform Diversity of Giant Proteins in Relation to Passive and Active Contractile Properties of Rabbit Skeletal Muscles

Lucas G. Prado¹, Irina Makarenko², Christian Andresen², Martina Krüger², Christiane A. Opitz¹, and Wolfgang A. Linke²

¹ Institute of Physiology and Pathophysiology, University of Heidelberg, D-69120 Heidelberg, Germany
² Physiology and Biophysics Unit, University of Muenster, D-48149 Muenster, Germany

Correspondence to Wolfgang A. Linke: wlinke{at}uni-muenster.de

The active and passive contractile performance of skeletal musclefibers largely depends on the myosin heavy chain (MHC) isoformand the stiffness of the titin spring, respectively. Open questionsconcern the relationship between titin-based stiffness and activecontractile parameters, and titin's importance for total passivemuscle stiffness. Here, a large set of adult rabbit muscles(n = 37) was studied for titin size diversity, passive mechanicalproperties, and possible correlations with the fiber/MHC composition.Titin isoform analyses showed sizes between $~$ 3300 and 3700 kD;31 muscles contained a single isoform, six muscles coexpressedtwo isoforms, including the psoas, where individual fibers expressedsimilar isoform ratios of 30:70 (3.4:3.3 MD). Gel electrophoresisand Western blotting of two other giant muscle proteins, nebulinand obscurin, demonstrated muscle type–dependent sizedifferences of $≤$ 70 kD. Single fiber and single myofibril mechanicsperformed on a subset of muscles showed inverse relationshipsbetween titin size and titin-borne tension. Force measurementson muscle strips suggested that titin-based stiffness is notcorrelated with total passive stiffness, which is largely determinedalso by extramyofibrillar structures, particularly collagen.Some muscles have low titin-based stiffness but high total passivestiffness, whereas the opposite is true for other muscles. Plotsof titin size versus percentage of fiber type or MHC isoform(I-IIB-IIA-IID) determined by myofibrillar ATPase staining andgel electrophoresis revealed modest correlations with the typeI fiber and MHC-I proportions. No relationships were found withthe proportions of the different type II fiber/MHC-II subtypes.Titin-based stiffness decreased with the slow fiber/MHC percentage,whereas neither extramyofibrillar nor total passive stiffnessdepended on the fiber/MHC composition. In conclusion, a lowcorrelation exists between the active and passive mechanicalproperties of skeletal muscle fibers. Slow muscles usually expresslong titin(s), predominantly fast muscles can express eithershort or long titin(s), giving rise to low titin-based stiffnessin slow muscles and highly variable stiffness in fast muscles.Titin contributes substantially to total passive stiffness,but this contribution varies greatly among muscles.

L.G. Prado and I. Makarenko contributed equally to this work.

Abbreviations used in this paper: BDM, 2,3-butanedione monoxime;MHC, myosin heavy chain; PT, passive tension; SL, sarcomerelength.

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