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1.
Summary In order to evaluate the effects of fusimotor elimination on the expression of myosin heavy chain (MHC) proteins in intrafusal fibres, we compared the muscle spindles in hind limb muscles of 3- to 6-week-old rats de-efferented at birth with those of their litter-mate controls. Serial sections were labelled with antibodies against slow tonic, slow twitch, fast twitch and neonatal MHC isoforms, against synaptophysin, the neurofilament 68 kD subunit and laminin. We found that de-efferented intrafusal fibres differentiated, as in normal spindles, into nuclear bag1 and bag2 fibres both containing predominantly slow MHC, and nuclear chain fibres that contained fast and neonatal MHC. In both de-efferented and control intrafusal fibres the same MHCs were stained; the degree and extent of staining, however, varied. Both types of de-efferented bag fibres displayed a high content of slow tonic and slow twitch MHC along most of the fibre length, in contrast to the prominent regional variation in control bag fibres. In their encapsulated regions, the de-efferented bag fibres were more similar to each other in their reactivity to anti-fast twitch and anti-neonatal MHC antibodies than the control bag fibres. In these aspects they resembled more closely the bag fibres of newborn rats. The differences might be due to an arrest of specialization in the regional expression of the different MHC isoforms. Chain fibres developed MHC patterns identical to those of control spindles with all the antibodies used, even though they differentiated from the beginning in the absence of motor innervation.The structural differentiation of the capsule and sensory innervation in de-efferented muscle spindles, as shown by anti-laminin, anti-synaptophysin and anti-neurofilament staining, did not differ from the controls.We conclude, in agreement with previous studies, that the sensory innervation plays a key role in inducing and supporting the differentiation of intrafusal fibres and the specific expression of their MHC. However, we also show that motor innervation and/or muscle function seem to be necessary for the diversity in the expression and distribution of different slow and fast MHC isoforms in the bag1 and bag2 fibres. 相似文献
2.
The development of muscle spindles, with respect to the expression of myosin heavy chain isoforms was studied in rat hind limbs from 17 days of gestation up to seven days after birth. Serial cross-sections were labelled with antibodies against slow tonic, slow twitch and neonatal isomyosins, myomesin, laminin and neurofilament protein. At 17-18 days of gestation, a small population of primary myotubes expressing slow tonic myosin were identified as the earliest spindle primordia. These myotubes also expressed slow twitch and, to a lesser extent, neonatal myosin. At 19-20 days of gestation a second myotube became apparent; this staining strongly with anti-neonatal myosin. A day later this secondary myotube acquired reactivity to anti-slow tonic and anti-slow twitch myosins. By birth, a third myotube was present; this staining strongly with anti-neonatal myosin but otherwise unreactive with the other antibodies against myosin heavy chains. Three days after birth a fourth myotube, with identical reactivity to the third one, became apparent. Regional variation in the expression of isomyosins, which was present since birth in the two nuclear bag fibers was further enhanced: the nuclear bag staining strongly with anti-slow tonic and antineonatal in the equatorial region and with decreasing intensity towards the poles, whilst with anti-slow twitch the stainability was low in the equatorial and high in the polar region. The nuclear bag fiber showed a homogeneous staining: high with anti-slow tonic, moderate with anti-neonatal, and displayed stainability to anti-slow twitch myosin in the polar regions only. No regional variation was found along the chain fiber/myotube.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
3.
Summary The development of muscle spindles, with respect to the expression of myosin heavy chain isoforms was studied in rat hind limbs from 17 days of gestation up to seven days after birth. Serial cross-sections were labelled with antibodies against slow tonic, slow twitch and neonatal isomyosins, myomesin, laminin and neurofilament protein.At 17–18 days of gestation, a small population of primary myotubes expressing slow tonic myosin were identified as the earliest spindle primordia. These myotubes also expressed slow twitch and, to a lesser extent, neonatal myosin. At 19–20 days of gestation a second myotube became apparent; this staining strongly with anti-neonatal myosin. A day later this secondary myotube acquired reactivity to anti-slow tonic and anti-slow twitch myosins. By birth, a third myotube was present; this staining strongly with anti-neonatal myosin but otherwise unreactive with the other antibodies against myosin heavy chains. Three days after birth a fourth myotube, with identical reactivity to the third one, became apparent. Regional variation in the expression of isomyosins, which was present since birth in the two nuclear bag fibers was further enhanced: the nuclear bag2 staining strongly with anti-slow tonic and antineonatal in the equatorial region and with decreasing intensity towards the poles, whilst with anti-slow twitch the stainability was low in the equatorial and high in the polar region. The nuclear bag1 fiber showed a homogeneous staining: high with anti-slow tonic, moderate with anti-neonatal, and displayed stainability to antislow twitch myosin in the polar regions only. No regional variation was found along the chain fiber/myotube. At seven days after birth, the pattern of reactivity was similar to that found in the adult spindles, except for the bag1 fiber which still expressed neonatal myosin.We show that slow tonic myosin is expressed from early development and it is a reliable marker of developing bag fibers. We suggest that muscle spindles are formed from special cell lineages of which the primary generation myotubes expressing slow tonic myosin represent the primordium of muscle spindles. 相似文献
4.
Diversity in expression of myosin heavy chain isoforms and M-band proteins in rat muscle spindles 总被引:1,自引:0,他引:1
The composition of adult rat soleus muscle spindles, with respect to myosin heavy chain isoforms and M-band proteins, was studied by light-microscope immunohistochemistry. Serial sections were labelled with antibodies against slow tonic, slow twitch, fast twitch and neonatal myosin isoforms as well as against myomesin, M-protein and the MM form of creatine kinase. Intrafusal fiber types were distinguished according to the pattern of ATPase activity following acid and alkaline preincubations. Nuclear bag1 fibers were always strongly stained throughout with anti-slow tonic myosin, were positive for anti-slow twitch myosin towards and in the C-region but were unstained with anti-fast twitch and anti-neonatal myosins. The staining of nuclear bag2 fibers was in general highly variable. However, they were most often strongly stained by anti-slow tonic myosin in the A-region and gradually lost this reactivity towards the poles, whereas a positive reaction with anti-slow twitch myosins was found along the whole fiber. Regional staining variability with anti-neonatal and anti-fast myosins was apparent, often with decreasing intensity towards the polar regions. Nuclear chain fibers showed strong transient reactivity with anti-slow tonic myosin in the equatorial region, did not react with anti-slow twitch and were always evenly stained by anti-fast twitch and anti-neonatal myosins. All three intrafusal fiber types were stained with anti-myomesin. Nuclear bag1 fibers lacked staining for M-protein, whereas bag2 fibers displayed intermediate staining, with regional variability, often increasing in reactivity towards the polar regions. Chain fibers were always strongly stained by anti-M-protein. The MM form of creatine kinase was present in all three fiber types, but bag1 fibers were less reactive and clear striations were not observed, in contrast to bag2 and chain fibers. Out of 38 cross sectioned spindles two were found to have an atypical fiber composition (lack of chain fibers) and a rather diverse staining pattern for the different antibodies tested. Taken together, the data show that in adult rat soleus, slow tonic and neonatal myosin heavy chain isoforms are only expressed in the muscle spindle fibers and that each intrafusal fiber type has a unique, although variable, composition of myosin heavy chain isoforms and M-band proteins. We propose that both motor and sensory innervation might be the determining factors regulating the variable expression of myosin heavy chain isoforms and M-band proteins in intrafusal fibers of rat muscle spindles. 相似文献
5.
F. Pedrosa G. S. Butler-Browne G. K. Dhoot D. A. Fischman L. -E. Thornell 《Histochemistry and cell biology》1989,92(3):185-194
Summary The composition of adult rat soleus muscle spindles, with respect to myosin heavy chain isoforms and M-band proteins, was studied by light-microscope immunohistochemistry. Serial sections were labelled with antibodies against slow tonic, slow twitch, fast twitch and neonatal myosin isoforms as well as against myomesin, M-protein and the MM form of creatine kinase. Intrafusal fiber types were distinguished according to the pattern of ATPase activity following acid and alkaline preincubations.Nuclear bag1 fibers were always strongly stained throughout with anti-slow tonic myosin, were positive for anti-slow twitch myosin towards and in the C-region but were unstained with anti-fast twitch and anti-neonatal myosins. The staining of nuclear bag2 fibers was in general highly variable. However, they were most often strongly stained by anti-slow tonic myosin in the A-region and gradually lost this reactivity towards the poles, whereas a positive reaction with anti-slow twitch myosins was found along the whole fiber. Regional staining variability with antineonatal and anti-fast myosins was apparent, often with decreasing intensity towards the polar regions. Nuclear chain fibers showed strong transient reactivity with anti-slow tonic myosin in the equatorial region, did not react with anti-slow twitch and were always evenly stained by anti-fast twitch and anti-neonatal myosins. All three intrafusal fiber types were stained with anti-myomesin. Nuclear bag1 fibers lacked staining for M-protein, whereas bag2 fibers displayed intermediate staining, with regional variability, often increasing in reactivity towards the polar regions. Chain fibers were always strongly stained by anti-M-protein. The MM form of creatine kinase was present in all three fiber types, but bag1 fibers were less reactive and clear striations were not observed, in contrast to bag2 and chain fibers. Out of 38 cross sectioned spindles two were found to have an atypical fiber composition, (lack of chain fibers) and a rather diverse staining pattern for the different antibodies tested.Taken together, the data show that in adult rat solcus, slow tonic and neonatal myosin heavy, chain isoforms are only expressed in the muscle spindle fibers and that each intrafusal fiber type has a unique, although variable, composition of myosin heavy chain isoforms and M-band proteins. We propose that both motor and sensory innervation might be the determining factors regulating the variable expression of myosin heavy chain isoforms and M-band proteins in intrafusal fibers of rat muscle spindles. 相似文献
6.
Soukup T Jirmanová I Mrácková K Zacharová G Thornell LE 《General physiology and biophysics》1999,18(Z1):81-83
The analysis of developing intrafusal fibres is not feasible in the absence of primary sensory axons, as neonatal denervation leads to the disintegration of muscle spindles. On the other hand, neonatal deefferentation does not arrest their differentiation and, moreover, it leads to the neomyogenesis of supernumerary intrafusal profiles. If the sciatic nerve was sectioned in 4-week-old rats deefferented at the birth, muscle spindles survived, the neomyogenesis proceeded and the denervated intrafusal fibres expressed the spindle specific slow tonic (STO) MyHC. The expression of MyHC pattern in individual fibres and the differentiation of the fibre type characteristics were, however, less obvious compared to the control or deefferented spindles. The newly formed intrafusal profiles (which differentiated from satellite cells in the absence of innervation) expressed the STO MyHC particularly when they developed in a spatial relation to nuclear bag fibres. 相似文献
7.
Developmentally regulated expression of vascular smooth muscle myosin heavy chain isoforms 总被引:7,自引:0,他引:7
M Kuro-o R Nagai H Tsuchimochi H Katoh Y Yazaki A Ohkubo F Takaku 《The Journal of biological chemistry》1989,264(31):18272-18275
Two types of smooth muscle myosin heavy chain (MHC) isoforms, SM1 and SM2, were recently identified to have different carboxyl termini (Nagai, R., Kuro-o, M., Babij, P., and Periasamy, M. (1989) J. Biol. Chem. 264, 9734-9737). SM1 and SM2 are considered to be generated from a single gene through alternative RNA splicing. In this study we investigated expression of vascular MHC isoforms during development in rabbits at the mRNA, protein, and histological levels. In adults, all smooth muscle cells reacted with both anti-SM1 and anti-SM2 antibodies on immunofluorescence, suggesting the coexpression of SM1 and SM2 in a single cell. In fetal and perinatal rabbits, however, only anti-SM1 antibody consistently reacted with smooth muscles. Reactivity with anti-SM2 antibody was negative in the fetal and neonatal blood vessels and gradually increased during 30 days after birth. These developmental changes in SM1 and SM2 expression at the histological level coincided with mRNA expression of each MHC isoform as determined by S1 nuclease mapping, indicating that expression of SM1 and SM2 is controlled at the level of RNA splicing. However, sodium dodecyl sulfate-polyacrylamide gel electrophoresis of myosin from fetal and perinatal aortas revealed the presence of large amount of SM2. Interestingly, fetal SM2 did not cross-react with our anti-SM2 antibody on immunoblotting. We conclude that expression of SM1 and SM2 are differentially regulated during development and that a third type of MHC isoform may exist in embryonic and perinatal vascular smooth muscles. 相似文献
8.
Distribution of myosin heavy chain isoforms in non-weight-bearing rat soleus muscle fibers 总被引:4,自引:0,他引:4
Talmadge Robert J.; Roy Roland R.; Edgerton V. Reggie 《Journal of applied physiology》1996,81(6):2540-2546
Talmadge, Robert J., Roland R. Roy, and V. Reggie Edgerton.Distribution of myosin heavy chain isoforms in non-weight-bearing rat soleus muscle fibers. J. Appl.Physiol. 81(6): 2540-2546, 1996.The effects of14 days of spaceflight (SF) or hindlimb suspension (HS) (Cosmos 2044)on myosin heavy chain (MHC) isoform content of the rat soleus muscleand single muscle fibers were determined. On the basis ofelectrophoretic analyses, there was a de novo synthesis of type IIx MHCbut no change in either type I or IIa MHC isoform proportions aftereither SF or HS compared with controls. The percentage of fiberscontaining only type I MHC decreased by 26 and 23%, and the percentageof fibers with multiple MHCs increased from 6% in controls to 32% inHS and 34% in SF rats. Type IIx MHC was always found in combinationwith another MHC or combination of MHCs; i.e., no fibers contained typeIIx MHC exclusively. These data suggest that the expression of thenormal complement of MHC isoforms in the adult rat soleus muscle isdependent, in part, on normal weight bearing and that the absence ofweight bearing induces a shift toward type IIx MHC protein expression in the preexisting type I and IIa fibers of the soleus. 相似文献
9.
10.
This study was designed to test the hypothesis that myosin heavy (MHC) and light chain (MLC) plasticity resulting from hindlimb suspension (HS) is an age-dependent process. By using an electrophoretic technique, the distribution of MHC and MLC isoforms was quantitatively evaluated in the soleus muscles from 3- or 12-wk-old rats after 1-3 wk of HS treatment was maintained. In normal 12- and 15-wk-old rats, the soleus muscles contained a predominance of MHCI ( approximately 94%) with small amounts of MHCIIa, but not MHCIId or MHCIIb. The suspended muscles of adult rats were characterized by the appearance of MHCIIb and MHCIId, the latter reaching approximately 6% after 3 wk of HS treatment. In contrast to changes in MHC, HS did not induce a transition in the MLC pattern in the soleus muscles from adult rats. Compared with adult rats, in juveniles HS had a much more pronounced effect on the shift toward faster MHC and MLC isoform expression. The soleus muscles of 6-wk-old rats after 3 wk of HS were composed of 37.0% MHCI, 19.1% MHCIIa, 23.7% MHCIId, and 20.2% MHCIIb. Changes in MLC isoforms consisted of an increase in MLC1f and MLC2f concomitant with a decrease in MLC2s. These results indicate the existence of a differential effect of HS on MHC and MLC transitions that appears to be age dependent. They also suggest that the suspended soleus muscles from young rats may acquire the intrinsic contractile properties that are intermediate between those in the normal soleus and typical fast-twitch skeletal muscles. 相似文献
11.
Expression of myosin heavy chain isoforms along intrafusal fibers of rat soleus muscle spindles after 14 days of hindlimb unloading. 总被引:2,自引:0,他引:2
L De-Doncker F Picquet G Butler Browne M Falempin 《The journal of histochemistry and cytochemistry》2002,50(11):1543-1554
Morphological, contractile, histochemical, and electrophoretical characteristics of slow postural muscles are altered after hindlimb unloading (HU). However, very few data on intrafusal fibers (IFs) are available. Our aim was to determine the effects of 14 days of hindlimb unloading on the morphological and immunohistochemical characteristics of IF in rat soleus muscle. Thirty-three control and 32 unloaded spindles were analyzed. The number and distribution of muscle spindles did not appear to be affected after unloading. There was no significant difference in number, cross-sectional area, and histochemical properties of IF between the two groups. However, after unloading, a significant decrease in slow type 1 MHC isoform and a slight increase in slow-tonic MHC expression were observed in the B and C regions of the bag1 fibers. The alpha-cardiac MHC expression was significantly decreased along the entire length of the bag2 fibers and in the B and C regions of the bag1 fibers. In 12 muscle spindles, the chain fibers expressed the slow type 1 and alpha-cardiac MHC isoforms over a short distance of the A region, although these isoforms are not normally expressed. The most striking finding of the study was the relative resistance of muscle spindles to perturbation induced by HU. 相似文献
12.
13.
The expression of myosin heavy chain isoforms in normal and hypertrophied chicken slow muscle 总被引:4,自引:2,他引:2 下载免费PDF全文
Hypertrophy was produced in the anterior latissimus dorsi (ALD) muscle of 5-wk-old chickens by application of a load to the humerus. After 4 wk, hypertrophied ALD muscles were greater than 2.5 times heavier than contralateral control ALD muscles. Two isomyosins are distinguishable in normal ALD muscles by their different electrophoretic mobilities. It is shown here that the faster migrating SM-1 isomyosin decreases in abundance with age and that the application of an overload enhances both the rate and extent of this process. Monoclonal antibodies were selected by an immunotransfer technique that were specific for the heavy chains associated with either SM-1 or SM-2, or cross-reacted with both isoforms. The cellular distribution of the SM-1 and SM-2 isomyosins was analyzed by immunofluorescent technique using these antibodies. Anti-SM-1 and anti-SM-2 antibodies reacted with separate populations of cells, whereas the third antibody reacted with all myocytes in the normal ALD muscle. These data suggest that there is an exclusive cellular distribution of myosin heavy chains associated with SM-1 and SM-2 proteins. Immunofluorescent analysis of hypertrophied muscle showed the anti-SM-2-specific antibody reacting with all myocytes, whereas the anti-SM-1-specific antibody reacted with none. This is consistent with the elimination of the SM-1 isoform in hypertrophied muscles. 相似文献
14.
The present study examined Ca(2+) sensitivity of diaphragm muscle (Dia(m)) fibers expressing different myosin heavy chain (MHC) isoforms. We hypothesized that Dia(m) fibers expressing the MHC(slow) isoform have greater Ca(2+) sensitivity than fibers expressing fast MHC isoforms and that this fiber-type difference in Ca(2+) sensitivity reflects the isoform composition of the troponin (Tn) complex (TnC, TnT, and TnI). Studies were performed in single Triton-X-permeabilized Dia(m) fibers. The Ca(2+) concentration at which 50% maximal force was generated (pCa(50)) was determined for each fiber. SDS-PAGE and Western analyses were used to determine the MHC and Tn isoform composition of single fibers. The pCa(50) for Dia(m) fibers expressing MHC(slow) was significantly greater than that of fibers expressing fast MHC isoforms, and this greater Ca(2+) sensitivity was associated with expression of slow isoforms of the Tn complex. However, some Dia(m) fibers expressing MHC(slow) contained the fast TnC isoform. These results suggest that the combination of TnT, TnI, and TnC isoforms may determine Ca(2+) sensitivity in Dia(m) fibers. 相似文献
15.
The effect of neonatal deafferentation or deefferentation on myosin heavy chain expression in intrafusal muscle fibers of the rat 总被引:1,自引:0,他引:1
Summary Muscle spindles were either deafferented or deefferented by selectively severing the sensory or motor nerve supply to neonatal soleus muscles of rats at a time when spindles are formed but when intrafusal muscle fibers are structurally and immunocytochemically immature. Experimental muscles wereexcised two months after nerve section. Control and experimental spindles were examined using monoclonal antibodies specific for myosin heavy chains of slow-tonic (ALD58) and fast-twitch (MF30) chicken muscles. Only intrafusal fibers bound these antibodies in intact soleus muscles. The deefferented spindles exhibited a pattern of ALD58 and MF30 binding similar to that of normal adult intrafusal fibers, whereas deafferented intrafusal fibers were unreactive with the two antibodies. Thus intact sensory innervation is essential for myosin heavy chain expression in intrafusal muscle fibers during postnatal development of rat spindles. 相似文献
16.
The effect of neonatal deafferentation or defferentation on myosin heavy chain expression in intrafusal muscle fibers of the rat 总被引:1,自引:0,他引:1
Muscle spindles were either deafferented or deefferented by selectively severing the sensory or motor nerve supply to neonatal soleus muscles of rats at a time when spindles are formed but when intrafusal muscle fibers are structurally and immunocytochemically immature. Experimental muscles were excised two months after nerve section. Control and experimental spindles were examined using monoclonal antibodies specific for myosin heavy chains of slow-tonic (ALD58) and fast-twitch (MF30) chicken muscles. Only intrafusal fibers bound these antibodies in intact soleus muscles. The deefferented spindles exhibited a pattern of ALD58 and MF30 binding similar to that of normal adult intrafusal fibers, whereas deafferented intrafusal fibers were unreactive with the two antibodies. Thus intact sensory innervation is essential for myosin heavy chain expression in intrafusal muscle fibers during postnatal development of rat spindles. 相似文献
17.
We have raised monoclonal antibodies (Mabs) to myosin heavy chain isoforms (MHCs) that have specific patterns of temporal expression during the development of quail pectoral muscle and that are expressed in very restricted, tissue-specific patterns in adult birds. We find that an early embryonic, a perinatal, and an adult-specific, fast myosin heavy chain are co-expressed at different levels in the pectoral muscle of 8-12 day quail embryos. The early embryonic MHC disappears from the pectoral muscle at approximately 14 days in ovo, whereas the perinatal MHC persists until 26 days post-hatching. The adult-specific MHC accumulates preferentially and eventually completely replaces the other isoforms. These Mabs cross-react with the homologous isoforms of the chick and detect a similar pattern of MHC expression in the pectoral muscle of developing chicks. Although the early embryonic and perinatal MHC isoforms recognized by our Mabs are expressed in the pectoral muscle only during distinct developmental stages, our Mabs also recognize MHC isoforms present in the heart and extraocular muscle of adult quail. Immunofingerprinting using Staphylococcus aureus protease V8 suggests that the early embryonic and perinatal MHC isoforms that we see are strongly homologous with the adult ventricular and extraocular muscle isoforms, respectively. These observations suggest that at least three distinct MHC isoforms, which are normally expressed in adult muscles, are co-expressed during the early development of the pectoral muscle in birds. In this respect, the pattern of expression of the MHCs recognized by our Mabs in developing, fast muscle is very similar to the patterns described for other muscle contractile proteins. 相似文献
18.
Florence Picquet Laurent De-Doncker Maurice Falempin 《The journal of histochemistry and cytochemistry》2003,51(11):1479-1489
The aim of this study was to determine whether a period of 19 days in hypergravity was long enough to induce changes in the expression of myosin heavy chain (MyHC) isoforms in the muscle spindles. The soleus muscle of 10 male Wistar rats (control: CONT, n=5; hypergravity: HG, n=5) was frozen, cut into serial sections, and labeled with antibodies against MyHCs: I, IIA, IIA + IIX + IIB, slow-tonic, and alpha-cardiac. Forty CONT and 45 HG spindles were analyzed. The results from HG spindles compared to CONT showed that there was no change in the cross-sectional area of intrafusal fibers. However, along the entire length of B1 fibers, the expression of both MyHC I and alpha-cardiac was increased significantly, whereas the labeling against MyHC IIA and MyHC slow-tonic was decreased. In B2 fibers, the labeling against MyHC IIA (region A), slow-tonic (region A), and fast myosins (regions A-C) was statistically decreased. In chain fibers, the labeling against both MyHC IIA and fast MyHC was reduced significantly. We conclude that hypergravity has a real impact on the MyHC content in the muscle spindles and induces some inverse changes of those observed in hypogravity for MyHCs I, alpha-cardiac, and slow-tonic. 相似文献
19.
Rajab P Fox J Riaz S Tomlinson D Ball D Greenhaff PL 《American journal of physiology. Regulatory, integrative and comparative physiology》2000,279(3):R1076-R1081
Prolonged treatment with the beta(2)-adrenoceptor agonist clenbuterol (1-2 mg. kg body mass(-1). day (-1)) is known to induce the hypertrophy of fast-contracting fibers and the conversion of slow- to fast-contracting fibers. We investigated the effects of administering a lower dose of clenbuterol (250 microgram. kg body mass(-1). day (-1)) on skeletal muscle myosin heavy chain (MyHC) protein isoform content and adenine nucleotide (ATP, ADP, and AMP) concentrations. Male Wistar rats were administered clenbuterol (n = 8) or saline (n = 6) subcutaneously for 8 wk, after which the extensor digitorum longus (EDL) and soleus muscles were removed. We demonstrated an increase of type IIa MyHC protein content in the soleus from approximately 0.5% in controls to approximately 18% after clenbuterol treatment (P < 0.05), which was accompanied by an increase in the total adenine nucleotide pool (TAN; approximately 19%, P < 0.05) and energy charge [E-C = (ATP + 0.5 ADP)/(ATP + ADP + AMP); approximately 4%; P < 0.05]. In the EDL, a reduction in the content of the less prevalent type I MyHC protein from approximately 3% in controls to 0% after clenbuterol treatment (P < 0.05) occurred without any alterations in TAN and E-C. These findings demonstrate that the phenotypic changes previously observed in slow muscle after clenbuterol administration at 1-2 mg. kg body mass(-1). day(-1) are also observed at a substantially lower dose and are paralleled by concomitant changes in cellular energy metabolism. 相似文献
20.
Time-dependent changes in myosin heavy chain mRNA and protein isoforms in unloaded soleus muscle of rat 总被引:6,自引:0,他引:6
Stevens Laurence; Sultan Karim R.; Peuker Heidemarie; Gohlsch Barbel; Mounier Yvonne; Pette Dirk 《American journal of physiology. Cell physiology》1999,277(6):C1044
Time-dependent changes in myosin heavy chain(MHC) isoform expression were investigated in rat soleus muscleunloaded by hindlimb suspension. Changes at the mRNA level weremeasured by RT-PCR and correlated with changes in the pattern of MHCprotein isoforms. Protein analyses of whole muscle revealed that MHCIdecreased after 7 days, when MHCIIa had increased, reaching a transient maximum by 15 days. Longer periods led to inductions and progressive increases of MHCIId(x) and MHCIIb. mRNA analyses of whole muscle showedthat MHCIId(x) displayed the steepest increase after 4 days andcontinued to rise until 28 days, the longest time period investigated.MHCIIb mRNA followed a similar time course, although at lower levels.MHCI mRNA, present at extremely low levels in control soleus, peakedafter 4 days, stayed elevated until 15 days, and then decayed.Immunohistochemistry of 15-day unloaded muscles revealed that MHCIwas present in muscle spindles but at low amounts also in extrafusalfibers. The slow-to-fast transitions thus seem to proceed in the orderMHCI MHCIIa MHCIId(x) MHCIIb. Ourfindings indicate that MHCI is transiently upregulated in somefibers as an intermediate step during the transition from MHCI to MHCIIa. 相似文献