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1.
Delp, Michael D., Changping Duan, John P. Mattson, andTimothy I. Musch. Changes in skeletal muscle biochemistry and histology relative to fiber type in rats with heart failure.J. Appl. Physiol. 83(4):1291-1299, 1997.One of the primary consequences of leftventricular dysfunction (LVD) after myocardial infarction is adecrement in exercise capacity. Several factors have been hypothesizedto account for this decrement, including alterations in skeletal musclemetabolism and aerobic capacity. The purpose of this study was todetermine whether LVD-induced alterations in skeletal muscle enzymeactivities, fiber composition, and fiber size are1) generalized in muscles orspecific to muscles composed primarily of a given fiber type and2) related to the severity of theLVD. Female Wistar rats were divided into three groups: sham-operatedcontrols (n = 13) and rats withmoderate (n = 10) and severe(n = 7) LVD. LVD was surgicallyinduced by ligating the left main coronary artery and resulted inelevations (P < 0.05) in leftventricular end-diastolic pressure (sham, 5 ± 1 mmHg; moderate LVD,11 ± 1 mmHg; severe LVD, 25 ± 1 mmHg). Moderate LVDdecreased the activities of phosphofructokinase (PFK) and citratesynthase in one muscle composed of type IIB fibers but did not modifyfiber composition or size of any muscle studied. However, severe LVDdiminished the activity of enzymes involved in terminal and-oxidation in muscles composed primarily of type I fibers, type IIAfibers, and type IIB fibers. In addition, severe LVD induced areduction in the activity of PFK in type IIB muscle, a 10% reductionin the percentage of type IID/X fibers, and a corresponding increase inthe portion of type IIB fibers. Atrophy of type I fibers, type IIAfibers, and/or type IIB fibers occurred in soleus and plantarismuscles of rats with severe LVD. These data indicate that rats withsevere LVD after myocardial infarction exhibit1) decrements in mitochondrialenzyme activities independent of muscle fiber composition,2) a reduction in PFK activity in type IIB muscle, 3) transformationof type IID/X to type IIB fibers, and4) atrophy of type I, IIA, and IIBfibers.

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2.
Populations and distributions of fiber types were studied in 19 limb muscles ofMicrocebus murinus. Proportions and cross-sectional areas of muscles fiber types were compared with data from the literature for other prosimians (Galago, Lemur, andNycticebus), another primate (Macaca cynomolgus), and the rat. Most muscles are heterogenous, with type I fibers (slow oxidative) localized in the deeper part, near the bone. Type IIA fibers (fast oxidative glycolytic) are more evenly distributed than type I and type IIB (fast glycolytic). The combination of large number and large size of type I fibers results in enhanced slow-twitch and oxidative properties as required for antigravity function of postural muscles. Compared with other primates,Microcebus shows relatively small cross-sectional areas of fibers and less numerous type I fibers, in every muscle, which is probably related to small body mass. The fiber type population of the different components of the quadriceps femoris is also related to the particular mode of locomotion of the mouse-lemur: running and leaping, climbing and hopping. M. vastus medialis and m. vastus lateralis are made up only of fast twitch fibers, IIA and IIB. A possible repercussion of hypothyroidism during the rest season and a decrease in locomotor activity was the subject of investigation of the fiber type proportion and section areas. No difference were found between individuals euthanized during the active period and those at rest period. Either a very low level of thyroxine associated with reduced activity is sufficient to maintain the processes controlling myosin expression, or the effects on muscles fibers of natural hypothyroidism and hypokinesia neutralize each other during the rest season.  相似文献   

3.
Fiber composition and oxidative capacity of hamster skeletal muscle.   总被引:6,自引:0,他引:6  
The hamster is a valuable biological model for physiological investigation. Despite the obvious importance of the integration of cardiorespiratory and muscular system function, little information is available regarding hamster muscle fiber type and oxidative capacity, both of which are key determinants of muscle function. The purpose of this investigation was to measure immunohistochemically the relative composition and size of muscle fibers composed of types I, IIA, IIX, and IIB fibers in hamster skeletal muscle. The oxidative capacity of each muscle was also assessed by measuring citrate synthase activity. Twenty-eight hindlimb, respiratory, and facial muscles or muscle parts from adult (144-147 g bw) male Syrian golden hamsters (n=3) were dissected bilaterally, weighed, and frozen for immunohistochemical and biochemical analysis. Combining data from all 28 muscles analyzed, type I fibers made up 5% of the muscle mass, type IIA fibers 16%, type IIX fibers 39%, and type IIB fibers 40%. Mean fiber cross-sectional area across muscles was 1665 +/- 328 microm(2) for type I fibers, 1900 +/- 417 microm(2) for type IIA fibers, 3230 +/- 784 microm(2) for type IIX fibers, and 4171 +/- 864 microm(2) for type IIB fibers. Citrate synthase activity was most closely related to the population of type IIA fibers (r=0.68, p<0.0001) and was in the rank order of type IIA > I > IIX > IIB. These data demonstrate that hamster skeletal muscle is predominantly composed of type IIB and IIX fibers.  相似文献   

4.

Background

It was recently shown that niacin supplementation counteracts the obesity-induced muscle fiber transition from oxidative type I to glycolytic type II and increases the number of type I fibers in skeletal muscle of obese Zucker rats. These effects were likely mediated by the induction of key regulators of fiber transition, PPARδ (encoded by PPARD), PGC-1α (encoded by PPARGC1A) and PGC-1β (encoded by PPARGC1B), leading to type II to type I fiber transition and upregulation of genes involved in oxidative metabolism. The aim of the present study was to investigate whether niacin administration also influences fiber distribution and the metabolic phenotype of different muscles [M. longissimus dorsi (LD), M. semimembranosus (SM), M. semitendinosus (ST)] in sheep as a model for ruminants. For this purpose, 16 male, 11 wk old Rhoen sheep were randomly allocated to two groups of 8 sheep each administered either no (control group) or 1 g niacin per day (niacin group) for 4 wk.

Results

After 4 wk, the percentage number of type I fibers in LD, SM and ST muscles was greater in the niacin group, whereas the percentage number of type II fibers was less in niacin group than in the control group (P?<?0.05). The mRNA levels of PPARGC1A, PPARGC1B, and PPARD and the relative mRNA levels of genes involved in mitochondrial fatty acid uptake (CPT1B, SLC25A20), tricarboxylic acid cycle (SDHA), mitochondrial respiratory chain (COX5A, COX6A1), and angiogenesis (VEGFA) in LD, SM and ST muscles were greater (P?<?0.05) or tended to be greater (P?<?0.15) in the niacin group than in the control group.

Conclusions

The study shows that niacin supplementation induces muscle fiber transition from type II to type I, and thereby an oxidative metabolic phenotype of skeletal muscle in sheep as a model for ruminants. The enhanced capacity of skeletal muscle to utilize fatty acids in ruminants might be particularly useful during metabolic states in which fatty acids are excessively mobilized from adipose tissue, such as during the early lactating period in high producing cows.
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5.
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.  相似文献   

6.
Electrophoretic analyses of muscle proteins in whole musclehomogenates and single muscle fiber segments were used to examine myosin heavy chain (MHC) and myosin light chain 2 (MLC2) isoform composition and fiber type populations in soleus muscles from spontaneously hypertensive rats (SHRs) and their age-matchednormotensive controls [Wistar-Kyoto (WKY) rats], at threestages in the development of high blood pressure (4 wk, 16 wk, and 24 wk of age). Demembranated (chemically skinned with 2% Triton X-100),single fiber preparations were used to determine the maximumCa2+-activated force percross-sectional area, calcium sensitivity, and degree of cooperativityof the contractile apparatus andCa2+-regulatory system withrespect to Ca2+. The results showthat, at all ages examined, 1) SHRsoleus contained a lower proportion of MHCI and MLC2 slow (MLC2s) and ahigher proportion of MHCIIa, MHCIId/x, and MLC2 fast (MLC2f )isoforms than the age-matched controls;2) random dissection of single fibers from SHR and WKY soleus produced four populations of fibers: type I (expressing MHCI), type IIA (expressing MHCIIa), hybrid typeI+IIA (coexpressing MHCI and MHCIIa), and hybrid type IIA+IID (coexpressing MHCIIa and MHCIId/x); and3) single fiber dissection from SHRsoleus yielded a lower proportion of type I fibers, a higher proportionof fast-twitch fibers (types IIA and IIA+IID), and a higher proportionof hybrid fibers (types I+IIA and IIA+IID) than the homologous musclesfrom the age-matched WKY rats. Because the presence of hybrid fibers isviewed as a marker of muscle transformation, these data suggest thatSHR soleus undergoes transformation well into adulthood. Our data showalso that, for a given fiber type, there are no significant differencesbetween SHR and WKY soleus muscles with respect to any of theCa2+-activation propertiesexamined. This finding indicates that the lower specific tensionsreported in the literature for SHR soleus muscles are not due tostrain- or hypertension-related differences in the function of thecontractile apparatus or regulatory system.  相似文献   

7.
Fifteen-week-old rats were subjected to unloading induced by hindlimb suspension for 3 weeks. The peroxisome proliferator-activated receptor γ coactivator-1α (PGC-1α) and forkhead box-containing protein O1 (FOXO1) mRNA levels and fiber profiles of the soleus and plantaris muscles in rats subjected to unloading (unloaded group) were determined and compared with those of age-matched control rats (control group). The body weight and both the soleus and plantaris muscle weights were lower in the unloaded group than in the control group. The PGC-1α mRNA was downregulated in the soleus, but not in the plantaris muscle of the unloaded group. The FOXO1 mRNA was upregulated in both the soleus and plantaris muscles of the unloaded group. The oxidative enzyme activity was reduced in the soleus, but not in the plantaris muscle of the unloaded group. The percentage of type I fibers was decreased and the percentages of type IIA and IIC fibers were increased in the soleus muscle of the unloaded group, whereas there was no change in fiber type distribution in the plantaris muscle of the unloaded group. Atrophy of all types of fibers was observed in both the soleus and plantaris muscles of the unloaded group. We conclude that decreased oxidative capacity and fiber atrophy in unloaded skeletal muscles are associated with decreased PGC-1α and increased FOXO1 mRNA levels.  相似文献   

8.
It has long been suggested that in skeletal muscle, the ATP-sensitive K(+) channel (K(ATP)) channel is important in protecting energy levels and that abolishing its activity causes fiber damage and severely impairs function. The responses to a lack of K(ATP) channel activity vary between muscles and fibers, with the severity of the impairment being the highest in the most glycolytic muscle fibers. Furthermore, glycolytic muscle fibers are also expected to face metabolic stress more often than oxidative ones. The objective of this study was to determine whether the t-tubular K(ATP) channel content differs between muscles and fiber types. K(ATP) channel content was estimated using a semiquantitative immunofluorescence approach by staining cross sections from soleus, extensor digitorum longus (EDL), and flexor digitorum brevis (FDB) muscles with anti-Kir6.2 antibody. Fiber types were determined using serial cross sections stained with specific antimyosin I, IIA, IIB, and IIX antibodies. Changes in Kir6.2 content were compared with changes in CaV1.1 content, as this Ca(2+) channel is responsible for triggering Ca(2+) release from sarcoplasmic reticulum. The Kir6.2 content was the lowest in the oxidative soleus and the highest in the glycolytic EDL and FDB. At the individual fiber level, the Kir6.2 content within a muscle was in the order of type IIB > IIX > IIA ≥ I. Interestingly, the Kir6.2 content for a given fiber type was significantly different between soleus, EDL, and FDB, and highest in FDB. Correlations of relative fluorescence intensities from the Kir6.2 and CaV1.1 antibodies were significant for all three muscles. However, the variability in content between the three muscles or individual fibers was much greater for Kir6.2 than for CaV1.1. It is suggested that the t-tubular K(ATP) channel content increases as the glycolytic capacity increases and as the oxidative capacity decreases and that the expression of K(ATP) channels may be linked to how often muscles/fibers face metabolic stress.  相似文献   

9.
Reiser, Peter J., William O. Kline, and Pal L. Vaghy.Induction of neuronal type nitric oxide synthase in skeletal muscle by chronic electrical stimulation in vivo. J. Appl. Physiol. 82(4): 1250-1255, 1997.Fast-twitch skeletal muscles contain more neuronal-type nitricoxide synthase (nNOS) than slow-twitch muscles because nNOS is presentonly in fast (type II) muscle fibers. Chronic in vivo electricalstimulation of tibialis anterior and extensor digitorum longus musclesof rabbits was used as a method of inducing fast-to-slow fiber typetransformation. We have studied whether an increase in musclecontractile activity induced by electrical stimulation alters nNOSexpression, and if so, whether the nNOS expression decreases to thelevels present in slow muscles. Changes in the expression of myosinheavy chain isoforms and maximum velocity of shortening of skinnedfibers indicated characteristic fast-to-slow fiber type transformationafter 3 wk of stimulation. At the same time, activity of NOS doubled inthe stimulated muscles, and this correlated with an increase in theexpression of nNOS shown by immunoblot analysis. These data suggestthat nNOS expression in skeletal muscle is regulated by muscle activityand that this regulation does not necessarily follow the fast-twitchand slow-twitch pattern during the dynamic phase of phenotypetransformation.

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10.
Satellite cell proliferation was assessed inlow-frequency-stimulated hypothyroid rat fast-twitch muscle by5-bromo-2'-deoxyuridine (BrdU) labeling and subsequent staining oflabeled muscle nuclei, and by staining for proliferating cell nuclearantigen (PCNA). BrdU labeling and PCNA staining were highly correlatedand increased approximately fourfold at 5 days of stimulation, decayedthereafter, but remained elevated over control in 10- and 20-daystimulated muscles. Myogenin mRNA was ~4-fold elevated at 5 days and1.5-fold at 10 days. Staining for myogenin protein yielded resultssimilar to that for PCNA and BrdU. Furthermore, a detailed examination of the pattern of myogenin staining revealed that the number of myogenin-positive nuclei was elevated in the fast pure IIB fiber population at 5 and 10 days of chronic low-frequencystimulation. By 20 days, myogenin staining was observed intransforming fast fibers that coexpressed embryonic and adult myosinheavy chain isoforms. In the slower fiber populations (i.e., IIA andI), myogenin-positive transforming fibers that coexpressed embryonicmyosin heavy chain, appeared already at 5 days. Thus the satellite cellprogeny on slower fibers seemed to proliferate less and to fuse earlierto their associated fibers than the satellite cell progeny on fast fibers. We suggest that the increase in muscle nuclei of the fast fibers might be a prerequisite for fast-to-slow fiber type transitions.

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11.
A histochemical study, using myosin-adenosine triphosphatase activity at pH 9.4, was conducted in soleus and plantaris muscles of adult rats, after bilateral crushing of the sciatic nerve at the sciatic notch. The changes in fiber diameter and per cent composition of type I and type II fibers plus muscle weights were evaluated along the course of denervation-reinnervation curve at 1, 2, 3, 4 and 6 weeks postnerve crush. The study revealed that in the early denervation phase (up to 2 weeks postcrush) both the slow and fast muscles, soleus and plantaris, resepctively, atrophied similarly in muscle mass. Soleus increased in the number of type II fibers, which may be attributed to "disuse" effect. During the same period, the type I fibers of soleus atrophied as much or slightly more than the type II fibers; whereas the type II fibers of plantaris atrophied significantly more than the type I fibers, reflecting that the process of denervation, in its early stages, may affect the two fiber types differentially in the slow and fast muscles. It was deduced that the type I fibers of plantaris may be essentially different in the slow (soleus) and fast (plantaris) muscles under study. The onset of reinnervation, as determined by the increase in muscle weight and fiber diameter of the major fiber type, occurred in soleus and plantaris at 2 and 3 weeks postcrush, respectively, which confirms the earlier hypotheses that the slow muscles are reinnervated sooner than the fast muscles. It is suggested that the reinnervation of muscle after crush injury may be specific to the muscle type or its predominant fiber type.  相似文献   

12.
After 3 wk of immobilization, the effects offree cage activity and low- and high-intensity treadmill running (8 wk)on the morphology and histochemistry of the soleus and gastrocnemius muscles in male Sprague-Dawley rats were investigated. In both muscles,immobilization produced a significant(P < 0.001) increase in the meanpercent area of intramuscular connective tissue (soleus: 18.9% inimmobilized left hindlimb vs. 3.6% in nonimmobilized right hindlimb)and in the relative number of muscle fibers with pathologicalalterations (soleus: 66% in immobilized hindlimb vs. 6% in control),with a simultaneous significant (P < 0.001) decrease in the intramuscular capillary density (soleus: mean capillary density in the immobilized hindlimb only 63% of that in thenonimmobilized hindlimb) and muscle fiber size (soleus type I fibers:mean fiber size in the immobilized hindlimb only 69% of that in thenonimmobilized hindlimb). Many of these changes could not be correctedby free remobilization, whereas low- and high-intensity treadmillrunning clearly restored the changes toward control levels, the effectbeing most complete in the high-intensity running group. Collectively,these findings indicate that immobilization-induced pathologicalstructural and histochemical alterations in rat calf muscles are, to agreat extent, reversible phenomena if remobilization is intensified byphysical training. In this respect, high-intensity exercise seems morebeneficial than low-intensity exercise.

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13.
Summary The histochemical pattern of muscle fiber types of the longissimus dorsi and biceps femoris muscles was investigated in normal and splaylegged piglets at birth and seven days later. Only slight differences between the muscle fibers at birth were found using histochemical reactions for alkaline adenosine triphosphatase (ATPase), succinate dehydrogenase (SDH), phosphorylase (PH) activities, and for the periodic acid-Schiff (PAS) reaction. With the method for acid-preincubated ATPase activity, high activity was observed in Type I muscle fibers and low activity in Type II muscle fibers in animals of both groups investigated. However, a higher number of Type I fibers was found in muscles of normal piglets, suggesting a faster and more advanced process of transformation of Type II into Type I muscle fibers in unaffected animals. Thus the histochemical conversion appears to be retarded in muscles of splaylegged animals, which have a histochemical pattern similar to that of normal prenatal animals. Cholinesterase activity in motor endplates was well developed; its staining revealed smaller sized and irregularly arranged endplates in muscles of affected piglets. Fiber type differentiation in muscles of animals which recovered from splayleg becomes fully developed and comparable to normal piglets seven days after birth. The number of fibers which became converted from Type II to Type I was increased; the fiber types were differentiated with regard to the PAS reaction and to their ATPase, SDH and PH activities. Morphological features of motor endplates in muscles of normal and surviving splaylegged piglets are similar.Histochemical investigation of the fiber type differentiation thus suggests that full recovery occurs within the first week of postnatal life in muscles affected by pathological changes accompanying splayleg.  相似文献   

14.
The histochemical pattern of muscle fiber types of the longissimus dorsi and biceps femoris muscles was investigated in normal and splaylegged piglets at birth and seven days later. Only slight differences between the muscle fibers at birth were found using histochemical reactions for alkaline adenosine triphosphatase (ATPase), succinate dehydrogenase (SDH), phosphorylase (PH) activities, and for the periodic acid-Schiff (PAS) reaction. With the method for acid-preincubated ATPase activity, high activity was observed in Type I muscle fibers and low activity in Type II muscle fibers in animals of both groups investigated. However, a higher number of Type I fibers was found in muscles of normal piglets, suggesting a faster and more advanced process of transformation of Type II into Type I muscle fibers in unaffected animals. Thus the histochemical conversion appears to be retarded in muscles of splaylegged animals, which have a histochemical pattern similar to that of normal prenatal animals. Cholinesterase activity in motor endplates was well developed; its staining revealed smaller sized and irregularly arranged endplates in muscles of affected piglets. Fiber type differentiation in muscles of animals which recovered from splayleg becomes fully developed and comparable to normal piglets seven days after birth. The number of fibers which became converted from Type II to Type I was increased; the fiber types were differentiated with regard to the PAS reaction and to their ATPase, SDH and PH activities. Morphological features of motor endplates in muscles of normal and surviving splaylegged piglets are similar. Histochemical investigation of the fiber type differentiation thus suggests that full recovery occurs within the first week of postnatal life in muscles affected by pathological changes accompanying splayleg.  相似文献   

15.
Fiber type composition of four hindlimb muscles of adult Fisher 344 rats   总被引:8,自引:0,他引:8  
 The limb and trunk muscles of adult rats express four myosin heavy chain (MHC) isoforms, one slow (MHCI) and three fast (MHCIIa, MHCIId, and MHCIIb). The distribution of these isoforms correlates with fiber types delineated using myofibrillar actomyosin adenosine triphosphatase (mATPase) histochemistry. For example, type I fibers express MHCI and fiber types IIA, IID, and IIB express MHCIIa, MHCIId, and MHCIIb, respectively. Fibers containing only one MHC isoform have been termed ”pure” fibers. Recent evidence suggests that a population of ”hybrid” fibers exist in rat skeletal muscle which contain two MHC isoforms. The purpose of the present investigation was to document the entire range of histochemically defined ”pure” and ”hybrid” fiber types in untreated muscles of the young adult Fisher 344 rat hindlimb. The selected hindlimb muscles (soleus, tibialis anterior, extensor digitorum longus, and gastrocnemius muscles) were removed from 12 male rats and analyzed for muscle fiber type distribution, cross-sectional area, and MHC content. Care was taken to delineate eight fiber types (I, IC, IIC, IIA, IIAD, IID, IIDB, and IIB) using refined histochemical techniques. Hybrid fibers were found to make up a considerable portion of the muscles examined (a range of 8.8–17.8% of the total). The deep red portion of the gastrocnemius muscle contained the largest number of hybrid fibers, most of which were the fast types IIAD (8.5±2.8%) and IIDB (5.2±2.3%). In conclusion, hybrid fibers make up a considerable portion of normal rat limb musculature and are an important population that should not be ignored. Accepted: 15 October 1998  相似文献   

16.
Results from the Russian Cosmos program suggest that the rhesusmonkey is an excellent model for studying weightlessness-induced changes in muscle function. Consequently, the purpose of this investigation was to establish the resting levels of selected substrateand enzymes in individual slow- and fast-twitch muscle fibers of therhesus monkey. A second objective was to determine the effect of an18-day sit in the Spacelab experiment-support primate facility[Experimental System for the Orbiting Primate (ESOP)].Muscle biopsies of the soleus and medial gastrocnemius muscles wereobtained 1 mo before and immediately after an 18-day ESOP sit. Thebiopsies were freeze-dried, and individual fibers were isolated andassayed for the substrates glycogen and lactate and for the high-energyphosphates ATP and phosphocreatine. Fiber enzyme activity was alsodetermined for the glycolytic enzymes phosphofructokinase and lactatedehydrogenase (LDH) and for the oxidative markers 3-hydroxyacyl-CoAdehydrogenase (-OAC) and citrate synthase. Consistent with otherspecies, the fast type II fibers contained higher glycogen content thandid the slow type I fibers. The ESOP sit had no significant effects onthe metabolic profile of the slow fibers of either muscle or the fast fibers of the soleus. However, the fast gastrocnemius fibers showed asignificant decline in phosphocreatine and an increase in lactate. Also, similar to other species, the fast fibers contained significantly higher LDH activities and lower 3-hydroxyacyl-CoA dehydrogenase activities. For the muscle enzymes, the quantitatively most important effect of the ESOP sit occurred with LDH where activities increased inall fiber types postsit except the slow type I fiber of the medial gastrocnemius.

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17.
Menopause, the age-related loss of ovarian hormone production, promotes increased adiposity and associated metabolic pathology, but molecular mechanisms remain unclear. We previously reported that estrogen increases skeletal muscle PPARδ expression in vivo, and transgenic mice overexpressing muscle-specific PPARδ are reportedly protected from diet-induced obesity. We thus hypothesized that obesity observed in ovariectomized mice, a model of menopause, may result in part from abrogated expression of muscle PPARδ and/or downstream mediators such as FoxO1. To test this hypothesis, we ovariectomized (OVX) or sham-ovariectomized (SHM) 10-week old female C57Bl/6J mice, and subsequently harvested quadriceps muscles 12 weeks later for gene expression studies. Compared to SHM, muscle from OVX mice displayed significantly decreased expression of PPARδ (3.4-fold), FoxO1 (4.5-fold), PDK-4 (2.3-fold), and UCP-2 (1.8-fold). Consistent with studies indicating PPARδ and FoxO1 regulate muscle fiber type, we observed dramatic OVX-specific decreases in slow isoforms of the contractile proteins myosin light chain (11.1-fold) and troponin C (11.8-fold). In addition, muscles from OVX mice expressed 57% less myogenin (drives type I fiber formation), 2-fold more MyoD (drives type II fiber formation), and 1.6-fold less musclin (produced exclusively by type II fibers) than SHM, collectively suggesting a shift towards less type I oxidative fibers. Finally, and consistent with changes in PPARδ and FoxO1 activity, we observed decreased expression of atrogin-1 (2.3-fold) and MuRF-1 (1.9-fold) in OVX mice. In conclusion, muscles from ovariectomized mice display decreased PPARδ and FoxO1 expression, abrogated expression of downstream targets involved in lipid and protein metabolism, and gene expression profiles indicating less type I oxidative fibers.  相似文献   

18.
The variability of fiber type distribution in nine limb muscles was examined with histochemical and tensiomyographical (TMG) methods in two groups of 15 men aged between 17 and 40 years. The aim of this study was to determine the extent to which the relative occurrence of different fiber types and subtypes varies within human limb muscles in function to depth and to predict fiber type proportions with a non-invasive TMG method.The distribution of different fiber types varied within the muscles, as a function of depth, with a predominance of type 2b fibers at the surface and type 1 fibers in deeper regions of the muscle. For all the analyzed muscles the contraction times measured at stimulus intensity 10% of supramaximal stimulus (10% MS) were significantly (p<0.05) shorter than the contraction times measured at 50% of supramaximal stimulus intensity (50% MS). The Pearson's correlation coefficient between percentage of type 1 muscle fibers measured at the surface of the muscle and contraction time at 10% MS, obtained by TMG was statistically significant (r=0.76,P<0.01). Also the Pearson's correlation coefficient between percentage of type 1 muscle fibers measured in the deep region of the muscle and contraction time at 50% MS obtained by TMG was also statistically significant (r=0.90,P<0.001).These findings suggest that the contraction time obtained by TMG may be useful for non-invasive examining of muscle fiber types spatial distribution in humans.  相似文献   

19.
Summary Pretarsal orbicularis oculi muscle (POOM) is an important structure of eyelid movement in human. The aim of this study was to investigate fiber histomorphology and myosin heavy chain (MyHC) isoform composition of adult POOM, and to clarify their age-related changes. Eyelid specimens from 58 subjects (age range, 21 to 91 years) were collected during upper blepharoplasty procedures. Serial cross sections of POOM were ATPase-stained and examined under miscroscope. Quantitative measures of muscle fiber size and fiber type distribution were obtained in 35 subjects with adequate fiber cross sections. Relative MyHC isoform contents of POOM were retrieved by gel electrophoresis in all 58 subjects. Examination of the histochemical staining revealed an abundance of type II fiber ( >85%) in human POOM, with more type IIX than IIA fibers. Decreased mean area of all fibers and type IIA fibers were noted in the old group when compared to the young. As for MyHC analysis, the relative content of MyHC isoforms exhibited an order of IIX > IIA > I, and the relative MyHC IIA content showed a negative correlation with age. Comparing with previous studies of limb or masticatory muscles, adult POOM exhibits a unique fiber and MyHC composition, as well as a different aging pattern.  相似文献   

20.
Direct genetransfer into skeletal muscle in vivo presents a convenientexperimental approach for studies of adult muscle gene regulatorymechanisms, including fast vs. slow fiber type specificity. Previous studies have reported preferentialexpression of fast myosin heavy chain and slow myosin light chain andtroponin I (TnIslow) gene constructs in muscles enriched in theappropriate fiber type. We now report a troponin I fast (TnIfast)direct gene transfer study. We injected into the mouse soleus muscleplasmid DNA or recombinant adenovirus carrying a TnIfast/-galactosidase (-gal) reporter construct that had previously beenshown to be expressed specifically in fast fibers in transgenic mice.Surprisingly, microscopic histochemical analysis 1 and 4 wkpostinjection showed similar TnIfast/-gal expression in fast andslow fibers. A low but significant level of muscle fiber segmentalregeneration was evident in muscles 1 wk postinjection, andTnIfast/-gal expression was preferentially targeted to regeneratingfiber segments. This finding can explain why TnIfast constructs arederegulated with regard to fiber type specificity, whereas the myosinconstructs previously studied are not. The involvement of regeneratingfiber segments in transduction by plasmid DNA and recombinantadenoviruses injected into intact normal adult muscle is anunanticipated factor that should be taken into account in the planningand interpretation of direct gene transfer experiments.

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