Absence of myofibrillar creatine kinase and diaphragm isometric function during repetitive activation

Creatine kinase(CK) provides ATP buffering in skeletal muscle and is expressed as1) cytosolic myofibrillar CK (M-CK)and 2) sarcomeric mitochondrial CK(ScCKmit) isoforms that differ in their subcellular localization. Wecompared the isometric contractile and fatigue properties of1) control CK-sufficient (Ctl),2) M-CK-deficient (M-CK[/]), and3) combined M-CK/ScCKmit-deficientnull mutant (CK[/]) diaphragm (Dia) todetermine the effect of the absence of M-CK activity on Dia performancein vitro. Baseline contractile properties were comparable across groupsexcept for specific force, which was ~16% lower inCK[/] Dia compared withM-CK[/] and Ctl Dia. During repetitiveactivation (40 Hz, duty cycle), force declined in all threegroups. This decline was significantly greater inCK[/] Dia compared with Ctl and M-CK[/] Dia. The pattern of forcedecline did not differ between M-CK[/] andCtl Dia. We conclude that Dia isometric muscle function is notabsolutely dependent on the presence of M-CK, whereas the completeabsence of CK acutely impairs isometric force generation duringrepetitive activation.

     

Effects of undernutrition on diaphragm fiber size, SDH activity, and fatigue resistance

The influence of prolonged nutritional deprivation on the succinate dehydrogenase (SDH) activity and cross-sectional areas of individual fibers in the rat diaphragm and deep portion of the medial gastrocnemius (MGr) muscles was determined. Fatigue resistance of the diaphragm was measured by means of an in vitro nerve-muscle strip preparation. Fiber SDH activity and cross-sectional area were quantified by means of an image processing system. Diaphragm fatigue resistance was significantly improved in the nutritionally deprived (ND) group. In both muscles, nutritional deprivation resulted in a significant decrease in fiber cross-sectional area (both type I and II), type II fibers showing greater atrophy. The SDH activities of type I and II fibers in the diaphragm were not affected by nutritional deprivation. This contrasted with a significant decrease in the SDH activity of both type I and II fibers in the MGr of ND animals. An assessment of the interrelationships between fiber atrophy and fiber SDH activity revealed a greater effect of malnutrition on those diaphragm type II fibers that had the lowest relative SDH activities and the largest cross-sectional areas. By comparison, the effect of malnutrition on type I and II fibers in the MGr was nonselective with regard to fiber SDH activity. We conclude that the enhanced diaphragm fatigue resistance in the ND animals does not result from an increase in the oxidative capacity of muscle fibers and is best explained by the pattern of diaphragm muscle fiber atrophy.     

Changes in actomyosin ATP consumption rate in rat diaphragm muscle fibers during postnatal development.

Early postnatal development of rat diaphragm muscle (Dia(m)) is marked by dramatic transitions in myosin heavy chain (MHC) isoform expression. We hypothesized that the transition from the neonatal isoform of MHC (MHC(Neo)) to adult fast MHC isoform expression in Dia(m) fibers is accompanied by an increase in both the maximum velocity of the actomyosin ATPase reaction (V(max) ATPase) and the ATP consumption rate during maximum isometric activation (ATP(iso)). Rat Dia(m) fibers were evaluated at postnatal days 0, 14, and 28 and in adults (day 84). Across all ages, V(max) ATPase of fibers was significantly higher than ATP(iso). The reserve capacity for ATP consumption [1 - (ratio of ATP(iso) to V(max) ATP(ase))] was remarkably constant ( approximately 55-60%) across age groups, although at day 28 and in adults the reserve capacity for ATP consumption was slightly higher for fibers expressing MHC(Slow) compared with fast MHC isoforms. At day 28 and in adults, both V(max) ATPase and ATP(iso) were lower in fibers expressing MHC(Slow) followed in rank order by fibers expressing MHC(2A), MHC(2X), and MHC(2B). For fibers expressing MHC(Neo), V(max) ATPase, and ATP(iso) were comparable to values for adult fibers expressing MHC(Slow) but significantly lower than values for fibers expressing fast MHC isoforms. We conclude that postnatal transitions from MHC(Neo) to adult fast MHC isoform expression in Dia(m) fibers are associated with corresponding but disproportionate changes in V(max) ATPase and ATP(iso).     

Diaphragm capillarity and oxidative capacity during postnatal development.

In the cat diaphragm, fiber capillarity, cross-sectional area, and succinate dehydrogenase (SDH) activity were measured across the first 6 wk of postnatal development. Fibers were classified as type I, IIa, IIb, or IIc on the basis of staining for myofibrillar adenosinetriphosphatase (ATPase). Capillaries were identified in sections stained for ATPase at pH 4.2. Fiber cross-sectional areas and SDH activities were quantified using an image-processing system. During postnatal development, the proportions of type I fibers increased while type II fibers decreased. At birth, all type II fibers were IIc. From the 1st to the 2nd postnatal wk, the proportion of type IIc fibers decreased while the numbers of IIa and IIb increased. Thereafter the proportion of type IIb fibers continued to increase while the number of IIa steadily declined. At birth, capillarity, cross-sectional areas, and SDH activities of type I and II fibers were low compared with other postnatal age groups. Fiber cross-sectional areas increased progressively with age. The number of capillaries surrounding type I and II fibers increased markedly by the 2nd wk and then continued to increase at a slower rate. The number of capillaries per fiber area reached a peak by the 2nd wk and then declined as fiber cross-sectional area increased. Postnatal changes in capillarity depended on fiber type, being greatest in IIb. SDH activities of type I and II fibers were initially low during the first 2 postnatal wk and then peaked by the 3rd wk. After the 6th wk, fiber SDH activities decreased to adult values. Among the type II fibers, IIb showed the greatest change in SDH activity during early postnatal development.     

Agonist-induced cyclic ADP ribose production in airway smooth muscle

Cyclic ADP-ribose (cADPR) triggers sarcoplasmic reticulum (SR) Ca(2+) release in airway smooth muscle (ASM). SR Ca(2+) release is an important component of the intracellular Ca(2+) ([Ca(2+)](i)) response of ASM to agonists. Whether cADPR is endogenously produced in ASM during agonist stimulation has not been established. In this study, cADPR production was examined in acutely dissociated porcine ASM cells. ACh stimulation (> or = 1 microM) significantly increased cADPR levels, peaking between 30s and 1 min. This effect was inhibited by M(2) and M(3) muscarinic receptor antagonists. Histamine ((> or = 5 microM) increased cADPR levels to a greater extent than ACh, while diphenhydramine blocked histamine-induced cADPR elevation. Both bradykinin (100 nM) and endothelin-1 (100 nM) also increased cADPR levels to a greater extent than ACh or histamine. These results indicate that in porcine ASM, certain agonists acting via receptors increase cADPR levels. Furthermore, the extent of cADPR responses to agonist varies, possibly reflecting differences in G-protein coupling.     

Salbutamol enhances isotonic contractile properties of rat diaphragm muscle

The effects of the₂-adrenoceptor agonistsalbutamol (Slb) on isometric and isotonic contractile properties ofthe rat diaphragm muscle(Dia_mus) were examined. Aloading dose of 25 µg/kg Slb was administered intracardially beforeDia_mus excision to ensure adequatediffusion. Studies were then performed with 0.05 µMSlb in the in vitro tissue chamber. cAMP levels were determined by radioimmunoassay. Compared with controls (Ctl), cAMP levels were elevated after Slb treatment. In Slb-treated rats, isometric twitch andmaximum tetanic force were increased by ~40 and ~20%,respectively. Maximum shortening velocity increased by ~15% afterSlb treatment, and maximum power output increased by ~25%. Duringrepeated isotonic activation, the rate of fatigue was faster in theSlb-treated Dia_mus, but bothSlb-treated and Ctl Dia_musfatigued to the same maximum power output. Still, endurance time duringrepetitive isotonic contractions was ~10% shorter in the Slb-treatedDia_mus. These results areconsistent with the hypothesis that -adrenoceptor stimulation by Slbenhances Dia_mus contractility andthat these effects of Slb are likely mediated, at least in part, byelevated cAMP.