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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Metabolic profile of myosin heavy chain-based fiber types in the rat soleus after spinal cord transection

Otis, Jeffrey Scott 14 November 2000 (has links)
Fully differentiated muscle fibers can undergo considerable phenotypic changes in order to adjust to changing conditions of the physiological environment. It is generally accepted that the electrical impulses a muscle receives play a role in modulating the quantities of metabolic proteins (glycolytic and oxidative enzymes) and types of contractile proteins (myosin heavy chain, MHC) that are expressed. Research has shown that decreased neuromuscular activation following spinal cord transection (ST) results in adaptations in the physiological characteristics of paralyzed muscles, including atrophy and an accompanying loss of force production, and transformations of contractile and metabolic proteins toward a more fatigable state. However, it remains unclear whether or not a strong interdependence of energy metabolism and MHC isoform composition persists. Therefore, the goal of this study was to identify and quantify relative myosin heavy chain (MHC) isoform expression and metabolic enzyme profile adaptations at multiple time points (1, 3 and 6 months) in soleus fibers of rats following spinal cord transection (ST). To accomplish this, female Sprague-Dawley rats (~150 g, n = 15) were subjected to complete transection of the spinal cord at a mid-thoracic level. Age and weight-matched, non-operated rats served as controls (n = 15). The soleus was processed for quantitative single fiber histochemical analyses for succinate dehydrogenase (SDH, oxidative marker) and a-glycerophosphate dehydrogenase (GPD, glycolytic marker) activities (~30 fibers/muscle) and immunohistochemical analysis for MHC isoform composition. The total number of soleus fibers analyzed was ~900. Oxidative capacity was increased in muscle fibers at all time points after ST. Specifically, SDH activity was significantly higher than controls by 142, 127 and 206% at 1, 3 and 6 months post-ST, respectively. ISDH, a measure of total oxidative power, also increased in muscle fibers at all time points after ST. For example, 6 months after ST ISDH activity was 93% higher than controls (91.8-3.8 vs. 47.6-0.9 OD x 10-3, respectively). Glycolytic capacity peaked one month after ST. Thereafter, glycolytic capacity of all fibers steadily declined. For example, by 6 months, GPD activity had declined by 76% compared to 1 month GPD activities (3.3-0.2 vs. 13.7-1.4 OD x 10-3, respectively). These data suggest that the increases in glycolytic capacity are transient as fibers transition toward a faster MHC phenotype and then return towards control levels as fibers of a given type become phenotypically stable. The GPD/SDH ratio, an index of metabolic substrate utilization, peaked at one month after ST (394-41) and significantly decreased at 3 months (224-10) and at 6 months (95-7) after ST. Therefore, a shift occurred such that a greater dependence on oxidative metabolism was apparent. These data suggest that the oxidative capacities of soleus muscle fibers are not compromised after ST. In fact, as the fibers transitioned toward faster MHC isoforms, the GPD/SDH ratio was maintained or decreased, suggesting a reliance on oxidative metabolism regardless of MHC isoform composition. This might imply a dissociation between the contractile and metabolic characteristics of paralyzed soleus muscle fibers. However, these data are consistent with previous data and suggest that the increased fatigability observed after chronic reductions in neuromuscular activity are not due to compromised capacities for ATP synthesis. / Master of Science
12

Development of method for myosin- and actin-measurements in musclefibers

Corpeno, Rebeca January 2008 (has links)
<p>The purpose of this study was to gain more knowledge about the deleterious effects of decreased muscle protein concentration on skeletal muscle function, by measuring the concentrations of myosin and actin in single pig muscle fibres. The pigs were earlier used in an experimental animal model to study the early stages of acute quadriplegic myopathy (AQM), a disease that is found in mechanically ventilated intensive care unit patients. Percutaneous biopsies were taken from these pigs and where now used in this study.</p><p>Even though the method used was accurately tested and theoretically working, certain problems arose. These problems were unexpected and caused problems to the study. The method used to measure the concentration of myosin and actin, an ELISA, gave no logical results. The reason could not be found and because of the time limit of this project no results from the AQM-pigs were gained. The efforts to make the method work is described and discussed.</p>
13

Caracterização da variação do calibre das fibras musculares, densidade capilar e expressão de miosina neonatal nos músculos masseter e temporal / Characterization of the variety on cross sectional area, capillary density and neonatal myosin expression in the masseter and temporalis muscle

Ferreira, Mariana Brandão 21 October 2009 (has links)
A Disfunção temporomandibular (DTM) é um termo coletivo que abrange um largo espectro de problemas clínicos da articulação e dos músculos na área orofacial; estas disfunções são caracterizadas principalmente por dor, sons na articulação, e função irregular ou limitada da mandíbula. Os músculos da mastigação podem estar envolvidos na DTM de origem muscular, e por definição são os músculos que promovem o toque dental, portanto os elevadores da mandíbula: masseter, temporal, pterigóideos medial e lateral. A origem muscular da DTM é a mais prevalente, sendo portanto,o entendimento funcional e estrutural da composição dos músculos da mastigação essencial para a compreensão desta DTM. Este estudo tem como objetivo analisar a estrutura dos músculos da mastigação quanto a variação do calibre das fibras lentas e rápidas, densidade capilar e da expressão da miosina neonatal com a variação da idade. Foram estudadas 37 amostras dos músculos temporal e masseter (20 amostras do sexo masculino e 17 do sexo feminino) de autópsias do Serviço de Verificação de Óbitos de São Paulo com intervalo pós-mortem de até 18 horas, de ambos os gêneros e com idades divididas por décadas (1a a 9a décadas). Foram realizadas reações imunoistoquímicas com os anticorpos Ulex europaeus biotinilada aglutinina, anti-miosina neonatal, anti-miosina rápida, anti-miosina lenta para análise da expressão das proteínas. A avaliação foi feita por dois observadores, após calibração intra observador, (duas contagens no mesmo campo pelo mesmo observador em tempos diferentes) e inter observador (contagem do mesmo campo por dois observadores), até se atingir uma margem de erro menor que 10%. Em relação ao número de capilares/fibra, nos músculos masseter e temporal, da primeira a nona década, em média respectivamente foi de 1 e 0,7 respectivamente. O número de capilares por mm², nos músculos masseter e temporal, não variou ao longo das nove décadas estudadas, e o número de capilares por mm², foi significantemente maior no músculo masseter quando comparado ao temporal, (p=0,025). A miosina neonatal manteve-se presente embora com decréscimo em todas as décadas dos músculos masseter e temporal. Observou-se o diâmetro das fibras do tipo II menores que as fibras do tipo I / Temporomandibular disfunction (TMD) is a colletive term that refers to different clinical problems of the temporomandibular joint and the jaw muscles. These disfunctions are characterizied meanly by pain, joint sounds and irregular or limited mandibular function. The jaw muscles can be involved in the TMD of muscle etiology, and by definition they are the ones which provide the teeth touch, then the jaw elevators: masseter, temporalis, medial pterygoid and lateral pterygoid. As the muscular etiology is the most prevalent cause of TMD, the detailed understanding of structural and functional composition of the masticatory muscles is paramount to better comprehend TMD due to muscle disorder. This study has the aim to analyze the jaw muscle structure concerning capillarie density, neonatal myosin expression, and the cross sectional area of the fast and slow fibers in temporalis and masseter muscles in autopsy samples from 1st to 9th decades of age. Thirty seven temporalis and masseter muscles samples were studied (20 from male and 17 from female) from Serviço de Verificação de Óbitos of São Paulo. The specimens were divided by gender and ages. The samples were collected up to 18 hours post-mortem. Imunohistochemistry stainning were made with antibodies to analize the protein expression. The evaluations were made by two observers, after intra observer calibration (two evaluations on the same field by the same observer in different times) and inter observer (evaluation of the same field by two observers), unti getting less than 10% of error. The number of capillaries per fiber in the masseter and temporalis muscle was in average 1 and 0,7 respectively. The number of capillaries per mm² was significantly higher in the masseter when compared to temporalis muscle (p=0.025). The neonatal myosin was present in all decades in both muscles, and it was observed that the cross sectional area of the type II fibers was smaller than the type I fibers
14

Survival and Differentiation of Implanted Skeletal Myoblasts in the Native and in the Cryoinjured Myocardium

Razvadauskaite, Giedre 06 January 2003 (has links)
Myocardial infarction results in tissue necrosis, leading to cell loss and ultimately to cardiac failure. Implantation of immature progenitor cells into the scar area may compensate for the cell loss and provides a new therapeutic avenue for infarct treatment. Premature myoblasts derived from skeletal muscle are one of the best candidates for this therapeutic purpose, because biopsies used for autologous cell therapy can be accessed easily, the isolated myoblasts can proliferate well in vitro, and the skeletal and cardiac muscles are structurally and functionally similar. In this study we investigated the survival and differentiation of the implanted skeletal myoblasts in the non-cryoinjured myocardium and the myocardial scar, using a syngeneic Lewis rat model. A therapeutic dose of 4x106 skeletal myoblasts/animal was implanted into the non-cryoinjured and scar tissue, and the fate of the implant was monitored at 12, 28 and 56 days after implantation by immunohistochemistry. We detected fast myosin heavy chain (fMHC) expression at each time point but significantly fewer positive cells in the scar than in the non-injured tissue. This was consistent with the staining patterns of slow myosin heavy chain (sMHC) and myogenin that overlapped with fMHC positive areas. Although the implanted myoblasts differentiated into skeletal muscle cells, they did not transdifferentiate into cardiac muscle, demonstrated by the absence of cardiac troponin I expression. During this analysis we developed a model, which could be useful to test new strategies for myoblast implantation (dosage, genetic modification, new injection technique etc.) designed to promote better engraftment of cultured myoblasts in the myocardial scar.
15

Extra- and intrafusal muscle fibre type compositions of the human masseter at young age. : In perspective of growth and functional maturation of the jaw-face motor system.

Österlund, Catharina January 2011 (has links)
Muscles control body posture and movement by extrafusal and intrafusal (muscle spindle) fibres. The purpose of this thesis was to provide insight into the muscular basis for human jaw function at young age. Extrafusal and intrafusal fibres in the young masseter, and for comparison young biceps, were examined for composition of fibre types and myosin heavy chain (MyHC) isoforms by means of morphological, enzyme-histochemical, biochemical and immuno-histochemical techniques. For evaluation of plasticity during life span the data for young muscles were compared with previous reported data for adult and elderly muscles. The results showed significant differences in extrafusal fibre types and MyHC expression between young masseter and young biceps and between young masseter and masseter in adults and elderly. Compared with young biceps, young masseter was more intricate in composition of extrafusal MyHC expression. Muscle spindles were larger and more frequent in the masseter than in the biceps. Masseter and biceps muscle spindles showed fundamental similarities but also marked differences in MyHC expression. The results suggest that the young masseter is specialized in fibre types already at young age and shows a unique fibre type growth pattern. Whereas masseter extrafusal fibres display marked plasticity in fibre types and MyHC isoforms during life span muscle spindles/intrafusal fibres are morphologically mature already at young age and precede extrafusal fibres in growth and maturation. Results showed similarities in intrafusal MyHC expression between young masseter and biceps, but also differences implying muscle specific proprioceptive control. Differences in fibre types and MyHC expression between young masseter and young biceps extrafusal fibres are proposed to reflect diverse evolutionary and developmental origins and accord with the masseter and biceps being separate allotypes of muscle.
16

Development of method for myosin- and actin-measurements in musclefibers

Corpeno, Rebeca January 2008 (has links)
The purpose of this study was to gain more knowledge about the deleterious effects of decreased muscle protein concentration on skeletal muscle function, by measuring the concentrations of myosin and actin in single pig muscle fibres. The pigs were earlier used in an experimental animal model to study the early stages of acute quadriplegic myopathy (AQM), a disease that is found in mechanically ventilated intensive care unit patients. Percutaneous biopsies were taken from these pigs and where now used in this study. Even though the method used was accurately tested and theoretically working, certain problems arose. These problems were unexpected and caused problems to the study. The method used to measure the concentration of myosin and actin, an ELISA, gave no logical results. The reason could not be found and because of the time limit of this project no results from the AQM-pigs were gained. The efforts to make the method work is described and discussed.
17

Celluar and Molecular Mechanisms Underlying Regulation of Skeletal Muscle Contraction in Health and Disease

Li, Mingxin January 2010 (has links)
Morphological changes, genetic modifications, and cell functional alterations are not always parallel. Therefore, assessment of skeletal muscle function is an integral part of the etiological approach. The general objective of this thesis was to look into the cellular and molecular events occurring in skeletal muscle contraction in healthy and diseased condition, using a single fiber preparation and a single fiber in vitro motility assay, in an attempt to approach the underlying mechanisms from different physiological angles. In a body size related muscle contractility study, scaling of actin filament sliding speed and its temperature sensitivity has been investigated in mammals covering a 5,500-fold difference in body mass. A profound temperature dependence of actin filament sliding speed over myosin head was demonstrated irrespective of MyHC isoform expression and species. However, the expected body size related scaling within orthologus myosin isoforms between species failed to be maintained at any temperature over 5,500-fold range in body mass, with the larger species frequently having faster in vitro motility speeds than the smaller species. This suggest that apart from the MyHC iso-form expression, other factors such as thin filament proteins and myofilament lattice spacing, may contribute to the scaling related regulation of skeletal muscle contractility. A study of a novel R133W β-tropomyosin mutation on regulation of skeletal muscle contraction in the skinned single fiber prepration and single fiber in vitro motility assay suggested that the mutation induced alteration in myosin-actin kinetics causing a reduced number of myosin molecules in the strong actin binding state, resulting in overall muscle weakness in the absence of muscle wasting. A study on a type IIa MyHC isoform missense mutation at the motor protein level demonstrated a significant negative effect on the function of the IIa MyHC isoform while other myosin isoforms had normal function. This provides evidence that the pathogenesis of the MyHC IIa E706K myopathy involves defective function of the mutated myosin as well as alterations in the structural integrity of all muscle irrespective of MyHC isoform expression.
18

Mechanistic and Genetic Biases in Human Immunoglobulin Heavy Chain Development

Volpe, Joseph M 23 April 2008 (has links)
Broadly neutralizing antibodies against HIV are rare; most patients never develop them at detectable levels. The discovery of four such antibodies therefore warrants research into their origins and their presumed unique characteristics. Such studies, however, require baseline knowledge about commonalities and biases affecting human immunoglobulin development. Obtaining that knowledge requires large sets of gene sequence data and the appropriate statistical techniques and tools. The Genbank repository provides a free and easily accessible source for such data. Several large datasets cumulatively comprising over 10,000 human Ig heavy chain genes were identified, downloaded, and carefully filtered. We then developed a special software tool called SoDA, which employs a unique dynamic programming algorithm to provide a statistical reconstruction of the events that led to a given antigen receptor gene. Once developed, tested, and peer-reviewed, we used SoDA to provide initial data about each downloaded gene with respect to gene segment usage, n-nucleotide addition, CDR3 length, and mutation frequency, thereby establishing the most precise estimates currently available for human Ig heavy chain gene segment usage frequencies. We compared data from productive non-autoreactive Ig to non-productive Ig and found evidence for gene segment usage biases, D/J segment pairing preferences resulting from multiple sequential D-to-J recombination events, and biases in TdT action between the V-D and D-J. Further analysis of autoreactive Ig genes yielded evidence that n-nucleotide addition comes at a cost: the higher the ratio of n-nucleotides to germline-encoded nucleotides for a given CDR3 length, the greater the probability of autoreactivity. These results suggest that the germline gene segments have been selected for lack of autoreactivity. It has previously been shown that human Ig gene segments have evolved efficient evolvability under somatic hypermutation. We have now extended these results, showing that Ig gene sequences are "tuned" to preferentially produce consequential mutations in the antigen-binding domains, and synonymous mutations in the framework regions. Together, these analyses provide new insights into the genetic and mechanistic biases shaping the human Ig repertoire. / Dissertation
19

The evolutionary study of the immunoglobulin heavy chain genes of a bony fish, rainbow trout (Oncorhynchus mykiss)

Andersson, Elisabet January 1995 (has links)
<p>Diss. (sammanfattning) Umeå : Umeå universitet, 1995, härtill 5 uppsatser.</p> / digitalisering@umu
20

Regulation of germline transcription in the immunoglobulin heavy chain locus /

Laurencikiene, Jurga, January 2004 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.

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