KANK : a novel EB1 interactor and Drosophila orthologue of a conserved tumour suppressor

Clohisey, Sara Mary Rose

January 2014

The conserved human protein KANK1 has been identified as a tumour suppressor and its expression is down-regulated in several tumour types. Roles for this protein in actin regulation, cell migration and cell polarity have been documented in cultured mammalian cells. In C. elegans the KANK1 orthologue, VAB-19, is required for normal development as it helps stabilise attachment structures between muscle and epidermal cells. Despite these studies, the precise cellular role of KANK remains elusive. It was found that the Drosophila KANK orthologue binds directly to EB1, a crucial regulator of microtubule plus-end dynamics. I aimed to determine the role of KANK with respect to this indirect microtubule interaction using Drosophila. I identified residues which mediate the interaction between KANK and EB1, and showed they are essential for localisation of KANK to microtubule plus-ends in Drosophila culture cells. I found that KANK expression increases during embryogenesis and peaks in the late embryonic development when KANK is shown to localise to sites of attachment between muscle and epidermal cells. This suggests a role for the protein in stabilisation of muscle attachment during embryonic development, a process previously shown to require EB1. I generated a KANK deletion mutant and found they are viable and fertile but show a mild neuronal phenotype, specifically early branching of the neurons and less organised neuron bundles. My results suggest previously unknown roles for KANK in myogenesis and neurogenesis in Drosophila embryogenesis.

572

Zell-Zell- und Zell-Matrix-Kontakte während der Muskelentwicklung

Pacholsky, Dirk

January 2003

Im Rahmen dieser Arbeit wurden zwei humane Varianten des von Wang et al., 1999, erstmals beschriebenen muskelspezifischen Proteins Xin (Huhn und Maus) über Sequenzanalyse, Immunofluoreszenzmikroskopie, Transfektionsstudien und biochemischer Analyse näher charakterisiert. <br /> Die Proteine wurden mit human Xin related proteins 1 und 2 – hXirp1 und 2 –bezeichnet. Die Xin-Proteine enthielten bisher unbekannte, sowie spezifische, repetitive Motive, die aus jeweils mindestens 16 Aminosäuren bestanden. Ihre Aminosäuresequenz, mit einer Vielzahl weiterer putativer Motivsequenzen, verwies auf eine potentielle Funktion von hXirp als Adapterprotein in Muskelzellen. Das hier näher untersuchte hXirp1 lokalisierte an den Zell-Matrix-Verbindungen der Muskel-Sehnen-Übergangszone im Skelettmuskel, sowie an den Zell-Zell-Verbindungen der Glanzstreifen im Herzmuskel. Während der Muskelentwicklung zeigte hXirp1 eine sehr frühe Expression, zusammen mit einer prägnanten Lokalisation an den Prämyofibrillen und deren Verankerungsstrukturen, die auf eine Funktion des Proteins in der Myofibrillogenese deuten. Ektopische Expressionen von hXirp1 in einer Vielzahl von Nichtmuskel-Kulturzellen zeigten wiederum eine Lokalisation des Proteins an den Zell-Matrix-Kontakten dieser Zellen. Am Beispiel von hXirp1 und 2 wurde stellvertretend für die Familie der Xin-Proteine gezeigt, daß es sich bei den repetitiven Motiven um neuartige, F-Aktin bindende Sequenzmotive handelte. Die Xin-Proteine können somit als muskelspezifische, aktinbindende, potentielle Adapterproteine bezeichnet werden, denen eine strukturelle und funktionelle Beteiligung an der Verankerung der Myofibrillen im adulten Muskel, wie auch während der Myofibrillogenese zukommt. / The scope of this work was a further characterization of two human variants of the protein Xin which was reported for chicken and mouse in 1999 by Wang et al. Therefor sequence analysis, immunofluorescence microscopy, transfection studies and biochemical approaches were utilized.<br /> The proteins were named human Xin related proteins 1 und 2 – hXirp1 und 2. Xin-proteins possess specific repetitive motives consisting of a minimum of 16 amino acids each. Concerning further putative motive sequences hXirp is a potential adapter protein in the muscle cell. hXirp1 localized within the cell-matrix-contacts of the myotendinous junction in skeletal muscle as well as within the cell-cell-contacts of the intercalated disc in the cardiac muscle. During the development of muscle cells hXirp1 showed early expression as well as concise localization to premyofibrils and their anchorage structures indicating a potential role for this protein in myofibrillogenesis. Ectopic expression of hXirp1 in several non-muscle cells again revealed localization of this protein to cell-matrix contacts. Considering hXirp1 and 2 as an example for all Xin-proteins it was shown that the repetitive motives are new actin binding motives. The data indicated the Xin-proteins as muscle specific, actin binding and potential adapter proteins with implications in structure and function of anchorage of myofibrils in adult muscle and myofibrillogenesis.

Life sciences

The muscle cytoskeleton of mice and men : Structural remodelling in desmin myopathies

Carlsson, Lena

January 2001

The muscle fibre cytoskeleton of skeletal and heart muscle cells is composed mainly of intermediate filaments (IFs), that surround the myofibrils and connect the peripheral myofibrils with the sarcolemma and the nuclear membrane. Desmin is the first muscle specific IF protein to be produced in developing muscles and is the main IF protein in mature muscles. In skeletal muscle, desmin is particularly abundant at myotendinous and neuromuscular junctions. In the heart an increased amount of desmin is found at intercalated discs and in Purkinje fibres of the conduction system. Interactions between the IFs themselves, and between IFs and other structures such as Z-discs and the sarcolemma, are mediated by intermediate filament associated proteins (IFAPs). A transgenic mice model, which lacks the desmin gene have been developed to study the function of desmin. In these mice, morphological abnormalities are observed in both heart and skeletal muscles. Similar defects have been observed in human myopathies, caused by different mutations in the desmin gene. In the present thesis, skeletal and heart muscles of both wild type and desmin knock-out (K/O) mice have been investigated. Furthermore the cytoskeletal organisation in skeletal muscles from human controls and from a patient with desmin myopathy was examined. In the desmin K/O mice, no morphological alterations were observed during embryogenesis. These mice postnatally developed a cardiomyopathy and a muscle dystrophy in highly used skeletal muscles. Ruptures of the sarcolemma appear to be the primary event leading to muscle degeneration and fibrosis both in cardiac and affected skeletal muscles. In the heart the muscle degeneration gave rise to calcifications, whereas in skeletal muscles regeneration of affected muscle was seen. In mature wild type mice, the IF proteins synemin and paranemin, and the IFAP plectin were present together with desmin at the myofibrillar Z-discs, the sarcolemma, the neuromuscular junctions and the myotendinous junctions. Nestin was only found in these junctional regions. In desmin K/O mice, all four proteins were detected at neuromuscular and myotendinous junctions. The normal network of synemin and paranemin were not observed, whereas the distribution of plectin was preserved. In normal human muscles, synemin, paranemin, plectin and αB-crystallin were colocalised with desmin in between the myofibrils, at the sarcolemma and at myotendinous and neuromuscular junctions. In the human desmin myopathy, the distribution of desmin varied considerably. A normal pattern was seen in some fibres areas, whereas other regions either contained large subsarcolemmal and intermyofibrillar accumulations of desmin or totally lacked desmin. Nestin, synemin, paranemin, plectin and αB-crystallin also exhibited an abnormal distribution. They were often aggregated in the areas that contained accumulations of desmin. In cultured satellite cells from the patient, a normal network of desmin was present in early passages, whereas aggragates of desmin occurred upon further culturing. In the latter, also the nestin network was disrupted, whereas vimentin showed a normal pattern. αB-crystallin was only present in cells with a disrupted desmin network. Plectin was present in a subset of cells, irrespective of whether desmin was aggregated or showed a normal network. From the present study it can be concluded that an intact desmin network is needed to maintain the integrity of muscle fibres. Desmin may be an important component in the assembly of proteins, which connect the extrasarcomeric cytoskeleton with the extracellular matrix.

desmin

nestin

synemin

paranemin

plectin

αB-crystallin

skeletal muscle

heart muscle

myotendinous junction

motor endplate

costamere

DEFINING TISSUE LEVEL ARCHITECTURE CHANGES IN EXTRACELLULAR MATRIX DURING MURINE KIDNEY AND FORELIMB MYOTENDINOUS JUNCTION DEVELOPMENT

Sarah Noel Lipp (12455799)

25 April 2022

<p>  </p> <p>Congenital diseases of the kidney are the leading cause of chronic kidney disease in pediatric patients. Tissue engineering models used to investigate these diseases are limited by an immature phenotype. Models cultured in an extracellular matrix (ECM), a network of proteins and glycosaminoglycans surrounding cells and providing structural support that mimic the matrix found in development will be likely more mature. However, developing kidney ECM composition and structural dynamics are unknown. To address this gap, we studied ECM composition using mass spectrometry and organization by visualizing the ECM in 3D.</p> <p>In this work, we used mass spectrometry to resolve ECM basement membrane and interstitial matrix dynamics between embryonic, perinatal, and adult kidneys. Surprisingly, we observed a transient upregulation of interstitial matrix structures that corresponded to dynamic 3D structures in the cortex (vertical fibers) and at the corticomedullary junction (medullary ray sheath fibers). Notably, in a model of abnormal <em>Foxd1</em>+ stromal cells, the vertical fibers were disorganized, and medullary ray sheath fibers were no longer associated with blood vessels, suggesting the dynamic 3D structures depended on stromal cell modulation.</p> <p>One of the effects of abnormal kidney development is decreased amniotic fluid, which limits embryonic movement and subsequent limb development. In additional studies, we looked at the implications of the lost motility in the muscular dysgenesis (<em>mdg</em>) mouse on the development of the myotendinous junction (MTJ). The MTJ links contractile muscle with tendon. We found the ECM protein COL22A1 was specific to the developing MTJ as early as embryonic day (E)13.5. The development of the MTJ from a linear structure to a cap-like structure with invaginations in adolescent mice depended on muscle contraction. Furthermore, we used a model to decouple the muscle-tendon-bone complex at an ectopic lateral triceps insertion (<em>Prrx1Cretg/+; Tbx3fl/fl</em>). We observed disorganized tendon and MTJ markers at the termination of the ectopic lateral triceps muscle but negligible cartilage markers. Together, this indicated MTJ maturation depended on motility but not on the enthesis.</p> <p>The information gleaned from our studies on how stromal cells affect dynamic 3D interstitial ECM structures and composition change during kidney development can be used as a template for 3D kidney culture systems. Combined with forelimb MTJ development, our results indicate the importance of the interstitial matrix in tissue morphogenesis.</p>

Biomechanical Engineering

limb bud

myotendinous junction (MTJ)

proteomics analysis

3D imaging

Kidney development.

Régulation de la myogenèse par l'acide rétinoïque / Regulation of myogenesis by retinoic acid

Schwartz, Marie-Elise

05 April 2012

L'acide rétinoïque (AR) régule la myogénèse embryonnaire. Dans le cadre de ce projet de thèse, nous avons d'une part utilisé l'AR pour moduler la myogénèse embryonnaire, dans la perspective d'étudier les conséquences de cette modulation sur le potentiel ultérieur de croissance et identifier les mécanismes moléculaires mobilisés.D'autre part, nous avons étudié la fonction de deux gènes régulés par l'AR et susceptibles de participer au contrôle de la myogénèse embryonnaire.La première partie du travail a été réalisée sur les modèles truite et poisson-zèbre. Nous avons montré que chez la truite comme chez le poisson zèbre, une incubation dans l'AR entrainait une activation de l'expression de Fgf8et de la différenciation des fibres musculaires rapides. Toutefois, chez la truite, nous n'avons pas pu mettre en évidence de régulation des MRF, indiquant qu'une autre voie est utilisée pour activer la myogénèse chez cette espèce.Dans la seconde partie de ce travail, la fonction de deux gènes régulés par l'AR et exprimés dans le mésoderme a été étudiée chez le poisson-zèbre. Le gène vertnin est exprimé essentiellement dans le tailbud. Quand il est inactivé par injection d'un oligo nucléotide morpholino antisens, on observe une altération de la formation des somites (mais pas de modification apparente du processus de segmentation) et une altération de l'intégrité des fibres lentes. Les fibres lentes sont en effet irrégulièrement espacées et les espaces au niveau des myoseptes verticaux peuvent être anormalement larges et les jonctions myotendineuses mal formées. Le gène arrestine β2aest exprimé dans les somites néo-formés puis également dans le mésoderme présomitique et le tailbud. Son inactivation par injection d'OM antisens entraine l'apparition du phénotype U-type et une altération de la morphologie des fibres lentes avec des fibres qui se détachent des jonctions myotendineuses. / Retinoic acid (RA) regulates embryonic myogenesis. During this thesis project, we first used RA to modulate embryonic myogenesis in order to study consequences of this modulation on the future potential for growth and to identify the underlying molecular mechanisms. Second part deals with the characterisation of the function of two genes regulated by the RA which may be involved in the control of embryonic myogenesis.The first part of the work was performed on the trout and zebrafish models. We have shown that in trout as in zebrafish, incubation in RA produced an activation of Fgf8 expression and differentiation of fast muscle fibers.However in trout, we did not observed regulation of MRF expression indicating that an alternative pathway isused to activate myogenesis in this species.In the second part of this work, the function of two genes regulated by the RA and expressed in the mesodermwas studied in zebrafish. The vertnin gene is expressed primarily in the tailbud. When it is inactivated by injection of antisense morpholino oligonucleotide, there is an alteration in the somites morphogenesis (but no apparent change in the process of segmentation) and impairment of the integrity of the slow muscle fibers. Slowfibers are indeed irregularly spaced and the vertical myosepta can be abnormally large. In addition myotendinous junctions display some abnormal branches. The arrestin β 2a gene is expressed in last formed somites and then also in the presomitic mesoderm and the tailbud. Its inactivation by injection of antisense MO leads to the appearance of the U-type phenotype and alteration of the slow muscle fibers morphology which detach frommyotendinous junctions

Myogénèse

Acide rétinoïque

Muscle

Jonction myotendineuse

Truite arc-en-ciel

Poisson zèbre

Myogenesis

Retinoic acid

Muscle

Myotendinous junction

Rainbow trout

Zebrafish

Le collagène XXII, composant de la jonction myotendineuse, est un nouveau gène candidat dans les dystrophies musculaires : étude fonctionnelle chez le poisson zèbre / The myotendinous junction, Collagen XXII as a new candidate gene for muscular dystrophies : a study in developing zebrafish

Charvet, Benjamin

05 April 2011

La jonction myotendineuse (JMT) est une interface spécialisée dans la transmission des forces entre le muscle et le tendon. Le collagène XXII (COLXXII) est un nouveau composant de cette jonction (Koch et al., 2004). COLXXII fait partie de la sous-famille des FACITs (Fibrils Associated Collagen with Interrupted Triple helix) qui se caractérisent par leur capacité à s’associer aux collagènes fibrillaires pour former des réseaux protéiques. La fonction de ce nouveau composant de la JMT n’est pas connue. C’est pourquoi nous avons décidé de réaliser une perte de fonction chez le poisson zèbre en utilisant la stratégie anti-sens morpholinos et d’en étudier le phénotype par différentes techniques. Chez l’embryon, le COLXXII est exprimé aux extrémités des fibres musculaires au niveau de leur ancrage sur le myosepte (structure équivalente au tendon des mammifères) pour être déposé à la JMT. Son expression est régulée par des membres de la famille des FGF, probablement FGF8. L’absence de COLXXII conduit à une perte des capacités contractiles du muscle et au détachement et à la rétractation progressive des fibres musculaires, causés par une rupture de la JMT qui s’opère entre la lame basale des fibres musculaires et la matrice tendineuse. Le morphotype induit par l’injection de morpholino COLXXII phénocopie les mutants sapje (mutant dystrophine) et candyfloss (mutation de la chaîne α2 des laminines) indiquant que COLXXII permet un lien structural entre le muscle et le tendon. Nos résultats montrent que COLXXII joue un rôle crucial dans le développement et la fonction de la JMT et représente un nouveau gène candidat pour les dystrophies musculaires. / The myotendinous junction (MTJ) is a specialized structure that transmits muscle contractile forces to tendon. Collagen XXII (COLXXII) is a novel component of MTJ (Koch et al., 2004). It belongs to the FACITs (Fibrils Associated Collagen with Interrupted Triple helix) subset of the collagen superfamily that is characterized by their capacity to mediate protein-protein interactions. The in vivo role of COLXXII has not been elucidated. Therefore, we decided to analyze its function in developing zebrafish using the morpholino-based knock-down strategy. We showed that its transcripts are exclusively expressed at the extremities of muscle fibers close to myoseptal tendons and the protein is deposited at the MTJ. The onset of COLXXII expression depends on FGF signaling, probably FGF8. Using different methods, we showed that loss of COLXXII induces morphofunctional alterations of muscle/tendon development and muscle weakness. Progressive muscle fiber detachment and retraction are observed in morphants that result from MTJ failure occuring at the muscle basement membrane/myosepta extracellular matrix side. The morphotype of the MO22-injected embryos is reminiscent to the sapje (dystrophin mutant) and candyfloss (laminin α2 chain mutation) mutant phenotypes indicating that COLXXII provides a molecular link between muscle and tendons. Our results suggest that COLXXII plays a crucial role in MTJ development and function and represents a novel candidate gene for muscular dystrophies.

Poisson zèbre

Collagène

Matrice extracellulaire

Jonction myotendineuse

Muscle

Myosepte

Développement

Dystrophie musculaire

Zebrafish

Collagen

Extracellular matrix

Myotendinous junction

Muscle

Myosepta

Development

Muscular dystrophy

572

Viskózní a elastické vlastnosti svalové a vazivové tkáně "in situ" / Viscous and elastic properties of soft tissue "in situ"

Moravcová, Kamila

January 2013

Title: Viscousand elastic properties of soft tissue"in situ" Goals and methods: The aim of this thesis is to measure the viscoelastic properties of human soleus muscle and Achilles tendonin vivo and post mortem in situ. It is a pilot study that uses myotonometry as the method of measurement. Based on the response of connective tissues on deformation made by tip of myotonometer, resp. its viscoelastic properties, curves in graphsare created. Three main described parameters of thecurveare steepness, deflection and its surface area. Main goal of the experiment is to compare properties of different types of tissue and their potential differences while denervated or innervated. Results of this study may help with better understanding of the soft tissues behavior in response to manual therapeutic contact. The study also describes the differences between in vivo and post mortem tissue properties that may be help further studies which use post mortem tissues to predict in vivo behavior. Results: Soft tissues in vivo have higher viscosity. In comparison, post mortem tissues have significantly higher stiffness and energy dissipation than in vivo. Elasticproperties of denervated soft tissue manifest with approx. 7 secondsdelay. Viscoelastic properties of muscle tissueshow changes depending on deeper...

Características estruturais e ultraestruturais da junção miotendínea do músculo esternomastóideo de ratos Wistar recém-nascidos, adultos e idosos / Structural and ultrastructural features of myotendinous junction of the sternomastoid muscle of newborns, adults and aged Wistar rats

Ciena, Adriano Polican

25 July 2013

A junção miotendínea (JMT) é a principal área de transmissão de força e de lesões do sistema muscular esquelético, atuando no posicionamento e estabilização articular. O estudo morfológico das estruturas e ultraestruturas da JMT do músculo esternomastóideo (EM) demonstrará as características desde o nascimento, ao revelar os esboços iniciais do desenvolvimento, sua completa formação na fase adulta e possíveis alterações e comprometimentos morfofuncionais em decorrência do processo fisiológico do envelhecimento. O objetivo do presente estudo consiste em descrever as características estruturais e ultraestruturais da JMT do músculo EM de ratos Wistar recém-nascidos, adultos e idosos empregando os métodos de microscopia de luz, microscopia eletrônica de varredura e microscopia eletrônica de transmissão. Foram utilizados 45 ratos Wistar, em três grupos (n=15): Grupo Recém-nascido: animais com 5 dias de vida; Grupo Adulto: animais com 4 meses de idade; Grupo Idoso: animais com 24 meses de idade. Os animais, após anestesia, foram dissecados os músculos EM e as JMT destes foram processadas de acordo com os métodos empregados. As características morfológicas da JMT do Grupo Recém-nascido revelaram o seu esboço durante o desenvolvimento, através da interação das células musculares e elementos da matriz extracelular, destacando delgadas dobras no sarcolema e elevada atividade celular através de inúmeras tenoblastos e mitocôndrias ovais aglomeradas. No Grupo Adulto revelaram características clássicas da JMT em destaque às dobras do sarcolema formando longas projeções denominadas de evaginações e invaginações sarcoplasmáticas. No Grupo Idoso foram observadas alterações na JMT, com espessamento em ambos os níveis das invaginações sarcoplasmáticas e nas comunicações centrais com as junções laterais, além de espessamento de feixes de fibras colágenas e redução celular nesta área. Conclui-se que a JMT desde os estágios iniciais de desenvolvimento ao envelhecimento apresentam intenso processo de formação, remodelamento e alterações em decorrência do processo fisiológico do envelhecimento. / The myotendinous junction (MTJ) is the main area of power transmission and injuries of the musculoskeletal system, working on positioning and joint stabilization. The morphological study of the structures and ultrastructures of JMT muscle esternomastóideo (EM) demonstrated characteristics from birth, to reveal initial development, its complete training in adulthood and possible changes and compromises morphofunctional due to the physiological process of aging. The aim of this study is to describe the structural and ultrastructural features of JMT muscle EM Wistar rat newborns, adults and the elderly employing the methods of light microscopy, scanning electron microscopy and transmission electron microscopy. We used 45 Wistar rats into three groups (n = 15): Newborn Group: animals with 5 days of life; Adult Group: animals with 4 months of age; Group Aged: animals 24 months of age. The animals, after anesthesia, the muscles were dissected and the MTJ these were processed in accordance with the methods employed. The morphological characteristics of the JMT Group Newborn revealed his sketch during development, through the interaction of muscle cells and extracellular matrix elements, highlighting the slender folds sarcolemma and high cellular activity through numerous mitochondria oval crowded and tenoblastos. In Adult Group revealed classic features of JMT with highlight the folds of the sarcolemma forming long projections denominated evaginations and invaginations of the sarcoplasmic membrane. In Aged Group changes were observed in the MTJ with thickening at both levels of sarcoplasmic invaginations and in communications with the central lateral junctions, and thickening of collagen fibers and reduced cell in this area. We conclude that the JMT since the early stages of development to aging have intense training process, remodeling and changes due to the physiological process of aging.

Aged

Envelhecimento

Junção miotendínea

Microscopia eletrônica de transmissão

Microscopia eletrônica de varredura

Muscle esternomastóideo

Músculo esternomastóideo

Myotendinous junction

Scanning electron microscopy

Transmission electron microscopy.

Le collagène XXII dans la formation et la fonctionnalité de la jonction myotendineuse chez le poisson zèbre, de l’embryon à l’âge adulte / Collagen XXII in zebrafish myotendinous junction formation and function, from embryogenesis to adulthood

Malbouyres, Marilyne

12 November 2018

Le collagène XXII (COLXXII) a été décrit, en 2004, comme un marqueur des jonctions tissulaires chez la souris. En particulier, la jonction myotendineuse (JMT) est une matrice extracellulaire spécialisée qui assure une liaison structurale entre le muscle squelettique et le tendon et permet la transmission des forces de contraction au squelette. Mon projet de thèse a visé à caractériser le rôle de COLXXII in vivo; le modèle du poisson zèbre a été choisi. Chez le poisson zèbre, col22a1 code pour COLXXII dont l'expression débute dans tout le somite, puis, se restreint progressivement aux extrémités des fibres musculaires au niveau de la JMT, où est déposée la protéine. Utilisant la technique de morpholino-knockdown, nous avons montré que les morphants développent un phénotype dystrophique et que le COLXXII fait très probablement partie du complexe d'ancrage intégrine α7β1. Cependant, compte tenu de la durée d'efficacité réduite des morpholinos, notre étude était limitée. Utilisant la technologie CRISPR-Cas9, nous avons donc généré deux lignées invalidées pour col22a1. L'analyse ultra-structurale des poissons col22a1-/-, de la jeune larve à l'adulte, montre que les interdigitations du sarcolemme, caractéristiques de la JMT, sont pratiquement absentes chez les mutants (comme chez les morphants), pouvant impacter la transmission des forces et/ou l'attachement du muscle aux myoseptes (tendons). De façon intéressante, pour les deux lignées, la même proportion de larves présente un phénotype très sévère entrainant la mort vers 2 semaines post-fécondation (spf). Les autres larves, elles, survivent et ne montrent pas de phénotype global particulier. En revanche, une forte réduction des interdigitations de la JMT est constatée et dans de rares cas, après challenge des poissons, une rupture musculaire est observée. Une première approche de q- PCR par gène candidat a été réalisée et il semble possible que les différences phénotypiques soient liées à des évènements conjoints d'expressivité variable et de compensation génique. Enfin, utilisant un système original de test de nage à contre-courant par palier, j'ai montré que les poissons col22a1-/- âgés de 6 mois ont une capacité de nage très diminuée et consomment d'avantage d'O2 pendant l'effort comparés aux animaux sauvages. L'efficacité du système musculo-squelettique semble donc moindre en l'absence de collagène XXII. Nos résultats devraient permettre de considérer COL22A1 comme un gène candidat pour les cas de dystrophies musculaires dont la cause génétique est non élucidée / The myotendinous junction (MTJ) is a specialized extracellular matrix which allows the transmission of skeletal muscle forces to bones. My thesis project aimed at characterizing the in vivo role of COLXXII using the zebrafish as a model. The zebrafish col22a1 gene encodes COLXXII whose expression begins in the entire somite, and is then restricted gradually at the MTJ, where the protein is deposited. Morphants (Knockdown) develop a dystrophic phenotype and we have demonstrated that COLXXII is likely a member of the integrin a7ß1 anchoring complex. However, because morpholinos are efficient only few days after injection, our study was limited to early stages of zebrafish development. We thus generated two mutant lines (CRISPR-Cas9) invalidated for col22a1. The typical sarcolemmal interdigitations of the MTJ are almost absent in mutants, from larvae to adult (as in morphants), which could impact the force transmission and/or the muscle attachment to myosepta (tendons). In the two mutant lines, the same proportion of larvae displays a severe phenotype leading to fish death 14 days post-fertilization. On the contrary, other larvae survive without any obvious general phenotype. A first candidate genes approach was realized by qPCR and tends to show that the phenotypic differences may be due to both, variable expressivity and genetic compensation. Finally, I have shown that 6 months col22a1-/- fish show a highly decreased swimming capacity and consume more O2 during effort compared to wild type animals. Thus, we conclude that the musculoskeletal system efficiency seems altered in absence of COLXXII. Our results should allow considering COL22A1 as a candidate gene for muscular dystrophies with unclarified genetic cause.

Poisson zèbre

Collagène XXII

Jonction myotendineuse

Morpholinos

CRIPSR-Cas9

Dystrophie musculaire

Performance de nage

Zebrafish

Collagen XXII

Myotendinous junction

Morpholinos

CRIPSR-Cas9

Muscular dystrophy

Swimming performance

570

Características estruturais e ultraestruturais da junção miotendínea do músculo esternomastóideo de ratos Wistar recém-nascidos, adultos e idosos / Structural and ultrastructural features of myotendinous junction of the sternomastoid muscle of newborns, adults and aged Wistar rats

Adriano Polican Ciena

25 July 2013

A junção miotendínea (JMT) é a principal área de transmissão de força e de lesões do sistema muscular esquelético, atuando no posicionamento e estabilização articular. O estudo morfológico das estruturas e ultraestruturas da JMT do músculo esternomastóideo (EM) demonstrará as características desde o nascimento, ao revelar os esboços iniciais do desenvolvimento, sua completa formação na fase adulta e possíveis alterações e comprometimentos morfofuncionais em decorrência do processo fisiológico do envelhecimento. O objetivo do presente estudo consiste em descrever as características estruturais e ultraestruturais da JMT do músculo EM de ratos Wistar recém-nascidos, adultos e idosos empregando os métodos de microscopia de luz, microscopia eletrônica de varredura e microscopia eletrônica de transmissão. Foram utilizados 45 ratos Wistar, em três grupos (n=15): Grupo Recém-nascido: animais com 5 dias de vida; Grupo Adulto: animais com 4 meses de idade; Grupo Idoso: animais com 24 meses de idade. Os animais, após anestesia, foram dissecados os músculos EM e as JMT destes foram processadas de acordo com os métodos empregados. As características morfológicas da JMT do Grupo Recém-nascido revelaram o seu esboço durante o desenvolvimento, através da interação das células musculares e elementos da matriz extracelular, destacando delgadas dobras no sarcolema e elevada atividade celular através de inúmeras tenoblastos e mitocôndrias ovais aglomeradas. No Grupo Adulto revelaram características clássicas da JMT em destaque às dobras do sarcolema formando longas projeções denominadas de evaginações e invaginações sarcoplasmáticas. No Grupo Idoso foram observadas alterações na JMT, com espessamento em ambos os níveis das invaginações sarcoplasmáticas e nas comunicações centrais com as junções laterais, além de espessamento de feixes de fibras colágenas e redução celular nesta área. Conclui-se que a JMT desde os estágios iniciais de desenvolvimento ao envelhecimento apresentam intenso processo de formação, remodelamento e alterações em decorrência do processo fisiológico do envelhecimento. / The myotendinous junction (MTJ) is the main area of power transmission and injuries of the musculoskeletal system, working on positioning and joint stabilization. The morphological study of the structures and ultrastructures of JMT muscle esternomastóideo (EM) demonstrated characteristics from birth, to reveal initial development, its complete training in adulthood and possible changes and compromises morphofunctional due to the physiological process of aging. The aim of this study is to describe the structural and ultrastructural features of JMT muscle EM Wistar rat newborns, adults and the elderly employing the methods of light microscopy, scanning electron microscopy and transmission electron microscopy. We used 45 Wistar rats into three groups (n = 15): Newborn Group: animals with 5 days of life; Adult Group: animals with 4 months of age; Group Aged: animals 24 months of age. The animals, after anesthesia, the muscles were dissected and the MTJ these were processed in accordance with the methods employed. The morphological characteristics of the JMT Group Newborn revealed his sketch during development, through the interaction of muscle cells and extracellular matrix elements, highlighting the slender folds sarcolemma and high cellular activity through numerous mitochondria oval crowded and tenoblastos. In Adult Group revealed classic features of JMT with highlight the folds of the sarcolemma forming long projections denominated evaginations and invaginations of the sarcoplasmic membrane. In Aged Group changes were observed in the MTJ with thickening at both levels of sarcoplasmic invaginations and in communications with the central lateral junctions, and thickening of collagen fibers and reduced cell in this area. We conclude that the JMT since the early stages of development to aging have intense training process, remodeling and changes due to the physiological process of aging.

Envelhecimento

Junção miotendínea

Microscopia eletrônica de transmissão

Microscopia eletrônica de varredura

Músculo esternomastóideo

Aged

Muscle esternomastóideo

Myotendinous junction

Scanning electron microscopy

Transmission electron microscopy.