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1.
Several structural and functional properties are characterized in nucleated erythrocyte plasmalemmae of age- and sex-matched dystrophic (line 413) and normal (line 412) chickens obtained from the University of California at Davis. Plasmalemma purity is assessed through marker enzymes. Significant differences are observed in the phospholipid content between dystrophic and normal chickens. The dystrophic chicken erythrocyte plasmalemma has an increased concentration of phosphatidylserine and a decreased concentration of phosphatidylethanolamine compared with control birds. Also, a measurable and distinct polar lipid, observed only on thin-layer chromatography (TLC) plates spotted with dystrophic preparations, is visualized adjacent to phosphatidylethanolamine. These abnormalities in the dystrophic chicken erythrocyte may signal a general defect in membrane structure for chicken dystrophy.  相似文献   

2.
The phospholipid content of normal (line 412) and dystrophic (line 413) chicken erythrocyte plasmalemmae has been quantified on a developmental basis using sex matched controls. A specific minor phospholipid component, ethanolamine plasmalogen, is identified from dystrophic erythrocyte membrane preparations. To arrive at this identification, data from studies utilizing gas-liquid chromatography, thin-layer chromatography, [14C]ethanolamine incorporation, and biochemical assay for specific organic moieties were correlated. This phospholipid has the potential to alter and regulate membrane fluidity and thus membrane function. The possible presence of significant concentrations of plasmalogen in human dystrophic tissues may serve as a marker for dystrophy and thus be of clinical importance.  相似文献   

3.
To search for potentially mutant proteins, we have investigated erythrocyte ghost proteins from normal and dystrophic hamster by two-dimensional gel electrophoresis. No significant differences are observed between dystrophic and normal erythrocytes in their peptide patterns on SDS-polyacrylamide gel electrophoresis while on two-dimensional gels a protein spot of approximate Mr 20 000 with an approximate isoelectric point of 4.5 is found in erythrocytes from dystrophic animals and is consistently absent in normal erythrocytes. A large population of erythrocyte (60%) from dystrophic hamsters shows distorted shape as visualized by scanning electron microscopy. The nature of this protein and its relevance in hamster muscular dystrophy are at present not known.  相似文献   

4.
We have studied the protein composition of the pectoralis superficialis muscle of genetically dystrophic (New Hampshire line 413) and normal control (line 412) chickens by one- and two-dimensional gel electrophoresis. A protein, referred to hereafter as the 30 kDa abnormal protein, was specifically detected in the affected muscle. It was purified to homogeneity, and its molecular properties were studied. It is a monomer with a molecular mass of approximately 30 kDa and an isoelectric point of about pI 8.4. We have screened by Western blotting a variety of muscles from line 412 and line 413 chickens for the presence of the 30 kDa protein. While the pattern of total protein is very similar in all cases, the 30 kDa protein was not detected in the pectoralis superficialis muscle of line 412 chickens. However, the immunoreactive bands were detected in the sartorius muscle and the tensor fasciae latae muscle from dystrophic and normal chickens. Interestingly, the immunoreactive bands of normal skeletal muscles are smaller in molecular weight than those of dystrophic skeletal muscles. To determine the early time sequence of the appearance of the abnormal protein, we studied muscles from embryos and post-hatched chickens at various ages. The abnormal protein was detected in dystrophic muscles as early as 15 days ex ovo and occurred throughout development up to six months ex ovo. Although the implication of the dystrophy-associated appearance of the 30 kDa protein in the affected muscle is not clear at present, it would be of particular interest to elucidate the biochemical functions of the 30 kDa protein in the affected muscle (pectoralis superficialis muscle) of genetically dystrophic chicken.  相似文献   

5.
Dystrophic chicken breast muscle mitochondria contain significantly less mitochondrial creatine kinase than normal breast muscle mitochondria. Breast muscle mitochondria from normal 16- to 40-day-old chickens contain approximately 80 units of mitochondrial creatine kinase per unit of succinate:INT (p-iodonitrotetrazolium violet) reductase, a mitochondrial marker, while dystrophic chicken breast muscle mitochondria contain 36-44 units. Normal chicken heart muscle mitochondria contain about 10% of the mitochondrial creatine kinase per unit of succinate:INT reductase as normal breast muscle mitochondria. The levels in heart muscle mitochondria from dystrophic chickens are not affected significantly. Evidence is presented which shows that the reduced level of mitochondrial creatine kinase in dystrophic breast muscle mitochondria is responsible for an altered creatine linked respiration. First, both normal and dystrophic breast muscle mitochondria respire with the same state 3 and state 4 respiration. Second, the post-ADP state 4 rate of respiration of normal breast muscle mitochondria in the presence of 20 mM creatine continues at the state 3 rate. However, the state 4 rate of dystrophic breast muscle mitochondria and mitochondria from other muscle types with a low level of mitochondrial creatine kinase, such as heart muscle and 5-day-old chicken breast muscle, is slower than the state 3 rate. Third, dystrophic breast mitochondria synthesize ATP at the same rate as normal breast muscle mitochondria but rates of creatine phosphate synthesis in 20-50 mM Pi are reduced significantly. Finally, increasing concentrations of Pi displace mitochondrial creatine kinase from mitoplasts of normal and dystrophic breast muscle mitochondria with the same apparent KD, indicating that the outer surface of the inner mitochondrial membrane and the mitochondrial creatine kinase from dystrophic muscle are not altered.  相似文献   

6.
The rates of loss of adenylate kinase and creatine kinase from the circulation after intravenous injection of homogenous chicken skeletal muscle enzymes were examined to determine the role of plasma clearance rates in determining the plasma levels of these enzymes in normal and dystrophic chickens. The rapid clearance of adenylate kinase activity (average half-life of 5 min) and the slower biphasic clearance of creatine kinase activity (average half-lives of 0.95 and 11 hr) are consistent with the elevation of creatine kinase but not adenylate kinase in the blood plasma of dystrophic chickens compared to normal chickens. The rates of clearance of these enzymes were similar in normal chickens compared to dystrophic chickens. Radioiodinated enzymes were cleared at similar, but slightly more rapid rates than the loss of enzyme activity. The loss of adenylate kinase activity from the circulation may be due in part to inactivation since adenylate kinase activity is rapidly inactivated in serum in vitro, and because no increase in adenylate kinase activity is observed in the most specific sites of clearance of the radioiodinated enzyme, the liver and spleen. The comparison of enzyme activities in press juices to the activities in high-ionic-strength homogenates of muscle tissue from normal and dystrophic muscle, indicates that adenylate kinase activity is not associated with intracellular structures to the extent that would prohibit release from dystrophic muscle tissue. These results, and those presented previously with regard to plasma levels and clearance rates of AMP aminohydrolase and pyruvate kinase in normal and dystrophic chickens (11) support our hypothesis that the rates of loss of muscle enzyme activities from the circulation are important in determining the circulating levels of muscle enzymes in dystrophic chickens. Furthermore, from the measurement of plasma levels and clearance rates of creatine kinase, it was estimated that the efflux rate of creatine kinase from dystrophic muscle tissue is 2.0% of the total breast muscle creatine kinase per day.  相似文献   

7.
The association of an altered cytoplasmic microtubule complex in cells of the dystrophic chicken was investigated. Dystrophic chickens of lines 304 and 413 were compared with their genetically matched control, 412 (obtained from UC, Davis). Explants and trypsin-dissociated tissues were prepared from breast and heart muscles of chickens at 1, 3, 7, 14, 20, 40, 80 and 120 days ex ovo. The cells were cultured for 7 days and then processed for antitubulin immunofluorescence. Over 90% of the cells displayed an extensive cytoplasmic microtubule complex, although there was significant elevation of creatine phosphokinase in the dystrophic chickens after 20 days ex ovo. In both dystrophic and control preparations, one to two distinct functionally intact microtubule-organizing centers per cell were observed. Dystrophic and control chicken brain extracts demonstrated essentially the same extent of microtubule assembly as assayed by turbidity increase and protein in sedimentable polymer. SDS-PAGE revealed no significant differences in the microtubule proteins polymerized from the dystrophic and control brains. These results suggest that no significant alteration occurs in the structure, assembly or distribution of cytoplasmic microtubules in the cells of the dystrophic chicken.  相似文献   

8.
We recently observed that, around the time of hatching, chick skeletal muscles synthesize and secrete apolipoprotein A1 (apo-A1) at high rates and that reinitiation of synthesis of this serum protein to high levels occurs in mature chicken breast muscle following surgical denervation (Shackelford, J. E., and Lebherz, H. G. (1983) J. Biol. Chem. 258, 7175-7180; 14829-14833). In the present work we investigate the effect of avian muscular dystrophy on the synthesis of apo-A1 in chicken muscles. The relative rate of synthesis of apo-A1 and levels of apo-A1 RNA in mature dystrophic breast (fast-twitch) muscle were about 6-fold higher than normal, while synthesis of apo-A1 in breast muscles derived from 2-day-old dystrophic chicks was close to normal. These observations suggest that the elevated apo-A1 synthetic rate in mature dystrophic breast muscle results from a failure of the diseased tissue to "shut down" apo-A1 synthesis to the normal level during postembryonic maturation. Apo-A1 synthesis in the "slow-twitch" lateral adductor muscle of dystrophic chickens was found to be normal. Our work is discussed in terms of the apparent similarities between the effects of surgical denervation and muscular dystrophy on the protein synthetic programs expressed by chicken skeletal muscles.  相似文献   

9.
Compared to that of genetically-related normal chickens, pectoralis muscle from the dystrophic chicken contained increased calmodulin measured by radioimmunoassay. Determined by the dot blot procedure, expression of the calmodulin gene was enhanced in muscle from affected animals. The bioactivity of the gene product was normal. Together with previous studies reporting increased cell Ca2+ content in dystrophic muscle, the current findings of increased sarcoplasmic calmodulin suggest the latter is a cellular response to defective Ca2+ transport at the level of cell efflux or intracellular organelle (sarcoplasmic reticulum) uptake.  相似文献   

10.
Abnormal collagen synthesis in skeletal muscle of dystrophic chicken   总被引:1,自引:0,他引:1  
Specific molecular properties of skeletal muscle collagens from normal and dystrophic chickens have been compared. When dystrophy develops in skeletal muscle tissue there was an increase in the amount of total collagen and an increased proportion of Type III collagen in the tissue. The results from the cross-link study as well as the analysis of the solubility of collagen showed that skeletal muscle of dystrophic chicken produces more immature collagen fibers compared to normal chicken. These findings strongly indicate an important role of collagen in the pathogenesis of the extensive connective tissue prolipheration characteristic of muscular dystrophies.  相似文献   

11.
The Ca2+ +Mg2+-dependent adenosinetriphosphatase (EC 3.6.1.3) and calsequestrin have been isolated from the sarcoplasmic reticulum of normal and dystrophic chicken muscle. The adenosinetriphosphatases, isolated from the two lines of chickens were identical in molecular weight, enzyme activity and in Ca2+ +Mg2+-dependence. Calsequestrins isolated from the two lines bound identical amounts of calcium. There were no differences in the Ca2+ transport functions of the sarcoplasmic reticulum membrane, isolated from the two lines of chickens. These results indicate that morphological differences in dystrophic chicken sarcoplasmic reticulum, described by Sabbadini et al (Sabbadini, R., Scales, D. Inesi, G. FEBS Lett. 54, 8 (1975), cannot be ascribed to qualitative differences in the adenosinetriphosphatase or calsequestrin.  相似文献   

12.
Neural regulation of mature normal fast twitch muscle of the chicken suppresses high activity, extrajunctional localization, and isozyme forms of acetylcholinesterase (AChE) characteristic of embryonic, denervated and dystrophic muscle. Normal adult slow tonic muscle ofthe chicken retains intermediate levels of activity and embryonic isozyme forms but not extrajunctional activity; it is not affected by muscular dystrophy. The hypothesis that neural regulation of the AChE system is lacking in slow tonic muscle and thus not affected by dystrophy was tested by denervating the fast twitch posterior latissimus dorsi and slow tonic anterior latissimus dorsi muscles of normal and dystrophic chickens. Extrajunctional AChE activity and embryonic isozyme forms increased, then declined, in both muscles. The results suggest that ocntrol of AChE is qualitatively similar in slow tonic and fast twitch muscle of the chicken.  相似文献   

13.
An increased rigidity of erythrocyte membranes in four-week old dystrophic chickens compared to closely related normal controls has been suggested using electron spin resonance. These findings suggest that similar to the case of human Duchenne muscular dystrophy, chicken muscular dystrophy may be associated with a generalized membrane defect.  相似文献   

14.
A skeletal muscle membrane fraction enriched in sarcoplasmic reticulum (SR) contained Ca2+-ATPase activity which was stimulated in vitro in normal chickens (line 412) by 6 nM purified bovine calmodulin (33% increase over control, P less than 0.001). In contrast, striated muscle from chickens (line 413) affected with an inherited form of muscular dystrophy, but otherwise genetically similar to line 412, contained SR-enriched Ca2+-ATPase activity which was resistant to stimulation in vitro by calmodulin. Basal levels of Ca2+-ATPase activity (no added calmodulin) were comparable in muscles of unaffected and affected animals, and the Ca2+ optima of the enzymes in normal and dystrophic muscle were identical. Purified SR vesicles, obtained by calcium phosphate loading and sucrose density gradient centrifugation, showed the same resistance of dystrophic Ca2+-ATPase to exogenous calmodulin as the SR-enriched muscle membrane fraction. Dystrophic muscle had increased Ca2+ content compared to that of normal animals (P less than 0.04) and has been previously shown to contain increased levels of immuno- and bioactive calmodulin and of calmodulin mRNA. The calmodulin resistance of the Ca2+-ATPase in dystrophic muscle reflects a defect in regulation of cell Ca2+ metabolism associated with elevated cellular Ca2+ and calmodulin concentrations.  相似文献   

15.
The pathogenesis of the human muscular dystrophies is unknown, and several competing hypotheses have been proposed. The vascular hypothesis states that muscle fibre necrosis occurs in dystrophy as a result of transient muscle ischemia. Although abnormalities of the vascular system may be demonstrated in dystrophy, their role in pathogenesis remains obscure. The responses to serotonin (5-HT) and noradrenaline (NA) were examined in isolated ischiatic artery preparations from normal and genetically dystrophic chickens. The tension generated in response to 5-HT was greater in arteries from normal chickens than in arteries from dystrophic chickens, whereas responses to NA were similar. Analysis of the concentration-response relationships demonstrated that the dystrophic ischiatic artery was less sensitive to 5-HT than was the normal artery, although the sensitivity to NA was similar in both vessels. The results of this study are not consistent with the view that muscle fibre necrosis in avian dystrophy is a consequence of muscle anoxia. These data do demonstrate pharmacological differences between dystrophic avian arteries and arteries from normal chickens, but their presence may represent merely the expression of dystrophy in vascular smooth muscle.  相似文献   

16.
The major (14)C-labelled peptides from creatine kinase from normal and dystrophic chicken muscle obtained by carboxymethylating the reactive thiol groups with iodo[2-(14)C]acetic acid and digestion with trypsin were purified by ion-exchange chromatography on Dowex-50 (X2) and by paper electrophoresis. The chromatographic characteristics of the (14)C-labelled peptides, their electrophoretic mobilities at pH6.5, and their amino acid compositions were identical for the two enzymes. The sequence of amino acids around the essential thiol groups of creatine kinase from normal and dystrophic chicken muscle was shown to be Ile-Leu-Thr-CmCys-Pro-Ser-Asn-Leu-Gly-Thr-Gly-Leu-Arg (CmCys, carboxymethylcysteine). This sequence is almost identical with that for the creatine kinases in human and ox muscle and bovine brain and is very similar to that of arginine kinase from lobster muscle. Antibodies to the enzymes were raised in rabbits and their reaction with the creatine kinase from normal and dystrophic muscles in interfacial, immunodiffusion and immunoelectrophoretic experiments was studied. The cross-reaction between normal muscle creatine kinase and antisera against the dystrophic muscle enzyme (or vice versa) observed by immunodiffusion and by immunoelectrophoretic experiments further suggests that the enzymes from normal and dystrophic chicken muscle are similar in structure. The results of the present study, the identical amino acid sequence of the peptides containing the reactive thiol group from both the normal and dystrophic chicken muscle enzymes and the immunological similarities of the two enzymes are in accord with the similarity of the two enzymes observed by Roy et al. (1970).  相似文献   

17.
Two new lines of chickens with near identical genotypes (greater than 90% isogeneity), one demonstrating avian dystrophy, were used for isolation of sarcopalsmic reticulum vesicles. Vesicles from line 433 (dystrophic) displayed reduced Ca2+-ATPase activity, phosphoenzyme formation and steady-state calcium transport capabilities in comparison with vesicles from line 03 (normal). Lipid analyses show that dystrophic vesicles have greater amounts of cholesterol and lesser amounts of phosphatidylcholine. The results support the use of isogenic chickens in further studies of avian dystrophy. However, the results also suggest that current sarcoplasmic reticulum vesicle purification procedures dependent on differential calcium accumulation may not fully achieve the intended purpose.  相似文献   

18.
We have isolated sarcoplasmic reticulum from normal and dystrophic chicken muscle, using an improved isolation procedure. Dystrophic sarcoplasmic reticulum has a reduced level of calcium-sensitive ATPase activity, phosphoenzyme formation, and steady-state calcium transport. Anion-stimulated calcium transport by dystrophic sarcoplasmic reticulum is also reduced when measured under the proper conditions, and dystrophic sarcoplasmic reticulum shows no alteration in calcium efflux rate. Active calcium phosphate loading of the normal and dystrophic sarcoplasmic reticulum preparations indicates that a reduced percentage jof the dystrophic vesicles are capable of active calcium transport. The loaded dystrophic sarcoplasmic reticulum vesicles exhibit the same relative reductions in enzymatic activity as the starting sarcoplasmic reticulum preparations. However, the enzyme activities of normal and dystrophic sarcoplasmic reticulum are similar in the presence of detergent and exogenous phospholipid. On the basis of these results, we suggest that the lipid microenvironment of the dystrophic enzyme is altered.  相似文献   

19.
Adult hereditary muscular dystrophic (MD) chickens were compared with normal chickens for properties of the reticuloendothelial and lymphoid systems. Storrs strain MD chickens exhibited elevated levels of blood heterophils with reduced lymphocytes compared with normal Hyline SC strain chickens. Of the lymphocytes, MD chickens possessed a greater incidence of E-rosette forming cells than were present in SC adults. Similarly, MD spleens possessed more adherent cells with a greater incidence of heterophils than were found in SC chickens. This difference also extended to the peritoneal cavity. Recruitment of peritoneal exudate cells into the cavity with Sephadex stimulation led to a greater incidence of heterophils at the expense of macrophages in MD compared with SC chickens. These findings are discussed in light of the recent detection of a specialized adherent suppressor cell population in MD chickens, and with reference to the muscle disease.  相似文献   

20.
The involvement of membrane protein in dystrophic chicken fragmented sarcoplasmic reticulum alterations has been examined. A purified preparation of the (Ca2+ + Mg2+)-ATPase protein from dystrophic fragmented sarcoplasmic reticulum was found to have a reduced calcium-sensitive ATPase activity and phosphoenzyme level, in agreement with alterations found in dystrophic chicken fragmented sarcoplasmic reticulum. An amino acid analysis of the ATPase preparations showed no difference in the normal and dystrophic (Ca2+ + Mg2+)-ATPase. The (Ca2+ + Mg2+)-ATPase was investigated further by isoelectric focusing and proteolytic digestion of the fragmented sarcoplasmic reticulum. Neither of these methods indicated any alteration in the composition of the dystrophic (Ca2+ + Mg2+)-ATPase. We have concluded that the alterations observed in dystrophic fragmented sarcoplasmic reticulum are not due to increased amounts of non-(Ca2+ + Mg2+)-ATPase protein, and that the normal and dystrophic (Ca2+ + Mg2+)-ATPase protein are not detectably different.  相似文献   

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