Slowed Relaxation in Fatigued Skeletal Muscle Fibers of Xenopus and Mouse: Contribution of [Ca2+]i and Cross-bridges

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Slowed Relaxation in Fatigued Skeletal Muscle Fibers of Xenopus and Mouse

Contribution of [Ca²⁺]_i and Cross-bridges

Håkan Westerblad, Jan Lännergren, and David G. Allen

From the Department of Physiology and Pharmacology, Karolinska Institutet, S-171 77 Stockholm, Sweden

Slowing of relaxation is an important characteristic of skeletalmuscle fatigue. The aim of the present study was to quantifythe relative contribution of altered Ca²⁺ handling (calciumcomponent) and factors down-stream to Ca²⁺ (cross-bridge component)to the slowing of relaxation in fatigued fibers of Xenopus andmouse. Two types of Xenopus fibers were used: easily fatigued,type 1 fibers and fatigue resistant, type 2 fibers. In theseXenopus fibers the free myoplasmic [Ca²⁺] ([Ca²⁺]_i) was measuredwith indo-1, and the relaxation of Ca²⁺-derived force, constructedfrom tetanic [Ca²⁺]_i records and in vivo [Ca²⁺]_i-force curves,was analyzed. An alternative method was used in both Xenopusand mouse fibers: fibers were rapidly shortened during the initialphase of relaxation, and the time to the peak of force redevelopmentwas measured. These two methods gave similar results and showedproportional slowing of the calcium and cross-bridge componentsof relaxation in both fatigued type 1 and type 2 Xenopus fibers,whereas only the cross-bridge component was slowed in fatiguedmouse fibers. Ca²⁺ removal from the myoplasm during relaxationwas markedly less effective in Xenopus fibers as compared tomouse fibers. Fatigued Xenopus fibers displayed a reduced rateof sarcoplasmic reticulum Ca²⁺ uptake and increased sarcoplasmicreticulum Ca²⁺ leak. Some fibers were stretched at various timesduring relaxation. The resistance to these stretches was increasedduring fatigue, especially in Xenopus fibers, which indicatesthat longitudinal movements during relaxation had become lesspronounced and this might contribute to the increased cross-bridge component of relaxation in fatigue. In conclusion, slowingof relaxation in fatigued Xenopus fibers is caused by impairedCa²⁺ handling and altered cross-bridge kinetics, whereas theslowing in mouse fibers is only due to altered cross-bridgekinetics.

Key Words: [Ca²⁺]_i-force relation • sarcoplasmic reticulum

Address correspondence to Håkan Westerblad, Departmentof Physiology and Pharmacology, Karolinska Institutet, S-17177 Stockholm, Sweden. Fax: 46-8-32-70-26; E-mail: Hakan.Westerblad{at}FYFA.KI.SE

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